Rihab Chhoud | Chemistry | Best Researcher Award

Posted on by Physicist Particle

Dr. Rihab Chhoud | Chemistry | Best Researcher Award

Postdoctoral Researcher at Faculty of Pharmacy of Monastir, Tunisia

Dr. Rihab Chhoud 🇹🇳 is a dynamic Tunisian chemist specializing in the phytochemical and pharmacological exploration of bioactive compounds from oasis fruit trees 🌴. With a Ph.D. in Chemistry from the Faculty of Sciences of Monastir (2022), her work integrates organic synthesis, biomolecule characterization, and drug discovery. A seasoned researcher with international exposure, Dr. Chhoud conducted significant doctoral internships in Italy 🇮🇹 and Spain 🇪🇸, enriching her scientific depth. Her postdoctoral research focuses on green extraction of oleuropein from organic olive leaves 🌿 for nutraceutical applications. She has authored impactful publications in journals like International Journal of Biological Macromolecules and Chemical Biodiversity, targeting antidiabetic, antiherpetic, and antioxidant therapies. Passionate about soft skills and academic writing, she also actively trains students in chemistry-related disciplines. Dr. Chhoud exemplifies the new wave of innovative, globally-aware women scientists making substantial contributions to sustainable health sciences 🌍👩‍🔬.

Professional Profile 

🎓 Education

Dr. Rihab Chhoud’s academic journey began with a fundamental license in Chemistry from Gabes University 🎓. She pursued a Research Master’s in Organic Synthesis at Monastir, delving into the biomolecular richness of Tunisian date seeds 🌰. Her Ph.D. (2017–2022) at the Laboratory of Advanced Materials and Interfaces (LIMA) showcased her multidisciplinary strengths—merging chemistry, pharmacology, and bioactivity profiling. Supervised by Prof. Hatem Majdoub, her doctoral research examined biologically active compounds from oasis fruit trees, blending traditional knowledge with modern analytical tools. Additional certifications in academic writing, soft skills, and molecular docking reflect her commitment to holistic scientific development 📚. Her global perspective was enhanced by internships in Italy and Spain, sharpening her technical fluency and international communication 🌐. From high school distinctions to postgraduate excellence, Dr. Chhoud’s educational background is rooted in resilience, curiosity, and consistent academic merit. Her learning path is a testament to dedication, purpose, and interdisciplinary vision 🌟.

🧪 Professional Experience

Dr. Chhoud has cultivated rich professional experience in academia and international research environments 👩‍🏫. As a postdoctoral researcher at the Faculty of Pharmacy, Monastir (2025–present), she’s engaged in green chemistry innovations involving oleuropein extraction from organic olive leaves 🌿. She previously served as a temporary teacher, delivering practical chemistry lessons ranging from biochemistry to chromatographic techniques. Her career includes prestigious doctoral research stays in Spain and Italy, exploring bioactive substances and their therapeutic potential under expert mentorship 🇪🇸🇮🇹. From 2014 to 2023, she consistently pursued opportunities to refine her scientific writing, English proficiency, and lab methodology through summer schools, soft-skill workshops, and publishing programs 📖. Her ability to transition seamlessly between labs, classrooms, and international forums marks her as a versatile and proactive professional. Dr. Chhoud’s career pathway embodies a globalized, interdisciplinary, and education-oriented model, empowering her to address complex chemical and biomedical challenges with clarity and creativity 🧬.

🧠 Research Interests

Dr. Chhoud’s research interests lie at the intersection of natural product chemistry, green extraction technologies, and biomedical applications 🌿💊. Her investigations have centered on isolating and characterizing polyphenols, polysaccharides, and fatty substances from Tunisian plant sources, particularly date palms and olive leaves 🌴. She’s deeply invested in understanding the pharmacological properties of these compounds, such as antidiabetic, wound-healing, and antiviral effects. Her advanced techniques include UPLC-MS analysis, molecular docking, and structure–activity relationship (SAR) studies 🔬. Currently, her work on oleuropein optimization for nutraceuticals aligns with global trends in sustainable healthcare and functional foods. Dr. Chhoud is also intrigued by biopolymers and their enzymatic behaviors in disease models such as Parkinson’s 🧬. Whether studying enzyme inhibition or plasma antioxidant levels, her aim is to extract value from nature using chemistry, for practical therapeutic benefit. Her research bridges tradition and innovation—transforming indigenous flora into global health solutions 🌍💡.

🏆 Awards and Honors

While Dr. Chhoud’s formal accolades are still emerging, her academic path and global participation reflect significant recognition and promise 🎖️. She was competitively selected for doctoral internships in top labs in Naples and Granada, funded by the Tunisian Ministry of Higher Education and ERASMUS+, respectively 🌍. She has also benefited from advanced training in scientific writing, academic English, soft skills, and computational drug design—showcasing her proactive pursuit of excellence beyond standard curricula 🏅. Her peer-reviewed publications in internationally indexed journals further demonstrate her contributions to cutting-edge research. Participating in events like International Day of Women and Girls in Science underscores her commitment to STEM equity 👩‍🔬✨. Dr. Chhoud’s work represents the intellectual resilience and innovation of North African women in science, and her continuous self-development initiatives signal future accolades at national and international levels 🥇📚.

📚 Publications Top Note 

1. Structural characterization and functional evaluation of polysaccharides extracted from the heart of date palm (Phoenix dactylifera L.): Insights into α-amylase inhibition and antidiabetic potential

  • Authors: Rihab Chhoud

  • Year: 2025

  • Citation (DOI): 10.1016/j.ijbiomac.2025.145425

  • Source: International Journal of Biological Macromolecules

  • Summary:
    This study investigates the structure and function of bioactive polysaccharides derived from the heart of date palm. Using various analytical techniques, the research characterizes their molecular composition and morphology. The polysaccharides exhibit notable α-amylase inhibition, indicating their potential as natural antidiabetic agents by moderating glucose release. These findings support the use of date palm-derived compounds in functional food or therapeutic formulations for diabetes management.

2. Chemical Profile of the Pits Oil from the Tunisian ‘Alig’ Cultivar of Phoenix dactylifera L.: In Vivo Wound Healing Potential Evaluation of a Cream Formulated from the Extracted Oil and Insights from Molecular Docking and SAR Analysis

  • Authors: Rihab Chhoud

  • Year: 2023

  • Citation (DOI): 10.1002/cbdv.202200533

  • Source: Chemistry & Biodiversity

  • Summary:
    This paper reports the chemical composition of oil extracted from the pits of the Tunisian date palm cultivar ‘Alig’. The formulated oil-based cream demonstrated significant wound healing properties in in vivo animal models. Additionally, molecular docking and structure–activity relationship (SAR) analysis identified possible mechanisms behind the bioactivity, suggesting fatty acids and phenolic compounds as key active constituents. The research supports the oil’s use in topical therapies for skin injuries.

3. Identification of an anti-herpetic compound isolated from Pistacia vera L. male floral buds

  • Authors: Rihab Chhoud

  • Year: 2022

  • Citation (DOI): 10.1007/s13205-022-03393-y

  • Source: 3 Biotech

  • Summary:
    The study isolated and identified a bioactive compound from male floral buds of Pistacia vera (pistachio) with anti-herpetic properties. In vitro assays confirmed inhibitory effects against herpes simplex virus (HSV) strains. The compound demonstrated low cytotoxicity and high selectivity index, making it a promising natural antiviral candidate. The work adds value to underexplored parts of the pistachio plant in phytopharmaceutical development.

4. Phytochemical and Bioactivities of Male Flower Buds of Fruit Trees from the Southern Tunisia: Polyphenols UPLC-MS Profiles and Antioxidant Enzymatic Potential in Human Plasma of Parkinson’s Disease Patients

  • Authors: Rihab Chhoud

  • Year: 2022

  • Citation (DOI): 10.1007/s42250-022-00430-4

  • Source: Chemistry Africa

  • Summary:
    This paper explores the polyphenolic composition (via UPLC-MS) of male flower buds from various fruit trees in southern Tunisia and evaluates their antioxidant effects on human plasma from Parkinson’s disease patients. The extracts enhanced enzymatic antioxidant defenses (e.g., SOD, CAT) and reduced oxidative stress markers. The findings highlight the neuroprotective potential of these traditional plant parts, paving the way for complementary therapies in neurodegenerative diseases

🔚 Conclusion

In conclusion, Dr. Rihab Chhoud is a forward-thinking chemist blending rigorous science with social impact 🔍💚. Her interdisciplinary training, international collaborations, and research on bioactive compounds place her at the forefront of sustainable biomedical innovation. A passionate teacher, active researcher, and lifelong learner, she bridges laboratory precision with real-world relevance. Her dedication to natural product discovery and green chemistry aligns with global health and environmental goals. From oasis fruit trees to molecular modeling, her journey is rooted in both local heritage and global vision 🌿🌐. With her expanding publication record and strong academic foundation, Dr. Chhoud is poised to contribute substantially to nutraceutical development, pharmacological science, and academic mentorship. A shining example of Tunisia’s emerging scientific talent, her career holds promise for further breakthroughs in natural therapies and chemical biology. The future looks bright for this devoted researcher, educator, and role model in modern chemistry 🧪✨.

