Dr. M. Ramamurthy | Experimental Methods | Best Researcher Award

Published on by Physicist Particle

Dr. M. Ramamurthy | Experimental Methods | Best Researcher Award

Assistant Professor | AMET University | India

Dr. M. Ramamurthy is a highly accomplished academician and researcher with extensive experience in Experimental Methods applied to mechanical and manufacturing engineering. His professional journey spans across several reputed engineering institutions, where he has contributed to Experimental Methods in teaching, research, and curriculum design. Holding a Ph.D. from Anna University with a focus on friction stir welding, Dr. M. Ramamurthy has published multiple papers in international journals emphasizing Experimental Methods for optimizing welding parameters, material characterization, and process analysis. His expertise extends to Experimental Methods in advanced materials, composite fabrication, and surface modification, reflecting a strong grasp of both theoretical and practical domains. He has participated in numerous conferences and workshops, showcasing his innovative applications of Experimental Methods in materials science and production engineering. Recognized for his contributions, he holds patents and authored book chapters on Experimental Methods for sustainable material development. His professional affiliations include ISTE, IAENG, and PMAI, demonstrating his commitment to continuous learning and collaboration. His research skills encompass Experimental Methods involving friction stir processes, multi-objective optimization, and mechanical testing. Dr. M. Ramamurthy’s awards and honors reflect his dedication to innovation and knowledge dissemination in Experimental Methods. With a balanced blend of academic and industrial exposure, he consistently integrates Experimental Methods into education, research, and technology development. In conclusion, Dr. M. Ramamurthy’s distinguished career exemplifies excellence in Experimental Methods, advancing engineering practices and inspiring future researchers.

Profiles: Google Scholar | ORCID

Featured Publications

1. Ramamurthy, M., Balasubramanian, P., Senthilkumar, N., & G. (2022). Influence of process parameters on the microstructure and mechanical properties of friction stir welds of AA2014 and AA6063 aluminium alloys using response surface methodology. Materials Research Express, 9, 70.

2. Senthilkumar, N., Thanikasalam, A., Stalin, K., Ramamurthy, M., & Lazar, P. (2024). Mechanical characterization of epoxy-nanoclay-kenaf fiber polymer composites. International Conference on Advanced Materials Manufacturing and Structures.

3. Ramamurthy, M., & Balasubramanian, P. (2022). Parametric optimization in friction stir joining of AA2014 and AA6061 alloys through entropy based multiobjective GRA approach. Materials Today: Proceedings, 59, 1249–1255.

4. Ramamurthy, M., Vasanthkumar, N. P., Perumal, G., & Senthilkumar, N. (2025). Formulation and features of chitosan and natural fiber blended bio-composite towards environmental sustainability. Journal of Environmental Nanotechnology, 14(1), 104–112.

5. Senthilkumar, N., Thanikasalam, A., Stalin, K., Ramamurthy, M., & Lazar, P. (2024). Thermal studies on palm fibre and rice husk ash-reinforced epoxy resin composite. International Conference on Advanced Materials Manufacturing and Structures.

Yuanfang Han | Experimental Methods | Best Researcher Award

Published on by Physicist Particle

Mr. Yuanfang Han | Experimental Methods | Best Researcher Award

Yuanfang Han | Beijing University of Posts and Telecommunications | China

Mr. Yuanfang Han is an Engineering researcher specializing in network performance analysis with strong expertise in Experimental Methods that drive innovation in server diagnosis and optimization, where his academic foundation at the School of Information and Communication Engineering, Beijing University of Posts and Telecommunications has equipped him with advanced skills in passive traffic measurement, anomaly detection, and performance management metrics. His professional experience highlights Experimental Methods applied to large-scale systems, particularly through the development of the Cross-Environment Server Diagnosis with Fusion (CSDF) framework in collaboration with China Tower Corporation Limited, achieving significant efficiency improvements. His research interest is anchored in Experimental Methods for traffic-based anomaly detection, host–network correlation, and machine-learning-driven optimization of communication networks, producing impactful contributions such as SCI-indexed publications in Electronics. Recognition through awards and industry collaborations reflects his excellence in applying Experimental Methods to both academic and industrial challenges. His research skills encompass cross-environment request alignment, packet capture analysis, and random-forest-based attribution models, each grounded in Experimental Methods that ensure accurate performance diagnostics. With membership in IEEE and contributions that reduce system response time in production environments, he demonstrates how Experimental Methods extend beyond theory into real-world deployment. In conclusion, Mr. Yuanfang Han exemplifies Engineering leadership through Experimental Methods that integrate machine learning, system diagnosis, and network optimization, marking him as a promising researcher with impactful contributions to future technological advancements.

