Maxence Berry | Extracellular nanoparticles| Best Researcher Award

Posted on by Physicist Particle

Mr. Maxence Berry | Extracellular nanoparticles | Best Researcher Award  

Mr. Maxence Berry, University of Poitiers, France

Maxence Berry is a motivated and skilled graduate student specializing in physiological engineering, computer science, and biotechnology. With a strong foundation in bioinformatics and process engineering, he has gained valuable academic and professional experience through research internships, laboratory work, and collaborative projects. His interests lie in bioinformatics, bioprocess optimization, and the integration of computational tools to solve biological challenges.

PROFILE

Scopus  Profile

Educational Detail

Master’s in Physiological Engineering, Computer Science, and Biotechnology
University of Poitiers (2023–2025)
Focus on project management, teamwork, and advanced biotechnological research.

Bachelor’s in Bioinformatics
University of Poitiers (2022–2023)
Specialization in computational tools for biological data analysis.

3rd Year of Engineering Cycle – Process and Bioprocess Engineering
Polytech Nantes, Saint-Nazaire (2021–2022)
Emphasis on bioprocess engineering and system modeling.

Preparatory Class for the Grandes Écoles – Technology Biology
Lycée Valentine Labbé La Madeleine (2018–2021)
Acquired rigorous work methods and analytical skills.

Technological High School Diploma
Lycée Françoise de Grâce Le Havre (2015–2018)
Gained foundational laboratory knowledge and practical skills in good laboratory practices.

Professional Experience

Research Intern – Laboratoire de Biophysique Clinique, Ljubljana, Slovenia
(May 2023 – July 2023)

Utilized interferometric optical microscopy to observe and quantify extracellular vesicles in blood plasma.

Authored an internship report and contributed to a publication (Elsevier).

Key Skills: English scientific writing, data analysis, knowledge transfer.

Research Intern – EBI KIT, Karlsruhe, Germany
(June 2022 – August 2022)

Investigated nitrogen and phosphorus removal in wastewater using partial denitrification processes.

Conducted nitrate concentration testing and reactor maintenance.

Key Skills: Reactor control software, experimental analysis, technical communication.

Laboratory Technician – SIDEL Blowing & Services, Octeville, France
(July 2019 – August 2019)

Performed calibration of measurement elements and explored business operations.

Key Skills: Teamwork, precision.

Research Interests

Bioinformatics and computational biology.

Process and bioprocess optimization.

Extracellular vesicle quantification and analysis using advanced imaging techniques.

Wastewater treatment and environmental sustainability.

Computer Skills

Programming Languages: Java, Python, Bash, Matlab, Ada.

Bioinformatics Tools: Cytoscape, Galaxy, GEO2R, OMICS, Microarray.

Web Development & Databases: PHP, CSS, HTML, MySQL.

Editing and Documentation: Microsoft Office Suite (Word, Excel, PowerPoint), LaTeX.

Top Notable Publications

Tang, M., Du, R., Cao, S., Berry, M., & Peng, Y. (2024). Tracing and utilizing nitrogen loss in wastewater treatment: The trade-off between performance improvement, energy saving, and carbon footprint reduction. Journal of Environmental Management, 349, 119525. [Cited 21 times].

Xu, D., Cao, S., Berry, M., Du, R., & Peng, Y. (2023). Granulation of partial denitrification sludge: Advances in mechanism understanding, technologies development, and perspectives. Science of the Total Environment, 904, 166760. [Cited 7 times].

Conclusion 

Mr. Maxence Berry’s multidisciplinary expertise, demonstrated through high-quality academic training, impactful research projects, technical skills, and leadership roles, makes him a strong contender for the Research for Best Researcher Award. His notable achievements, such as publishing in Elsevier and conducting advanced research in extracellular vesicles and wastewater treatment, align with the award’s focus on research excellence.

 

 

 

 

 

 

 

 

 

 

 

Dr. Muhammad Umair Farooq | Nanotechnology | Excellence in Scientific Innovation Award

Posted on by Physicist Particle

Dr. Muhammad Umair Farooq | Nanotechnology | Excellence in Scientific Innovation Award

Dr. Muhammad Umair Farooq, Institute of Physics, The Islamia University of Bahawalpur, Pakistan

Muhammad Umair Farooq is a Pakistani physicist affiliated with the Institute of Physics at The Islamia University of Bahawalpur, Rahim Yar Khan Campus. He is the son of Qazi Muhammad Farooq and practices Islam. Muhammad Umair Farooq is committed to contributing to the academic and scientific community in Pakistan through his work in physics.

PROFILE

Scopus Profile

Educational Details

Dr. Muhammad Umair Farooq is a highly accomplished physicist with extensive academic training in condensed matter and solid-state physics. He completed his post-doctoral research at the Institute of Semiconductors, Chinese Academy of Sciences from 2018 to 2020, specializing in condensed matter physics. Dr. Farooq earned his Ph.D. in Condensed Matter Physics from the Beijing Institute of Technology in 2018, after completing an M.Phil. in Solid State Physics at the University of Punjab, Lahore, in 2014. His academic journey began with an M.Sc. in Physics from Bahauddin Zakariya University, Multan, in 2010, followed by a Bachelor of Science (B.Sc) in Mathematics and Physics from the same institution in 2008. Additionally, he holds a Bachelor of Education (B.Ed) in Science Education from the University of Education, Lahore, obtained in 2012. His foundational studies include an Intermediate Science Education from the Board of Intermediate & Secondary Education, Dera Ghazi Khan, completed in 2005, and a Secondary School Certificate (SSC) in Science from the same board in 2003. Dr. Farooq’s diverse educational background underscores his deep expertise and commitment to advancing the field of physics.