Ai Haiping | Mechanical Engineering | Best Researcher Award

Posted on by Physicist Particle

Assoc. Prof. Dr. Ai Haiping | Mechanical Engineering | Best Researcher Award

Associate professor at jiangxi university of science and technology, China

Dr. Haiping Ai 🎓, born in June 1991, is an accomplished Associate Professor at Jiangxi University of Science and Technology 🏛️. With a Ph.D. in Mechanical Design and Theory from Fuzhou University (2020), he exhibits a deep commitment to cutting-edge robotics and nonlinear control systems 🤖. He further enriched his academic exposure as a visiting scholar at Tsinghua University 🇨🇳. His research primarily focuses on the dynamics and advanced control of space robots and nonlinear systems in extreme conditions 🛰️. Known for his innovative mindset and methodical research approach, Dr. Ai continues to contribute meaningfully to intelligent mechanical systems. With strong academic roots and real-world research experience, he represents a new generation of thinkers pushing the boundaries of automation and control 💡. His collaborative nature and pursuit of excellence make him a rising star in mechanical engineering 🌟.

Professional Profile 

🎓 Education

Dr. Haiping Ai’s academic journey is a tale of excellence and progression 📘. He began his undergraduate studies in Mechanical Engineering at Nanchang University (2010–2014), earning a B.E. degree with solid technical foundations 🔧. He then advanced to Fuzhou University for his Master of Applied Science (2014–2016), laying the groundwork for his research in control systems 🛠️. Passionate about mechanics and intelligent systems, he pursued a Ph.D. at the same university (2016–2020), under the guidance of Professor Li Chen. His doctoral research combined theoretical insights with real-world applications in space robot control 🌌. During this period, he was selected as a visiting scholar at Tsinghua University (2017–2018), where he gained exposure to advanced robotic systems and collaborative research practices 🌐. His educational path reflects deep dedication to mastering engineering science and evolving technologies in robotics.

👨‍🏫 Professional Experience

Dr. Haiping Ai began his academic career shortly after completing his doctoral studies, joining Jiangxi University of Science and Technology 🌱 as an Associate Professor. Located in Ganzhou, Jiangxi, this role enabled him to bridge classroom theory with advanced mechanical applications ⚙️. He engages in teaching, mentoring students, and leading high-impact research projects related to space robotics and nonlinear system design 🚀. His role as a faculty member allows him to integrate cutting-edge knowledge with pedagogical skills, nurturing the next generation of engineers 👨‍💼. With solid grounding in both academia and hands-on research, Dr. Ai has also collaborated across departments and institutions, contributing to interdisciplinary innovation and scholarly excellence 🧠. His responsibilities extend beyond lecturing to supervising theses, securing funding, and publishing in reputed journals, underlining his growing influence in mechanical design and robotics.

🔬 Research Interests

Dr. Ai’s research is centered around two dynamic areas of mechanical engineering: space robot dynamics and control, and nonlinear control systems 🌌🔧. His fascination with space mechanisms drives him to explore how robots operate in microgravity and perform autonomous tasks in complex, unpredictable environments 🚀. His work delves deep into control algorithms that ensure precision, adaptability, and resilience in robotic systems subjected to non-Earth conditions. Additionally, his research on nonlinear control addresses the challenges of managing systems with high levels of uncertainty, complexity, and nonlinearity ♾️. These contributions have real-world applications not only in aerospace but also in industrial automation, intelligent vehicles, and beyond 🌍. Known for blending theoretical models with simulation and experimental verification, Dr. Ai is at the forefront of transformative research, unlocking new capabilities for autonomous robotic systems and intelligent control paradigms.

🏅 Awards and Honors

Dr. Haiping Ai’s career has been marked by several accolades that highlight his academic promise and research impact 🏆. As a visiting scholar at Tsinghua University—one of China’s most prestigious institutions—he was selected based on academic merit and innovative research potential 🎖️. While specific award titles are not mentioned, his rapid progression to an Associate Professorship shortly after graduation signifies recognition by peers and institutions alike 📈. His contributions to the fields of space robotics and nonlinear control have been acknowledged through research grants, conference invitations, and scholarly publications in top-tier journals 📚. His ability to translate complex ideas into practical, high-value outcomes positions him as a future leader in mechanical systems engineering 🧑‍🔬. With continued excellence in teaching, mentoring, and pioneering innovation, Dr. Ai stands poised to earn national and international honors in the near future.

📚 Publications Top Note 

1. Title: Short-term Lake Erie algal bloom prediction by classification and regression models

  • Authors: H. Ai, K. Zhang, J. Sun, H. Zhang

  • Year: 2023

  • Citations: 54

  • Source: Water Research, Volume 232, Article 119710

  • Summary:
    This study explores short-term prediction of algal blooms in Lake Erie using machine learning models. The authors developed and compared classification and regression-based approaches to predict chlorophyll-a concentrations, which serve as a proxy for algal bloom severity. The models used meteorological and water quality data, with ensemble techniques such as random forests and XGBoost delivering high accuracy. The work aids in environmental monitoring and early-warning systems to mitigate harmful algal bloom impacts.

2. Title: The efficacy of pH-dependent leaching tests to provide a reasonable estimate of post-carbonation leaching

  • Authors: H. Ai, K.A. Clavier, B.E. Watts, S.A. Gale, T.G. Townsend

  • Year: 2019

  • Citations: 51

  • Source: Journal of Hazardous Materials, Volume 373, Pages 204–211

  • Summary:
    This paper evaluates the effectiveness of pH-dependent leaching tests to predict long-term metal leaching from cementitious materials after carbonation. The researchers tested different construction and demolition waste materials under simulated environmental conditions. The study found that post-carbonation behavior could be reliably estimated using modified pH leaching protocols, offering better regulatory guidance for reuse or disposal of these materials.

3. Title: Phosphate removal by low-cost industrial byproduct iron shavings: Efficacy and longevity

  • Authors: H. Ai, K. Zhang, C.J. Penn, H. Zhang

  • Year: 2023

  • Citations: 14

  • Source: Water Research, Volume 246, Article 120745

  • Summary:
    This research investigates the use of iron shavings—a low-cost byproduct of metal machining—for phosphate removal from wastewater. Batch and column tests showed the material had good adsorption capacity and long-term performance. The study emphasizes the potential of using waste-derived materials for sustainable nutrient management, especially in agricultural runoff and stormwater treatment.

4. Title: Efficient smartphone-based measurement of phosphorus in water

  • Authors: H. Ai, K. Zhang, H. Zhang

  • Year: 2024

  • Citations: 4

  • Source: Water Research X, Volume 22, Article 100217

  • Summary:
    This recent study presents a cost-effective and portable method for measuring phosphorus in water using smartphone image processing. The developed system uses colorimetric reagents and smartphone cameras to quantify phosphate levels. Calibration with lab-based methods showed high accuracy. The tool is suitable for real-time monitoring in field conditions, supporting water quality management in both rural and urban settings.

Conclusion 

In conclusion, Dr. Haiping Ai represents the synthesis of deep academic training, forward-looking research, and impactful teaching 🧠📚. From his beginnings in Jiangxi to collaborative work at Tsinghua University, his journey reflects resilience, intellect, and dedication. He contributes profoundly to the development of intelligent robotic systems and nonlinear control strategies, with implications reaching from space to factory automation 🚀🏭. His role as an Associate Professor enables him to influence both the academic and research trajectories of his institution. With a strong educational background, rich research profile, and a passion for future technologies, Dr. Ai is on a path to become a distinguished voice in mechanical engineering 🥇. His innovative spirit and collaborative ethos ensure he will continue making meaningful contributions to science, education, and technology in the years to come 🌟.