Profile: ORCID

Featured Publication

1. Han, Y., Zhang, Z., Li, X., Zhao, J., Gu, R., & Wang, M. (2025). A non-intrusive approach to cross-environment server bottleneck diagnosis via packet-captured application latency and APM metrics. Electronics, 14(19), 3824.

Kamila Dus-Szachniewicz | Experimental Methods | Women Researcher Award

Published on by Physicist Particle

Kamila Dus-Szachniewicz | Experimental Methods | Women Researcher Award

Ass. Prof. at Wrocław Medical University | Poland

Assoc. Prof. Dr. Kamila Dus-Szachniewicz has an extensive background in clinical and experimental pathology, with a strong focus on Experimental Methods in cancer research. Her career reflects a deep integration of Experimental Methods in proteomics, tumor microenvironment modeling, and innovative diagnostic approaches. She works at Wrocław Medical University, advancing Experimental Methods that combine optical tweezers technology and mass spectrometry for precision oncology. Her leadership in pioneering Experimental Methods has resulted in several patents and influential publications. This summary highlights her capacity to merge fundamental science with practical applications, pushing the boundaries of Experimental Methods in medical diagnostics, cancer cell interaction analysis, and therapeutic development within translational oncology.

Professional Profiles

Google Scholar Profile | ORCID Profile

Education 

Assoc. Prof. Dr. Kamila Dus-Szachniewicz has pursued academic excellence through a comprehensive education grounded in Experimental Methods and biological sciences. She earned her master’s in biology, specializing in genetics and microbiology, further shaping her foundational understanding of cellular systems. Her Ph.D. in Medical Sciences integrated Experimental Methods to analyze colorectal adenoma and carcinoma through proteomics. Later, she completed her Doctor of Medical Sciences (habilitation), employing Experimental Methods such as optical tweezers to assess lymphomas under diverse microenvironmental conditions. This educational journey reflects a consistent emphasis on Experimental Methods, providing the skills and theoretical grounding essential for innovation in modern cancer research and diagnostic tool development.

Experience 

Assoc. Prof. Dr. Kamila Dus-Szachniewicz’s professional experience is distinguished by her consistent application of Experimental Methods across multiple high-impact research areas. At Wrocław Medical University, she developed proteomic techniques for FFPE tissue analysis, enhancing cancer biomarker discovery through advanced Experimental Methods. She established and characterized three-dimensional lymphoma spheroid models, integrating Experimental Methods to simulate tumor microenvironments and improve translational relevance. Moreover, she applied optical tweezers-based Experimental Methods to study cell adhesion, develop hybrid spheroids, and support personalized oncology. Her role as a research project leader demonstrates her ability to design, implement, and manage sophisticated Experimental Methods to address pressing challenges in hematological malignancy diagnostics and therapeutic strategy development.

Research Interest 

Assoc. Prof. Dr. Kamila Dus-Szachniewicz’s research interests are deeply rooted in the innovative use of Experimental Methods to solve complex problems in oncology. She focuses on proteomic profiling of cancer progression, enabling precision diagnostics through optimized Experimental Methods. Her work includes constructing advanced tumor models to mimic lymphoma-microenvironment crosstalk, improving Experimental Methods for studying drug response and cell-cell interaction. Additionally, she explores the use of optical tweezers-based Experimental Methods to analyze mechanical and adhesive properties of cancer cells, linking physical forces with therapeutic outcomes. These research interests collectively illustrate her commitment to advancing Experimental Methods for more predictive, precise, and clinically relevant cancer research approaches.