Research Experience

Dr. Muhammad Umair Farooq’s research has delved deeply into the realm of nanostructures and their optical properties, with a strong focus on transition metal-doped materials. His post-doctoral work involved the synthesis and optical property analysis of transition metal-doped GaN nanostructures using the Chemical Vapor Deposition (CVD) technique. For his Ph.D., he conducted a comprehensive study on the transition metal-doped WS2 and MoS2 multilayers, and the optical properties of transition metal-doped lead halide perovskite nanostructures. His M.Phil. dissertation focused on the pulsed laser deposition of SmCo thin films, aimed at enhancing high-density magnetic recording media. His academic journey also included a deep investigation of multiphonon processes in Mn-doped ZnO nanowires, further showcasing his expertise in the field of condensed matter physics and materials science.

Professional Experience

Dr. Muhammad Umair Farooq has built a robust academic and research career, currently serving as an Assistant Professor at The Islamia University of Bahawalpur, Rahim Yar Khan campus, since March 27, 2021. In this role, he is involved in teaching both undergraduate and postgraduate courses, as well as supervising Master’s degree students. Prior to this, he was a Research Associate at the Institute of Semiconductors, Chinese Academy of Sciences, from January 1, 2019, to November 30, 2020. During his tenure there, he specialized in advanced techniques such as Micro-Raman spectroscopy using a confocal microscopic optical system (Horiba Jobin-Yvon LabRAM HR800) and Photoluminescence (PL) excitation. His work involved temperature-dependent PL measurements, employing closed-cycle cryostats and linkam temperature stages across a wide temperature range (77K to 100K).

Before his role at the Institute of Semiconductors, Dr. Farooq was a Research Fellow at the Beijing Institute of Technology, China, from August 15, 2014, to June 21, 2018. As Incharge of the Chemical Vapor Deposition (CVD) and Raman Laboratory, he oversaw operations that included the use of a 532 nm laser source. His responsibilities encompassed lab safety, maintenance, and meticulous record handling. Dr. Farooq’s extensive experience in these roles has significantly contributed to his expertise in advanced material characterization and nanostructure research.

Research Interest

Dr. Muhammad Umair Farooq’s research interests lie at the intersection of nanotechnology, condensed matter physics, and materials science, with a particular focus on the advanced properties of semiconductor nanostructures. His work delves into the elementary excitations and interactions in transition metal-doped II-VI and III-V semiconductor nanostructures, exploring their potential for spintronic applications, which is a promising area for future computing technologies. Additionally, Dr. Farooq investigates the optical and magnetic responses of transition metal-doped inorganic perovskite nanostructures, aiming to uncover new functionalities for optoelectronic devices. His research also extends to the optical properties of 2D materials, which hold significant potential for next-generation electronic and photonic applications due to their unique physical characteristics.

Top Notable Publications

Farooq, M.U., Idrees, I., Aziz, R., Fatima, A., Zou, B. (2024). Spin-related photoluminescence and magnetic anisotropy in Fe(III)-doped GaN Nanowire. Materials Science in Semiconductor Processing, 184, 108768.

Shahzad, M.K., Hussain, S., Farooq, M.U., Riaz, M., Ali, S.M. (2024). First principle investigation of tungsten-based cubic oxide perovskite materials for superconducting applications: A DFT study. Journal of Physics and Chemistry of Solids, 186, 111813.

Shahzad, M.K., Farooq, M.U., Laghari, R.A., Mahmood Ali, M., Tirth, V. (2023). Investigation of structural, electronic, mechanical, & optical characteristics of Ra-based cubic hydrides RbRaX3 (X= F and Cl) perovskite materials for solar cell applications: First principle study. Heliyon, 9(7), e18407.

Shahzad, M.K., Hussain, S., Farooq, M.U., Rehman, J.U., Ali, M.M. (2023). First-principles calculations to investigate structural, electronic, elastic and optical properties of radium-based cubic fluoro-perovskite materials. Heliyon, 9(2), e13687.

Shahzad, M.K., Mujtaba, S.T., Hussain, S., Khalil, A., Ali, M.M. (2023). Lithium-based perovskites materials for photovoltaic solar cell and protective rays window applications: A first-principle calculations. Discover Nano, 18(1), 15.

Shahzad, M.K., Mujtaba, S.T., Hussain, S., Tahir, M.B., Mahmood, M.A. (2022). Zirconium-based cubic-perovskite materials for photocatalytic solar cell applications: A DFT study. RSC Advances, 12(42), 27517–27524.

Lai, J.-M., Farooq, M.U., Sun, Y.-J., Tan, P.-H., Zhang, J. (2022). Multiphonon Process in Mn-Doped ZnO Nanowires. Nano Letters, 22(13), 5385–5391.

Ahmad, B., Dilshad, M.R., Haider, B., Ahmad, H.B., Farooq, M. (2022). Synthesis of novel fly ash based geo-polymeric membranes for the treatment of textile wastewater. International Journal of Environmental Science and Technology, 19(7), 6117–6126.

Imran, M., Islam, A., Farooq, M.U., Ye, J., Zhang, P. (2020). Characterization and adsorption capacity of modified 3D porous aerogel from grapefruit peels for removal of oils and organic solvents. Environmental Science and Pollution Research, 27(35), 43493–43504.