Ramanadane Thirunavukkarasu | Seed Science | Best Researcher Award

Posted on by Physicist Particle

Dr. Ramanadane Thirunavukkarasu | Seed Science | Best Researcher Award

Professor & Head at Pandit Jawaharlal Nehru College of Agriculture and Research Institute, India

Dr. T. Ramanadane 🌾, an accomplished Professor of Seed Science & Technology at PAJANCOA & RI, Karaikal, brings with him over 30 years of dedicated academic and research service. With a Ph.D. in Seed Science and Technology from Tamil Nadu Agricultural University 🎓, he has passionately taught undergraduate, postgraduate, and horticulture students for nearly three decades. His expertise in seed technology, varietal purity, and post-harvest innovation has led to groundbreaking contributions, including 17 externally funded research projects 💡 totaling ₹678.53 lakhs. As a lead investigator, he has developed multiple scalable technologies such as seed solarization and thermo-priming 🌞, reflecting his commitment to sustainable agriculture. His vision has enhanced seed infrastructure in Puducherry, including the establishment of advanced testing and storage units. 📦 Respected as both a mentor and a visionary in agrarian research, Dr. Ramanadane continues to sow the seeds of progress across India’s agricultural landscape. 🌱

Professional Profile 

🎓 Education

Dr. T. Ramanadane’s academic journey is deeply rooted in the field of agriculture 🌾. He earned his Ph.D. (2003) and M.Sc. (Ag.) in Seed Technology (1995) from the prestigious Tamil Nadu Agricultural University, Coimbatore, after completing his B.Sc. (Ag.) in 1992 from Pandit Jawaharlal Nehru College of Agriculture, Karaikal 🎓. His specialization in Seed Science and Technology was driven by a desire to uplift crop productivity and ensure seed quality for future generations. Over the years, his academic depth has laid the foundation for research excellence and pedagogy in seed-related innovations. Through these esteemed institutions, he cultivated not only technical proficiency but also a deep ethical understanding of food security and sustainable farming 🌍. This strong educational base has enabled him to become a mentor, curriculum designer, and keynote academician in the field of seed science across multiple agrarian disciplines.

👨‍🏫 Professional Experience

Dr. Ramanadane’s professional voyage spans over 30 glorious years at PAJANCOA & RI, Karaikal 🚜. He began as an Assistant Professor in 1995 and rose steadily through the academic ladder, becoming a Professor in 2010. His teaching canvas covers B.Sc. (Ag.), B.Sc. (Hort.), and M.Sc. (Ag.) degree programs, influencing thousands of young agriculturists across India 📘. With 29 years of undergraduate teaching and 20 years at the postgraduate level, his lectures have nurtured deep-rooted knowledge and practical seed science skills 🌱. As a research leader, he has spearheaded over 17 externally funded projects, and established vital infrastructures like seed processing units and seed health testing labs 🧪. His exceptional administrative foresight helped strengthen breeder seed production and promote inclusive programs like the Seed Village Scheme. Through dedication, he remains an inspirational figure and a keystone in Puducherry’s agricultural transformation. 💼

🔬 Research Interest

Dr. Ramanadane’s research palette is vast and vibrant, focused predominantly on seed production technologies, seed processing efficiency, bruchid pest control, seed enhancement, and storage 🔍. He is credited with the development of numerous technologies such as seed solarization, thermo-priming, and safe storage in super bags, addressing climate and pest-induced challenges in crops like Paddy, Soybean, and Pigeon Pea 🌾🌶️. With over ₹678.53 lakhs in research funding, his pioneering work through ICAR and private firms has catalyzed real-world impact in farmer communities and academia. He has implemented advanced infrastructure for GOT (Grow Out Test) facilities, breeder seed enhancement, and participatory village seed programs. His innovations support terminal heat stress mitigation and varietal purity validation. 🌡️ His continued exploration into biostimulants, seed health, and technology adoption keeps him at the frontier of India’s seed science landscape, where his work echoes from the laboratory to the land. 🌎

🏅 Award and Honor

While formal awards aren’t listed, Dr. Ramanadane’s enduring legacy lies in the transformative impact of his contributions to Indian seed science and rural empowerment 🎖️. His leadership in implementing the ICAR-AICRP Seed Projects, seed infrastructure schemes by the Ministry of Agriculture, and private research initiatives have gained widespread recognition among scientific and farming communities 🌟. His work directly uplifts seed quality, farm productivity, and training for marginalized groups, including programs aimed at empowering Scheduled Caste farmers 🌿. The trust reposed in him by national agencies, private firms, and policymakers underscores his reliability and influence. Each externally funded project stands as a testament to his commitment and intellectual merit 🧠. Beyond institutional walls, his influence resonates in fields, labs, training centers, and seed banks across Puducherry and beyond — a silent yet strong award in itself: the legacy of change. 📜

📚 Publications Top Note 

1. Ageing and anatomical influence on seed storability in rice (Oryza sativa L.) hybrids and parental lines

  • Authors: T. Ramanadane, A.S. Ponnuswamy

  • Year: 2004

  • Citations: 20

  • Source: Tropical Agricultural Research, 16, pp. 37–50

  • Summary: This study evaluates the anatomical and physiological changes during seed ageing in rice hybrids and parental lines. It highlights the structural differences influencing storability and identifies lines with superior longevity.

2. Combining ability analysis in Finger millet (Eleusine coracana (L.) Gaertn.) under salinity

  • Authors: H.B. Shailaja, S. Thirumeni, K. Paramasivam, T. Ramanadane

  • Year: 2010

  • Citations: 16

  • Source: Electronic Journal of Plant Breeding, 1(2), pp. 129–139

  • Summary: This paper focuses on genetic studies using combining ability analysis in finger millet under saline conditions. It identifies promising parental combinations for breeding salinity-tolerant cultivars.

3. Role of polymer coating on seed quality status of hybrid rice (Oryza sativa L.) during storage under coastal ecosystem

  • Authors: C. Rettinassababady, T. Ramanadane, R. Renuka

  • Year: 2012

  • Citations: 14

  • Source: Journal of Biological and Chemical Research, 29(2), pp. 142–150

  • Summary: The paper investigates the effect of polymer seed coating on the maintenance of seed quality during storage in coastal environments, showing improved viability and vigor in coated seeds.

4. Effect of salinity on seed germination and seedling growth of rice varieties

  • Authors: S. Thirumeni, A. Anuratha, T. Ramanadane, K. Paramasivam

  • Year: 2001

  • Citations: 11

  • Source: Not specified

  • Summary: A comparative study on how salinity affects germination rate and seedling vigor in different rice varieties. Some varieties showed better salt tolerance and are suitable for saline-prone areas.

5. Effect of culture filtrates of Trichoderma viride isolates on germination of black gram and sclerotia of Macrophomina phaseolina

  • Authors: C. Rettinassababady, N. Ramadoss, T. Ramanadane

  • Year: 2000

  • Citations: 7

  • Source: Not specified

  • Summary: This research studies the bio-control potential of Trichoderma viride against fungal pathogen M. phaseolina and its impact on seed germination of black gram.

6. Seed Quality Status of Polymer-Coated Bt Cotton (Gossypium sp.) During Storage Under Coastal Environment

  • Authors: C. Rettinassababady, T. Ramanadane

  • Year: 2014

  • Citations: 6

  • Source: Microbial Diversity and Biotechnology in Food Security, pp. 349–355

  • Summary: The study highlights how polymer coating enhances Bt cotton seed quality under storage in humid coastal climates by preserving germination potential and seedling vigor.

7. Evaluation of different packaging materials for safe storage of paddy seeds in coastal areas

  • Authors: T. Ramanadane, C. Rettinassababady

  • Year: 2008

  • Citations: 6

  • Source: ORYZA – An International Journal on Rice, 45(3), pp. 202–205

  • Summary: This paper evaluates packaging options for rice seed storage in coastal regions. Laminated aluminum foil pouches were found to retain seed quality more effectively than traditional materials.

8. Influence of production environment on seed quality

  • Authors: T. Ramanadane, A.S. Ponnuswamy, K. Raja

  • Year: 2005

  • Citations: 6

  • Source: Madras Agricultural Journal, 92(4–6), pp. 200–207

  • Summary: Explores how varying agro-climatic conditions at the time of seed production impact rice seed quality. Recommendations are provided for optimal production zones.

9. Seed extraction in Jamun (Syzygium cuminii Skeels)

  • Authors: P. Srimathi, T. Ramanadane, K. Malarkodi, K. Natarajan

  • Year: 2003

  • Citations: 6

  • Source: Not specified

  • Summary: This article presents efficient methods for extracting seeds from Jamun fruit, focusing on maintaining viability and improving processing efficiency.

10. Studies on seed ageing and crop performance of aged seeds of maize (Zea mays L.) hybrids and parental lines

  • Author: T. Ramanadane

  • Year: 1995

  • Citations: 4

  • Source: Unpublished M.Sc. (Ag.) Thesis, Tamil Nadu Agricultural University

  • Summary: Master’s research analyzing how seed ageing impacts maize hybrid performance, both in storage and in-field productivity.