Award and Honor

Assoc. Prof. Dr. Kamila Dus-Szachniewicz has been recognized for her outstanding contributions to science through several prestigious awards and honors emphasizing Experimental Methods in oncology. Her pioneering use of optical tweezers as part of Experimental Methods in hematological cancer research garnered institutional and national funding. The successful completion of competitive projects has elevated Experimental Methods as transformative tools in diagnostic innovation. Her contributions have also been acknowledged through grants promoting translational applications of Experimental Methods in cancer biology. These honors underscore her leadership and vision, reaffirming the importance of Experimental Methods in redefining how cellular interactions and therapeutic targets are identified and validated in modern medicine.

Research Skill

Assoc. Prof. Dr. Kamila Dus-Szachniewicz has developed a powerful set of research skills, all interconnected by her mastery of Experimental Methods. She has refined skills in proteomic analysis using mass spectrometry, a cornerstone of modern Experimental Methods for biomarker discovery. Her ability to design and manage complex cell culture systems, including hybrid lymphoma spheroids, highlights her proficiency in Experimental Methods modeling disease biology. Furthermore, her technical expertise in optical tweezers-based assays exemplifies how Experimental Methods can quantify mechanical properties of cancer cells. Collectively, her research skills demonstrate a profound capacity to implement and advance Experimental Methods that bridge molecular insights, cellular behavior, and therapeutic innovation in oncology.

Publication Top Notes 

Title: Extensive quantitative remodeling of the proteome between normal colon tissue and adenocarcinoma
Journal: Molecular Systems Biology
Authors: JR Wiśniewski, P Ostasiewicz, K Duś, DF Zielińska, F Gnad, M Mann
Citation: 274

Title: Proteomic workflow for analysis of archival formalin‐fixed and paraffin‐embedded clinical samples to a depth of 10 000 proteins
Journal: PROTEOMICS–Clinical Applications
Authors: JR Wiśniewski, K Duś, M Mann
Citation: 174

Title: Absolute proteome analysis of colorectal mucosa, adenoma, and cancer reveals drastic changes in fatty acid metabolism and plasma membrane transporters
Journal: Journal of Proteome Research
Authors: JR Wiśniewski, K Duś-Szachniewicz, P Ostasiewicz, P Ziółkowski, ...
Citation: 89

Title: Toward controlled photothermal treatment of single cell: optically induced heating and remote temperature monitoring in vitro through double wavelength optical tweezers
Journal: ACS Photonics
Authors: S Drobczyński, K Prorok, K Tamarov, K Duś-Szachniewicz, VP Lehto, ...
Citation: 43

Title: Physiological hypoxia (physioxia) impairs the early adhesion of single lymphoma cell to marrow stromal cell and extracellular matrix. Optical tweezers study
Journal: International Journal of Molecular Sciences
Authors: K Duś-Szachniewicz, S Drobczyński, P Ziółkowski, P Kołodziej, ...
Citation: 28

Title: Pattern of melanotransferrin expression in human colorectal tissues: an immunohistochemical study on potential clinical application
Journal: Anticancer Research
Authors: K Duś-Szachniewicz, P Ostasiewicz, M Woźniak, P Kołodziej, ...
Citation: 24

Title: Real-time force measurement in double wavelength optical tweezers
Journal: Journal of the Optical Society of America B
Authors: S Drobczyński, K Duś-szachniewicz
Citation: 19

Title: Quantitative analysis of gene expression in fixed colorectal carcinoma samples as a method for biomarker validation
Journal: Molecular Medicine Reports
Authors: B Ostasiewicz, P Ostasiewicz, K Duś-Szachniewicz, K Ostasiewicz, ...
Citation: 18

Title: Protein tyrosine phosphatase receptor R and Z1 expression as independent prognostic indicators in oral squamous cell carcinoma
Journal: Head & Neck
Authors: K Duś‐Szachniewicz, M Woźniak, K Nelke, E Gamian, H Gerber, ...
Citation: 18

Title: Insulin-like growth factor-2 is induced following 5-aminolevulinic acid-mediated photodynamic therapy in SW620 human colon cancer cell line
Journal: International Journal of Molecular Sciences
Authors: M Woźniak, K Duś-Szachniewicz, P Ziółkowski
Citation: 18

Title: Development and characterization of 3D hybrid spheroids for the investigation of the crosstalk between B-cell non-Hodgkin lymphomas and mesenchymal stromal cells
Journal: OncoTargets and Therapy
Authors: K Duś-Szachniewicz, K Gdesz-Birula, G Rymkiewicz
Citation: 16