11. Calophyllum inophyllum

  • Authors: T. Ramanadane, K. Parmasivam, K. Vanangamudi

  • Year: 2007

  • Citations: 3

  • Source: Advances in Seed Science and Technology (Forest Tree Seed Production)

  • Summary: Discusses seed biology, extraction, dormancy, and storage characteristics of Calophyllum inophyllum, an important forest tree species.

12. Studies on ecological influence and post-harvest seed management techniques on seed quality in hybrid rice (Oryza sativa L.) hybrids and parental lines

  • Author: T. Ramanadane

  • Year: 2003

  • Citations: 3

  • Source: Ph.D. Thesis, Tamil Nadu Agricultural University, Coimbatore

  • Summary: Doctoral research examining how environment and post-harvest management affect hybrid rice seed quality. Includes insights into moisture management and packaging strategies.

Conclusion

Dr. T. Ramanadane stands as a pillar of India’s agricultural research, seed science innovation, and academic mentorship 🌱. With over three decades of impactful service in education, research, and outreach, he has bridged the gap between field-level farming and futuristic seed technologies 🧬. His dedication to developing indigenous, cost-effective, and scalable innovations empowers farmers while enhancing seed systems nationwide. By steering 17 government and industry-sponsored projects, he has revitalized the agricultural landscape of Puducherry through sustainable solutions and cutting-edge research infrastructure 🏗️. As a lifelong educator, his teachings extend beyond classrooms — they are imprinted on fertile fields and thriving seed banks. A true agrarian visionary, Dr. Ramanadane exemplifies leadership grounded in science, service, and stewardship. 🌍 His journey continues to inspire both peers and pupils, as he plants the seeds of excellence for generations to come. 🌾

Shahriyar Safat Dipta | Engineering | Young Scientist Award

Posted on by Physicist Particle

Dr. Shahriyar Safat Dipta | Engineering | Young Scientist Award

PhD Scholar at University of New South Wales, Australia

Shahriyar Safat Dipta 🌱 is a dynamic Project Engineer and accomplished academic with a rich background in electrical and renewable energy systems. With a PhD from UNSW 🇦🇺 and a stellar undergraduate record at BUET 🇧🇩, he blends academic brilliance with hands-on technical expertise. From lecturing in Bangladesh to leading energy projects in Australia, Shahriyar has built a multidisciplinary profile in solar photovoltaics, battery storage, and smart building systems. He has contributed to cutting-edge research, holds a patent in solar encapsulation, and has delivered impactful energy solutions in both industrial and academic settings ⚡. Adept in tools like MATLAB, PSCAD, and Python, he demonstrates fluency in both system-level design and detailed analysis 🖥️. Shahriyar’s collaborative spirit, punctuality ⏱️, and communication prowess make him an exceptional asset in complex, team-driven environments. Passionate about sustainable innovation 🌞 and future-proof technologies, he remains committed to transforming energy systems for a greener planet 🌍.

Professional Profile 

🎓 Education

Shahriyar’s academic trajectory is a testament to his pursuit of excellence 📚. He earned his PhD in Renewable Energy Engineering from the prestigious University of New South Wales (UNSW), where he delved deep into electrical modeling and photovoltaic analysis. His doctoral work led to published papers and a patent on phenolic encapsulation for perovskite solar cells 🧪. Prior to this, he completed his B.Sc in Electrical and Electronic Engineering at BUET, Dhaka, ranking among the top 5% of his class with a remarkable CGPA of 3.89/4.00 🏅. At BUET, he immersed himself in numerous research-based and design-focused projects in electronics, power systems, and communication technologies. His formal education provided a robust foundation in theoretical and applied engineering, equipping him with the knowledge and tools to navigate complex energy systems. His passion for learning and technical excellence continues to fuel his work across academia and industry 🌟.

🧰 Professional Experience

Shahriyar brings a wealth of diverse experience across academia and industry 🌐. Currently serving as a Project Engineer at iAuto Energy in Melbourne, he leads building electrical services initiatives—designing, commissioning, and quoting projects that align with Green Star and NABERS energy standards ⚙️. He has played a pivotal role in deploying Schneider EV chargers and automating systems to promote sustainability. Previously, he contributed as a Graduate Researcher at UNSW, working on solar performance, device efficiency, and supervising student projects 🌞. Before moving to Australia, he shaped young engineering minds as a Lecturer at East-West University and Green University of Bangladesh, teaching power systems and guiding final year research 📖. Shahriyar’s career reflects a consistent progression in leadership, technical depth, and a commitment to sustainable energy transitions. His cross-continental experience underscores his adaptability, precision, and ability to deliver results in fast-evolving energy environments 🔌.

🔬 Research Interests

At the heart of Shahriyar’s professional passion lies a strong research identity driven by renewable innovation and system optimization 🌿. His core interests revolve around photovoltaic technology, especially the stability and modeling of perovskite solar cells. At UNSW, he investigated advanced solar encapsulation techniques and contributed to SCAPS-1D-based simulation models for solar efficiency improvement. He also explored plant growth under regulated light environments 🌱—an intersection of energy and agriculture. Earlier at BUET, he studied solar cell behavior and began building his foundation in electrical modeling. Shahriyar is also deeply interested in smart energy systems, battery integration, and grid-connected solutions, utilizing tools like PSSE and PSCAD to simulate dynamic energy flows 🔄. His portfolio includes IoT-driven energy monitoring devices and motion-based communication systems. With a strong publication record, a patent, and real-world applications, Shahriyar continues to bridge the gap between innovative research and implementable technologies for clean energy futures ⚡.

🏆 Awards and Honors

Shahriyar’s academic and professional journey is richly decorated with accolades that spotlight his brilliance 🏅. He earned the Australian Government Research Training Program Scholarship for his PhD at UNSW—a prestigious award recognizing high-potential researchers. He also secured the UNSW Higher Degree Research Completion Scholarship and the Development and Research Training Grant, reflecting his research excellence in photovoltaic systems. Earlier in his academic career, he received the BUET Merit Scholarship for his outstanding undergraduate performance 🎓. His excellence dates back to high school, where he won a Bronze Medal at the International Mathematics Competition in Chiang Mai, Thailand—a rare and early indicator of his analytical strength 🧠. These accolades demonstrate Shahriyar’s consistent pursuit of knowledge and innovation, from foundational education to high-impact research. Each honor represents not just recognition, but also a reminder of the responsibility he carries in reshaping the future of clean energy and sustainable systems 🌎.

📚 Publications Top Note 

1. Stability issues of perovskite solar cells: A critical review

  • Authors: SS Dipta, A Uddin

  • Year: 2021

  • Citations: 70

  • Source: Energy Technology, 9(11), 2100560

  • Summary: A comprehensive review identifying degradation mechanisms in perovskite solar cells (PSCs), covering environmental, intrinsic material, and interfacial instabilities. The paper also discusses strategies to improve device lifetime.

2. Performance analysis of an efficient and stable perovskite solar cell and a comparative study of incorporating metal oxide transport layers

  • Authors: A Ghosh, SS Dipta, SSS Nikor, N Saqib, A Saha

  • Year: 2020

  • Citations: 54

  • Source: Journal of the Optical Society of America B, 37(7), 1966–1973

  • Summary: Examines the efficiency and stability of PSCs using various metal oxide layers. It compares electron and hole transport layers, providing insights into optimizing device performance.

3. Estimating the potential for semitransparent organic solar cells in agrophotovoltaic greenhouses

  • Authors: SS Dipta, J Schoenlaub, MH Rahaman, A Uddin

  • Year: 2022

  • Citations: 50

  • Source: Applied Energy, 328, 120208

  • Summary: Investigates how semitransparent organic solar cells can be integrated into greenhouse roofs. Simulates energy generation and crop yield to evaluate viability in agrophotovoltaic systems.

4. Encapsulating perovskite solar cells for long-term stability and prevention of lead toxicity

  • Authors: SS Dipta, MA Rahim, A Uddin

  • Year: 2024

  • Citations: 27

  • Source: Applied Physics Reviews, 11(2)

  • Summary: Focuses on advanced encapsulation techniques to enhance PSC stability and contain lead leakage, addressing environmental safety concerns for commercial deployment.

5. Enhanced light management and optimization of perovskite solar cells incorporating wavelength dependent reflectance modeling

  • Authors: SS Dipta, A Uddin, G Conibeer

  • Year: 2022

  • Citations: 22

  • Source: Heliyon, e11380

  • Summary: Uses modeling to optimize light harvesting in PSCs by analyzing wavelength-dependent reflectance. Shows improved efficiency through better photon management.

6. Stable and efficient perovskite solar cell with metal oxide transport layers

  • Authors: A Ghosh, S Safat, MS Islam

  • Year: 2019

  • Citations: 11

  • Source: 2019 International Conference on Electrical, Computer and Communication Engineering

  • Summary: Presents a stable PSC architecture using metal oxide transport layers. Demonstrates experimental stability improvements over conventional organic transport layers.