Title: Proteomic-based analysis of hypoxia-and physioxia-responsive proteins and pathways in diffuse large B-cell lymphoma
Journal: Cells
Authors: K Duś-Szachniewicz, K Gdesz-Birula, K Zduniak, JR Wiśniewski
Citation: 15

Title: The assessment of the combined treatment of 5-ALA mediated photodynamic therapy and thalidomide on 4T1 breast carcinoma and 2H11 endothelial cell line
Journal: Molecules
Authors: K Zduniak, K Gdesz-Birula, M Woźniak, K Duś-Szachniewicz, ...
Citation: 14

Title: Immunohistochemical study of nuclear ubiquitous casein and cyclin-dependent kinase substrate 1 in invasive breast carcinoma of no special type
Journal: Experimental and Therapeutic Medicine
Authors: K Symonowicz, K Duś-Szachniewicz, M Woźniak, M Murawski, ...
Citation: 14

Title: Differentiation of single lymphoma primary cells and normal B-cells based on their adhesion to mesenchymal stromal cells in optical tweezers
Journal: Scientific Reports
Authors: K Duś-Szachniewicz, S Drobczyński, M Woźniak, K Zduniak, ...
Citation: 13

Title: Vacata‐and divacataporphyrin: New photosensitizers for application in photodynamic therapy—an in vitro study
Journal: Lasers in Surgery and Medicine
Authors: M Klyta, P Ostasiewicz, K Jurczyszyn, K Duś, L Latos‐Grażyński, ...
Citation: 13

Title: Spectral analysis by a video camera in a holographic optical tweezers setup
Journal: Optica Applicata
Authors: S Drobczynski, K Dus-Szachniewicz, K Symonowicz, D Glogocka
Citation: 10

Title: Formation of lymphoma hybrid spheroids and drug testing in real time with the use of fluorescence optical tweezers
Journal: Cells
Authors: K Duś-Szachniewicz, K Gdesz-Birula, E Nowosielska, P Ziółkowski, ...
Citation: 9

Title: Immunocytochemical studies on the nuclear ubiquitous casein and cyclin-dependent kinases substrate following 5-aminolevulinicacid-mediated photodynamic therapy on MCF-7 cells
Journal: Photodiagnosis and Photodynamic Therapy
Authors: K Hotowy, M Woźniak, K Duś, E Czapińska, B Osiecka, ...
Citation: 8

Title: Large-scale proteomic analysis of follicular lymphoma reveals extensive remodeling of cell adhesion pathway and identifies hub proteins related to the lymphomagenesis
Journal: Cancers
Authors: K Duś-Szachniewicz, G Rymkiewicz, AK Agrawal, P Kołodziej, ...
Citation: 7

Conclusion

Assoc. Prof. Dr. Kamila Dus-Szachniewicz represents a leading figure in modern translational oncology, driven by her expertise in Experimental Methods. Her educational background, professional achievements, research leadership, and impactful publications converge to form a profile that illustrates the transformative power of Experimental Methods in advancing medical science. Through proteomics, tumor modeling, and optical manipulation technologies, she has demonstrated how Experimental Methods can bridge the gap between fundamental biology and clinical applications. This conclusion underscores her vital role in shaping future diagnostic and therapeutic strategies, inspiring continued development of Experimental Methods that will refine and personalize cancer care for improved patient outcomes.

Dr. Yuanhang Yang | Experimental Methods | Young Scientist Award

Published on by Physicist Particle

Dr. Yuanhang Yang | Experimental Methods | Young Scientist Award

Research fellow at Nanyang Technological University, Singapore

Dr. Yuanhang Yang has developed a strong academic and research profile in engineering, with special focus on flexible devices, soft materials, and innovative fabrication technologies. His work consistently integrates Experimental Methods into the design and analysis of advanced systems. By applying Experimental Methods in multiple domains, he has contributed significantly to the fields of smart healthcare, wearable technologies, and materials science. Through his publications and patents, Dr. Yang demonstrates leadership in research innovation, particularly with Experimental Methods that promote practical and interdisciplinary solutions. His summary reflects a career centered on Experimental Methods as the foundation of modern engineering, ensuring impactful progress in intelligent devices and flexible systems that serve global technological advancements.