7. Stable and Lead‐Safe Polyphenol‐Encapsulated Perovskite Solar Cells

  • Authors: SS Dipta, AJ Christofferson, PV Kumar, V Kundi, M Hanif, J Tang, N Flores, …

  • Year: 2024

  • Citations: 10

  • Source: Advanced Science, 11(31), 2403057

  • Summary: Introduces polyphenol-based encapsulation to enhance PSC stability and inhibit lead leakage. Shows promise for safer and more durable perovskite devices.

8. Highly efficient double-side-passivated perovskite solar cells for reduced degradation and low photovoltage loss

  • Authors: SS Dipta, MH Rahaman, WB Tarique, AH Howlader, A Pratik, JA Stride, …

  • Year: 2024

  • Citations: 9

  • Source: Solar Energy Materials and Solar Cells, 266, 112655

  • Summary: Employs passivation on both sides of the perovskite absorber layer to reduce degradation and improve photovoltage retention under operational conditions.

9. Self‐Formation of SnCl2 Passivation Layer on SnO2 Electron‐Transport Layer in Chloride–Iodide‐Based Perovskite Solar Cell

  • Authors: AH Howlader, SS Dipta, WB Tarique, Y Qi, A Pratik, Y Yin, MA Hossain, …

  • Year: 2024

  • Citations: 5

  • Source: Advanced Energy and Sustainability Research, 5(7), 2400030

  • Summary: Demonstrates self-passivation using SnCl₂, improving charge transport and reducing interfacial recombination in chloride–iodide PSCs.

10. Comparative analysis of the stability and performance of double-, triple-, and quadruple-cation perovskite solar cells for rooftop and indoor applications

  • Authors: SS Dipta, AH Howlader, WB Tarique, A Uddin

  • Year: 2024

  • Citations: 5

  • Source: Molecules, 29(12), 2758

  • Summary: Studies the effect of different cation combinations on PSC performance and durability, assessing their feasibility for both indoor and rooftop applications.

11. Solution-Processed Bilayered ZnO Electron Transport Layer for Efficient Inverted Non-Fullerene Organic Solar Cells

  • Authors: WB Tarique, MH Rahaman, SS Dipta, AH Howlader, A Uddin

  • Year: 2024

  • Citations: 5

  • Source: Nanomanufacturing, 4(2), 81–98

  • Summary: Proposes a bilayer ZnO-based ETL in inverted organic solar cells, achieving better charge mobility and enhanced overall efficiency.

12. 2-d motion based real time wireless interaction system for disabled patients

  • Authors: SS Dipta, A Ghosh, A Kundu, A Saha

  • Year: 2019

  • Citations: 3

  • Source: 2019 International Conference on Wireless Communications, Signal Processing and Networking

  • Summary: Develops a real-time motion tracking system using wireless technology to assist disabled individuals in interacting with digital environments.

13. Defects passivation in chloride-iodide perovskite solar cell with chlorobenzylammonium halides

  • Authors: AH Howlader, WB Tarique, SS Dipta, A Pratik, Y Yin, A Uddin

  • Year: 2024

  • Citations: 2

  • Source: Solar Energy, 282, 112968

  • Summary: Highlights a novel passivation method using chlorobenzylammonium halides to suppress defects and enhance the efficiency and longevity of chloride–iodide PSCs.

Conclusion

In conclusion, Shahriyar Safat Dipta is a future-facing, solution-driven Electrical and Energy Engineer whose work spans education, research, and engineering execution 🌟. His profile harmonizes academic rigor with practical insights, offering a rare combination of theoretical depth and hands-on expertise in solar energy, smart systems, and project implementation. With a PhD focused on solar technology, an industry role in building electrification, and a foundation in top-tier universities across two continents, Shahriyar exemplifies the modern energy professional 💡. He is not only a contributor to science but a mentor, a collaborator, and an innovator driven by impact. Whether designing solar grids or mentoring student researchers, his influence is consistent and meaningful. As the world moves toward net-zero targets, professionals like Shahriyar will be essential in driving real transformation. His future is undoubtedly bright, and his contributions are poised to light the way for a more sustainable world 🌞🔋🌍.

Daniel Hofstetter | Physics | Best Researcher Award

Posted on by Physicist Particle

Dr. Daniel Hofstetter | Physics | Best Researcher Award

Independent Researcher at Privat, Switzerland

Daniel Hofstetter, born in Zug, Switzerland 🇨🇭 on December 31, 1966, is a seasoned physicist whose career reflects a journey of precision, innovation, and academic excellence. Starting as a precision mechanic apprentice at Landis & Gyr, he transitioned to academia through ETH Zurich 🎓, earning his PhD in Physics with a focus on monolithic Michelson interferometers 🔍. His postdoctoral endeavors took him from the renowned XEROX PARC in California 🇺🇸 to the University of Neuchâtel, where he evolved from researcher to Assistant Professor. With deep expertise in optical measurement and time-frequency research, Hofstetter has been instrumental in advancing experimental physics. His profile is marked by international collaborations, a foundation in applied mechanics, and a persistent curiosity for high-precision systems. An academic pioneer and pragmatic thinker, Hofstetter’s trajectory is a blend of Swiss engineering rigor 🇨🇭 and global scientific impact 🌐.

Professional Profile 

Education 🎓📚

Daniel Hofstetter’s academic foundation began with a hands-on approach—an apprenticeship as a Precision Mechanic (1982–1986), fostering a deep-rooted mechanical understanding 🔧. In 1988, his intellectual drive led him to ETH Zurich, one of Europe’s premier technical institutions. There, he pursued Experimental Physics and earned his PhD in 1996, developing a monolithically integrated Michelson interferometer—a cutting-edge solution for optical displacement measurement 🔬. His education combined theoretical depth with precision engineering, building a rare interdisciplinary toolkit. ETH Zurich not only shaped his technical expertise but also instilled a lifelong commitment to precision research. Daniel’s educational path stands out for blending vocational training with world-class academic rigor—highlighting how curiosity and dedication can forge a unique scientific path from workshop to research lab 🧑‍🔬.

Professional Experience 🧑‍💼🌍

Daniel Hofstetter’s career is a testament to global scientific exploration and steady academic ascent 🌐. Following his PhD, he joined the prestigious XEROX Palo Alto Research Center (PARC) from 1996 to 1998, where he immersed himself in high-tech innovation in California’s Silicon Valley 💡🇺🇸. He returned to Switzerland to join the University of Neuchâtel as a postdoc, transitioning to Assistant Professor by 2002. His focus on precision optics and interferometry gained traction, and from 2008 onward, he contributed to the Laboratory for Time and Frequency—a hub for cutting-edge research in timekeeping technologies and precision systems 🕰️📡. Daniel’s professional path reflects a harmonious balance between applied research and academic teaching, underlined by continuous innovation and global collaboration. His journey encapsulates over two decades of impactful contributions to both industry and academia.

Research Interest 🔭🧪

Daniel Hofstetter’s research centers on high-precision optical systems, particularly interferometry, metrology, and time-frequency measurement systems 🛰️. His doctoral work on monolithic Michelson interferometers laid a solid foundation in displacement sensing—an area critical to modern nanotechnology and precision engineering. His interests expanded during his time at XEROX PARC, exploring the interface of experimental optics with practical applications. At the University of Neuchâtel, he delved into atomic timekeeping, frequency standards, and the interplay between mechanics and light. Hofstetter’s research spans applied physics, optoelectronics, and instrumentation—a triad that positions him at the frontier of modern measurement science 🔬📏. His contributions have direct implications in navigation, telecommunications, and synchronization systems, underscoring his dedication to precision in both theory and application.

Awards and Honors 🏅✨

While specific named awards aren’t listed in his profile, Daniel Hofstetter’s academic trajectory and international research postings reflect high recognition within the scientific community 🌟. Securing a postdoctoral position at XEROX PARC is in itself a testament to his exceptional research caliber. His promotion to Assistant Professor at the University of Neuchâtel signals peer recognition and institutional trust in his abilities. Participation in critical domains like time and frequency laboratories, which are vital to global standards and scientific accuracy, also highlights his elite status in precision metrology 🔍. Hofstetter’s accolades may not all be publicized, but his steady academic growth and affiliations with leading research institutes mirror a career rich in respect, responsibility, and innovation.

📚 Publications Top Note 

1. Continuous wave operation of a mid-infrared semiconductor laser at room temperature

  • Authors: M. Beck, D. Hofstetter, T. Aellen, J. Faist, U. Oesterle, M. Ilegems, E. Gini

  • Year: 2002

  • Citations: 1234

  • Source: Science, Vol. 295, Issue 5553, pp. 301–305

  • Summary:
    Demonstrates room-temperature continuous wave (CW) operation of a quantum cascade laser (QCL) in the mid-infrared (~4.6 µm) range. This breakthrough marked a significant advancement for compact and efficient infrared sources for applications in spectroscopy, sensing, and communications.

2. ZnO devices and applications: a review of current status and future prospects

  • Authors: U. Özgür, D. Hofstetter, H. Morkoç

  • Year: 2010

  • Citations: 1065

  • Source: Proceedings of the IEEE, Vol. 98, Issue 7, pp. 1255–1268

  • Summary:
    A comprehensive review covering the material properties, device performance, and application potential of ZnO-based optoelectronic devices, including light emitters, detectors, and transparent conductors. Highlights challenges such as doping, heteroepitaxy, and device integration.

3. Bound-to-continuum and two-phonon resonance, quantum-cascade lasers for high duty cycle, high-temperature operation

  • Authors: J. Faist, D. Hofstetter, M. Beck, T. Aellen, M. Rochat, S. Blaser

  • Year: 2002

  • Citations: 339

  • Source: IEEE Journal of Quantum Electronics, Vol. 38, Issue 6, pp. 533–546

  • Summary:
    Investigates quantum cascade laser (QCL) designs based on bound-to-continuum transitions and phonon resonance for improved high-duty-cycle and high-temperature performance. Enables extended functionality of QCLs in harsh environments.

4. Quantum cascade detectors

  • Authors: F.R. Giorgetta, E. Baumann, M. Graf, Q. Yang, C. Manz, K. Köhler, H.E. Beere, D. Hofstetter, et al.

  • Year: 2009

  • Citations: 290

  • Source: IEEE Journal of Quantum Electronics, Vol. 45, Issue 8, pp. 1039–1052

  • Summary:
    Describes quantum cascade detectors (QCDs) leveraging intersubband transitions in quantum well structures, offering fast and wavelength-selective infrared detection without the need for cryogenic cooling.

5. Terahertz range quantum well infrared photodetector

  • Authors: M. Graf, G. Scalari, D. Hofstetter, J. Faist, H. Beere, E. Linfield, D. Ritchie, et al.

  • Year: 2004

  • Citations: 285

  • Source: Applied Physics Letters, Vol. 84, Issue 4, pp. 475–477

  • Summary:
    Reports on the development of a quantum well infrared photodetector (QWIP) sensitive in the terahertz (THz) range, an emerging domain for applications in imaging, security, and biomedical sensing.

6. High-temperature operation of distributed feedback quantum-cascade lasers at 5.3 μm

  • Authors: D. Hofstetter, M. Beck, T. Aellen, J. Faist

  • Year: 2001

  • Citations: 279

  • Source: Applied Physics Letters, Vol. 78, Issue 4, pp. 396–398

  • Summary:
    Demonstrates high-temperature CW operation of distributed feedback (DFB) QCLs at 5.3 µm, offering robust performance and single-mode output, important for spectroscopy and gas sensing.

7. Blue vertical cavity surface emitting laser

  • Authors: P.D. Floyd, D. Hofstetter

  • Year: 2000

  • Citations: 252

  • Source: US Patent 6,160,833

  • Summary:
    Patent describing a design for a blue-emitting vertical-cavity surface-emitting laser (VCSEL), with potential applications in optical storage, displays, and short-range communications.

8. GaN/AlN short-period superlattices for intersubband optoelectronics: A systematic study of their epitaxial growth, design, and performance

  • Authors: P.K. Kandaswamy, F. Guillot, E. Bellet-Amalric, E. Monroy, L. Nevou, D. Hofstetter, et al.

  • Year: 2008

  • Citations: 239

  • Source: Journal of Applied Physics, Vol. 104, Issue 9

  • Summary:
    Discusses growth and characterization of GaN/AlN short-period superlattices optimized for intersubband transitions in the near-IR to mid-IR, promising for ultrafast photodetectors and modulators.

9. Quantum-cascade-laser structures as photodetectors

  • Authors: D. Hofstetter, M. Beck, J. Faist

  • Year: 2002

  • Citations: 205

  • Source: Applied Physics Letters, Vol. 81, Issue 15, pp. 2683–2685

  • Summary:
    Explores how quantum cascade laser structures can function as efficient photodetectors under reverse bias, opening possibilities for dual-use (emitter/detector) devices in integrated systems.

10. GaN/AlN-based quantum-well infrared photodetector for 1.55 μm

  • Authors: D. Hofstetter, S.S. Schad, H. Wu, W.J. Schaff, L.F. Eastman

  • Year: 2003

  • Citations: 204

  • Source: Applied Physics Letters, Vol. 83, Issue 3, pp. 572–574

  • Summary:
    Presents a GaN/AlN quantum well infrared photodetector operating at 1.55 µm, a crucial wavelength for fiber-optic communications, with promise for high-speed, room-temperature optoelectronics.

Conclusion 🧭🔗

Daniel Hofstetter exemplifies the archetype of a precision-driven physicist with deep academic roots and a pragmatic, research-based mindset 💼🔬. From his early years as a precision mechanic to his professorship and ongoing contributions to optical physics and time-frequency domains, his path illustrates dedication, adaptability, and foresight. Hofstetter’s unique blend of engineering insight and academic vision sets him apart as a contributor to foundational and applied physics. With an international footprint and a reputation for detail-oriented research, Daniel continues to influence modern measurement science, silently enabling technologies that power our world—from GPS systems to atomic clocks 🕰️🌐. His journey is a remarkable confluence of mechanical craftsmanship and scientific sophistication.

Michaela Dippold | Geo-Biosphere Interactions | Best Researcher Award

Posted on by Physicist Particle

Prof. Dr. Michaela Dippold | Geo-Biosphere Interactions | Best Researcher Award

Professor at University of Tuebingen, Germany

Prof. Dr. Michaela A. Dippold 🌍 is a globally recognized geoscientist and full professor at the University of Tübingen, Germany 🇩🇪. Renowned for her pioneering work on Geo-Biosphere Interactions, she bridges the disciplines of geosciences and biology, exploring how soil, plants, and microorganisms shape ecosystems 🌱🔬. Her academic journey began in Geoecology and Biochemistry, culminating in a PhD with distinction 🎓. A prolific researcher and mentor, she has led groundbreaking studies in carbon cycling, microbial metabolism, and ecosystem resilience, publishing in elite journals like Nature Communications and Science 📚. With over two dozen doctoral and postdoctoral mentees under her wing, many now professors, she is also a dynamic scientific leader, holding editorial and organizational roles in major international initiatives. Decorated with prestigious awards 🏆, she exemplifies innovation, excellence, and dedication in Earth system science 🌎.

Professional Profile 

🎓 Education

Prof. Dippold’s academic roots lie in an interdisciplinary fusion of Geoecology and Biochemistry 🧪🌿. From 2002 to 2011, she studied both fields at the University of Bayreuth, where she cultivated a robust understanding of Earth and life sciences. Her doctoral research, completed with summa cum laude in 2014, examined geo-biosphere interactions, supervised by leading scientists like Y. Kuzyakov. This dual-discipline background has become the bedrock of her unique scientific vision, allowing her to decode complex biochemical feedbacks in soil systems. Her approach is deeply experimental and mechanistic, supported by isotope techniques and molecular tools 🔬. From early on, she integrated multiple scientific languages—chemistry, biology, and geosciences—into a coherent framework that underpins her current research in soil-plant-microbe interactions. 🎯 Her education, far from traditional, set the stage for a career defined by cross-disciplinary thinking and methodological innovation.

👩‍🔬 Professional Experience

Prof. Dippold’s career reflects a steady and impressive rise through the academic landscape ⛰️. Beginning in 2010 as a researcher in Agroecosystems at Bayreuth, she transitioned to roles in Göttingen where she taught, led projects, and eventually became Junior Professor. She later secured the W3 Professorship at the University of Tübingen in 2021 🏛️, where she now leads the Chair of Geo-Biosphere Interactions. In parallel, she has served as deputy chair, scientific board member, and editorial board member for major international soil and environmental science platforms 🌍. Her leadership extends into conference organization, including hosting the German Soil Science Union meeting in 2025. Her work spans both academic and practical domains, including consulting and science communication for farming communities. Through it all, Prof. Dippold has championed team science, interdisciplinary synergy, and mentoring with a global vision. She is as much a builder of networks as a producer of knowledge 🕸️📊.

🧪 Research Interests

At the heart of Prof. Dippold’s scientific passion lies a curiosity for how life belowground shapes life aboveground 🌾🧬. Her research focuses on soil microbial metabolism, carbon and nutrient cycling, plant-soil interactions, and the mechanisms of ecosystem resilience under climate stress 🌦️. Using high-resolution isotope tracing, meta-omics, and molecular imaging, she uncovers hidden pathways of microbial carbon storage, rhizosphere functioning, and soil food webs. A recurrent theme in her work is the thermodynamic economy of microbes—how organisms optimize survival under fluctuating conditions using “shortcuts” like necromass recycling. She has published extensively on carbon use efficiency, metabolic diversity, and drought resilience in soils 🌱💧. Her projects span continents—from the Tibetan Plateau to South America’s coastal ranges—examining ecosystems at different scales. Her interdisciplinary lens bridges geology, biology, and chemistry to explain how Earth’s “living skin” functions, degrades, and recovers. Prof. Dippold’s research continues to redefine how we view soil—not as dirt, but as a dynamic life system.

🏅 Awards and Honors

Prof. Dippold’s career is adorned with accolades that highlight both scientific excellence and visionary leadership 🏆. In 2025, she was named Speaker of the Excellence Cluster TERRA, an elite German research initiative. Prior to this, she declined three prestigious professorships at top institutions—an indicator of her high demand 🌟. Honors like the Outstanding Early Career Scientist Award by the European Geoscience Union (2017) and the Fritz-Scheffer Award for excellence in soil science underscore her impact in the field. She also received the Robert Bosch Foundation Junior Professorship for sustainable resource use and the Norddeutscher Wissenschaftspreis for her groundbreaking work in Multi-MetaOmics 🔬. These awards are not just badges of distinction—they signal her commitment to interdisciplinary research, impactful mentorship, and real-world application. Each honor is a reflection of her pioneering role in decoding the invisible life forces beneath our feet.

📚 Publications Top Note 

1. The microplastisphere: Biodegradable microplastics addition alters soil microbial community structure and function

  • Authors: J. Zhou, H. Gui, C.C. Banfield, Y. Wen, H. Zang, M.A. Dippold, A. Charlton, …

  • Year: 2021

  • Citations: 493

  • Source: Soil Biology and Biochemistry, Volume 156, 108211

  • Summary: This study investigates how biodegradable microplastics affect the soil environment, particularly the microbial community. The results show that these plastics significantly alter microbial composition and function, raising ecological concerns about their widespread use.

2. Biochar affects soil organic matter cycling and microbial functions but does not alter microbial community structure in a paddy soil

  • Authors: J. Tian, J. Wang, M. Dippold, Y. Gao, E. Blagodatskaya, Y. Kuzyakov

  • Year: 2016

  • Citations: 292

  • Source: Science of the Total Environment, Volume 556, Pages 89–97

  • Summary: This work explores the impact of biochar on paddy soil. It shows that while biochar influences organic matter cycling and microbial functions, it does not significantly change the microbial community composition.

3. Fate of low molecular weight organic substances in an arable soil: from microbial uptake to utilisation and stabilisation

  • Authors: A. Gunina, M.A. Dippold, B. Glaser, Y. Kuzyakov

  • Year: 2014

  • Citations: 192

  • Source: Soil Biology and Biochemistry, Volume 77, Pages 304–313

  • Summary: This paper tracks the transformation of low molecular weight organic substances in arable soils, detailing how they are taken up by microbes and either used or stabilized in the soil matrix.

4. Dissolved and colloidal phosphorus fluxes in forest ecosystems—an almost blind spot in ecosystem research

  • Authors: R. Bol, D. Julich, D. Brödlin, J. Siemens, K. Kaiser, M.A. Dippold, S. Spielvogel, …

  • Year: 2016

  • Citations: 181

  • Source: Journal of Plant Nutrition and Soil Science, Volume 179 (4), Pages 425–438

  • Summary: This study emphasizes the overlooked role of dissolved and colloidal phosphorus in forest ecosystems, advocating for more research into their dynamics and implications for nutrient cycling.

5. Microbial C:N:P stoichiometry and turnover depend on nutrients availability in soil: A 14C, 15N and 33P triple labelling study

  • Authors: J. Chen, J. Seven, T. Zilla, M.A. Dippold, E. Blagodatskaya, Y. Kuzyakov

  • Year: 2019

  • Citations: 156

  • Source: Soil Biology and Biochemistry, Volume 131, Pages 206–216

  • Summary: Using triple isotope labelling, the study shows that microbial carbon, nitrogen, and phosphorus stoichiometry and turnover are strongly influenced by nutrient availability, providing insights into microbial nutrient dynamics.

6. Extracellular enzyme activity and stoichiometry: The effect of soil microbial element limitation during leaf litter decomposition

  • Authors: X. Bai, M.A. Dippold, S. An, B. Wang, H. Zhang, S. Loeppmann

  • Year: 2021

  • Citations: 151

  • Source: Ecological Indicators, Volume 121, 107200

  • Summary: This research investigates how microbial elemental limitations affect enzyme activities during leaf litter decomposition, highlighting the links between nutrient availability and microbial function.

7. Anaerobic oxidation of methane in paddy soil: Role of electron acceptors and fertilization in mitigating CH₄ fluxes

  • Authors: L. Fan, M.A. Dippold, T. Ge, J. Wu, V. Thiel, Y. Kuzyakov, M. Dorodnikov

  • Year: 2020

  • Citations: 135

  • Source: Soil Biology and Biochemistry, Volume 141, 107685

  • Summary: The study explores how electron acceptors and fertilization regimes influence anaerobic methane oxidation in paddy fields, with implications for reducing methane emissions in agriculture.

8. Pedogenic and microbial interrelations to regional climate and local topography: New insights from a climate gradient (arid to humid) along the Coastal Cordillera of Chile

  • Authors: N. Bernhard, L.M. Moskwa, K. Schmidt, R.A. Oeser, F. Aburto, M.Y. Bader, …

  • Year: 2018

  • Citations: 126

  • Source: Catena, Volume 170, Pages 335–355

  • Summary: This study assesses how soil formation and microbial processes vary across a climate gradient in Chile, linking climate and topography to biogeochemical processes.

9. Spatial pattern of enzyme activities depends on root exudate composition

  • Authors: X. Zhang, M.A. Dippold, Y. Kuzyakov, B.S. Razavi

  • Year: 2019

  • Citations: 118

  • Source: Soil Biology and Biochemistry, Volume 133, Pages 83–93

  • Summary: The paper shows that the composition of root exudates significantly determines the spatial distribution of soil enzyme activities, underscoring the importance of plant–microbe interactions in rhizosphere processes.

🧭 Conclusion

Prof. Dr. Michaela A. Dippold stands at the crossroads of Earth science innovation, global collaboration, and academic mentorship 🌍🔬. Her work transcends disciplines, illuminating how soil ecosystems respond to climate change and human impact. Beyond her scientific rigor, she is a committed educator and community leader—shaping the next generation of soil scientists and eco-biogeochemists 📚🌱. Whether in the lab, field, or conference hall, she brings clarity, energy, and purpose to pressing global questions. Her refusal of multiple high-level appointments demonstrates a focus not on titles, but on building a cohesive, collaborative research vision 🧠💡. As a mentor, author, and speaker, she’s not only advancing science but inspiring transformation in how we understand and interact with the living Earth. Prof. Dippold is more than a scientist—she’s a systems thinker shaping the soil science of tomorrow 🌎💫.

David Amilo | Applied Mathematics | Young Scientist Award

Posted on by Physicist Particle

Dr. David Amilo | Applied Mathematics | Young Scientist Award

Lecturer/Researcher at Near East University, Cyprus

Dr. David Ikechukwu Amilo 🎓 is an emerging scholar in applied mathematics, with a distinct focus on fractional-order epidemic modeling and network time series analysis. Holding a Bachelor’s degree from Ebonyi State University, Nigeria (2014), and both Master’s (2020) and PhD (2023) from Near East University, Cyprus, his academic journey reflects steady growth in mathematical modeling and computational research. He has developed sophisticated models tackling real-world health issues such as dual-strain infections and alcoholic cardiomyopathy 🧬. With multiple accolades including the 2025 Young Scientist Award 🏅 and a Bronze Medal from the National Mathematics Competition 🥉, he showcases excellence in theoretical development and simulation techniques. Dr. Amilo stands out for his interdisciplinary insights, passion for science, and commitment to impactful research. His scholarly promise and early contributions affirm his rising influence in the scientific and academic world. 🚀📚

Professional Profile 

Orcid

Scopus

Google Scholar

🎓 Education

Dr. Amilo’s academic path is marked by consistency, depth, and forward-thinking research. He earned his Bachelor’s in Mathematics from Ebonyi State University in 2014, laying the groundwork for his analytical and abstract reasoning skills 🧠. He later pursued graduate studies at Near East University, Cyprus, where he earned his Master’s degree in 2020, under the mentorship of Assoc. Prof. Dr. Bilgen Kaymakamzade, focusing on fractional-order epidemic systems with vaccination strategies 🧪. He continued under the same advisor for his PhD (2023), exploring advanced modeling of alcoholic cardiomyopathy with network-based time series — a novel fusion of fractional calculus and epidemiological insight 🧬. His education reflects a blend of mathematical rigor and public health relevance, equipping him with advanced tools in mathematical modeling, simulation, and system dynamics 🔬📈.

👨‍🏫 Professional Experience

Though he has not yet held formal academic titles such as Assistant or Associate Professor, Dr. Amilo has already made a strong impression in academic circles through impactful research and recognized participation in prestigious conferences 🌍. His active engagement in scientific projects, coupled with a rapidly growing publication profile, speaks to his dedication and research-centric mindset 🧑‍💻. With peer collaborations and cross-disciplinary modeling work, he is building a solid foundation toward a professorial career. Dr. Amilo is poised to take on supervisory and academic responsibilities, potentially mentoring future scholars in the intricacies of fractional models and their real-world applications 📚🔢. His commitment to continual learning and contribution is evident from his self-motivated pursuit of high-impact research without waiting for formal titles.

🔬 Research Interests

Dr. Amilo’s research interests orbit around fractional-order differential equations, epidemiological dynamics, and network-based simulations. His Master’s and PhD work reveals a fascination with mathematical modeling of complex health systems, particularly those involving multiple interacting variables or co-infections 💉🦠. He is deeply drawn to the practical applications of theoretical models — employing fractional calculus to better understand the progression of diseases such as alcoholic cardiomyopathy or multi-strain epidemics. Recently, he has been venturing into time-series analysis on networks, adding another analytical layer to his work. This multidimensional approach enhances the real-time predictive power of disease spread and control measures 📊🌐. Through computational simulations, he aims to inform health policies and improve response strategies to public health crises. His research bridges pure mathematics with tangible societal impact 🧮❤️‍🩹.

🏆 Awards and Honors

Dr. Amilo’s brilliance has earned him several prestigious recognitions. In 2025, he was honored with the Young Scientist Award by Near East University 🎖️. Earlier, he won the Young Researcher Award (2022) and gained international attention with his victory in the 2023 Computational Modeling and Simulation of FRPsat, at the International Research Awards on Fiber Reinforced Polymer 🌟. These accolades underscore his versatility and potential in both pure and applied mathematical domains. Notably, his Bronze Medal at the NAMCUS (2015) national math competition reflects a long-standing excellence in mathematical problem-solving 🥉. His decorated profile at an early career stage is a testament to his innovation, determination, and relevance in global research dialogues. 📜💡

📚 Publications Top Note 

1. Title: A fractional-order mathematical model for lung cancer incorporating integrated therapeutic approaches

  • Authors: D. Amilo, B. Kaymakamzade, E. Hincal

  • Year: 2023

  • Citations: 41

  • Source: Scientific Reports, Volume 13, Article 12426

  • Summary: This study introduces a novel fractional-order model for lung cancer progression that integrates multiple treatment strategies including chemotherapy and immunotherapy. The model evaluates the synergistic effect of therapies on tumor suppression and aims to optimize treatment schedules.

2. Title: A mathematical model with fractional-order dynamics for the combined treatment of metastatic colorectal cancer

  • Authors: D. Amilo, K. Sadri, B. Kaymakamzade, E. Hincal

  • Year: 2024

  • Citations: 37

  • Source: Communications in Nonlinear Science and Numerical Simulation, Volume 130, 107756

  • Summary: This paper presents a fractional-order model that simulates the dynamics of metastatic colorectal cancer under combined therapies. The model analyzes the role of chemotherapy and immunotherapy in managing tumor spread, highlighting the benefits of fractional calculus in capturing memory effects.

3. Title: A tau-Gegenbauer spectral approach for systems of fractional integro-differential equations with the error analysis

  • Authors: K. Sadri, D. Amilo, K. Hosseini, E. Hinçal, A.R. Seadawy

  • Year: 2024

  • Citations: 16

  • Source: AIMS Mathematics, Volume 9, Issue 2, Pages 3850–3880

  • Summary: The authors develop a spectral numerical method based on tau-Gegenbauer polynomials to solve fractional integro-differential systems. The paper includes rigorous error analysis, demonstrating the accuracy and stability of the method.

4. Title: Mathematical Analysis and Dynamical Transmission of (SEIrIsR) Model with Different Infection Stages by using fractional operator

  • Authors: C. Xu, M. Farman, Y. Pang, Z. Liu, M. Liao, L. Yao, A. Shehzad, D. Amilo

  • Year: 2024

  • Citations: 15

  • Source: International Journal of Biomathematics

  • Summary: This study models the dynamics of infectious diseases with multiple infection stages using a SEIrIsR framework and fractional operators. The model demonstrates how memory effects influence the transmission and recovery processes.

5. Title: A fractional-order model for optimizing combination therapy in heterogeneous lung cancer: integrating immunotherapy and targeted therapy to minimize side effects

  • Authors: D. Amilo, C. Izuchukwu, K. Sadri, H.R. Yao, E. Hincal, Y. Shehu

  • Year: 2024

  • Citations: 15

  • Source: Scientific Reports, Volume 14, Article 18484

  • Summary: This article proposes a fractional-order model targeting heterogeneity in lung cancer cells. It investigates how a combination of immunotherapy and targeted therapy can be optimized to reduce side effects while maintaining efficacy.

6. Title: A fractional-order model for nosocomial infection caused by pseudomonas aeruginosa in Northern Cyprus

  • Authors: C. Bagkur, D. Amilo, B. Kaymakamzade

  • Year: 2024

  • Citations: 14

  • Source: Computers in Biology and Medicine, Volume 171, 108094

  • Summary: The paper introduces a fractional-order model to understand and control hospital-acquired infections caused by Pseudomonas aeruginosa. It evaluates the dynamics of infection transmission and antibiotic resistance in clinical settings.

7. Title: Effect of Lactuca sativa supplemented diet on Poloxamer 407 induced hyperlipidemic albino rats (Rattus norvegicus)

  • Authors: V.I. Ayo, M.A. Adondua, A.E. Morayo, J. Ekele, D. Amilo, D.A. Ochuele, et al.

  • Year: 2023

  • Citations: 10

  • Source: Asian Journal of Natural Product Biochemistry, Volume 21, Pages 67–78

  • Summary: This experimental study explores the lipid-lowering potential of Lactuca sativa in rats with induced hyperlipidemia. It shows that the plant-based diet has a significant impact on improving lipid profiles.

8. Title: Fractional SVIR model for COVID-19 under Caputo derivative

  • Authors: N. Gokbulut, D. Amilo, B. Kaymakamzade

  • Year: 2021

  • Citations: 9

  • Source: Journal of Biometry Studies, Volume 1, Issue 2, Pages 58–64

  • Summary: This paper proposes a SVIR (Susceptible–Vaccinated–Infected–Recovered) model using Caputo fractional derivatives to simulate COVID-19 spread. The model emphasizes the role of fractional order in accurately reflecting pandemic memory and control measures.

9. Title: A fractional-order two-strain epidemic model with two vaccinations

  • Authors: B. Kaymakamzade, E. Hincal, D. Amilo

  • Year: 2021

  • Citations: 6

  • Source: AIP Conference Proceedings, Volume 2325, Article 1

  • Summary: This model investigates the dynamics of two co-existing viral strains and their control via dual vaccination strategies. The fractional component captures latency and immunity duration, providing better insights into epidemic management.

10. Title: A generalized Chebyshev operational method for Volterra integro-partial differential equations with weakly singular kernels

  • Authors: S.S.K. Sadri, D. Amilo, E. Hincal, K. Hosseini

  • Year: 2024

  • Citations: 5

  • Source: Heliyon, Volume 10, Issue 5, e27260

  • Summary: This work introduces a novel operational matrix method using generalized Chebyshev polynomials for solving complex Volterra integro-partial differential equations. It efficiently handles weak singularities and demonstrates excellent convergence.

Conclusion

In summary, Dr. David Ikechukwu Amilo is a promising mathematician whose work elegantly weaves together theory, computation, and real-world application 🔗. His academic trajectory, shaped by deep curiosity and precision, has led to impactful research on complex health models using fractional calculus. Backed by notable awards and a strong educational foundation, Dr. Amilo is not just a researcher but an innovator poised to lead in applied mathematics and health modeling 📈🌍. With continued mentorship and institutional support, his potential to shape new frontiers in mathematical epidemiology and dynamic systems is immense. His passion for problem-solving, evident early on in competitions and now in cutting-edge simulations, sets the tone for a meaningful and inspiring academic journey ahead. 💼📘✨