Professional Profile

Google Scholar Profile 

Education 

Dr. Yuanhang Yang’s education highlights his strong foundation in mechanical and nuclear engineering, supported by advanced studies in mechanical engineering and materials science. His academic background showcases continuous learning, where Experimental Methods have played a crucial role in strengthening his expertise. Through rigorous research training, he applied Experimental Methods in the study of soft materials, corrosion protection, and flexible electronics. Each educational milestone provided opportunities to refine Experimental Methods as a core approach to discovery. His education not only provided theoretical knowledge but also extensive hands-on practice with Experimental Methods, ensuring that his research outcomes are grounded in scientific precision and innovation. This foundation empowers him to contribute meaningfully across interdisciplinary fields.

Experience 

Dr. Yuanhang Yang has held multiple professional roles, including research fellow, research assistant, and teaching assistant, which allowed him to integrate Experimental Methods into both academic and industrial projects. In every position, he prioritized Experimental Methods to enhance the design, development, and testing of flexible devices and advanced materials. His professional journey reflects a dedication to Experimental Methods as tools for solving complex challenges in aerospace, nuclear, and biomedical engineering. Each role provided unique opportunities to refine and expand the application of Experimental Methods, allowing him to lead and contribute to projects that bridge theory with practice. His experience emphasizes adaptability and excellence driven by Experimental Methods.

Research Interest 

Dr. Yuanhang Yang’s research interests center on flexible devices, programmable systems, and smart materials, all explored through Experimental Methods. His focus includes wearable technologies, biomedical applications, and interdisciplinary solutions powered by advanced fabrication. Experimental Methods form the backbone of his research strategy, guiding the exploration of soft robotics, shape-morphing structures, and intelligent healthcare devices. By consistently relying on Experimental Methods, he ensures that his research findings are validated, reproducible, and practically relevant. Dr. Yang’s research interests highlight the essential role of Experimental Methods in bridging material science, engineering, and healthcare technologies, contributing to innovations that respond to pressing scientific and societal needs worldwide.

Award and Honor

Dr. Yuanhang Yang has received multiple honors and awards that underline his dedication to research excellence through Experimental Methods. He earned recognition such as dissertation awards, innovation competition awards, and professional engineering certifications. These accolades affirm his strong use of Experimental Methods in tackling significant engineering problems. Awards for academic excellence, innovation design, and contributions to student communities all demonstrate his well-rounded achievements. His recognition in international competitions reflects the global relevance of his Experimental Methods approach. Each award highlights his capacity to integrate Experimental Methods into practical outcomes, making him a distinguished researcher whose work is celebrated for both academic and applied impact.

Research Skill

Dr. Yuanhang Yang possesses advanced research skills deeply rooted in the effective use of Experimental Methods. His skills include designing, fabricating, and analyzing flexible electronic systems, utilizing Experimental Methods for precise testing and validation. He demonstrates expertise in advanced printing, 3D fabrication, and material characterization, all reinforced by Experimental Methods. These skills allow him to bridge fundamental science with technological innovation. Whether in laboratory settings or collaborative projects, his reliance on Experimental Methods ensures accuracy, reproducibility, and innovation. Dr. Yang’s skills extend to interdisciplinary integration, where Experimental Methods help unify diverse fields like biomedical engineering, smart healthcare, and materials science. His research skillset is defined by Experimental Methods as a cornerstone.

Publication Top Notes 

Title: Advances in constructing silver nanowire-based conductive pathways for flexible and stretchable electronics
Authors: Y Yang, S Duan, H Zhao
Journal: Nanoscale

Title: Silver nanowire-based stretchable strain sensors with hierarchical wrinkled structures
Authors: Y Yang, S Duan, W Xiao, H Zhao
Journal: Sensors and Actuators A: Physical

Title: Water-induced polymer swelling and its application in soft electronics
Authors: Y Yang, H Zhao
Journal: Applied Surface Science

Title: Influence of MAO treatment on the galvanic corrosion between aluminum alloy and 316L steel
Authors: Y Yang, Y Gu, L Zhang, X Jiao, J Che
Journal: Journal of Materials Engineering and Performance

Title: Analysis on corrosion of aluminum-based micro-arc oxidation coating
Authors: Y Yang, G Feng, Y Gu, J Zhao, J Liang
Journal: Anti-Corrosion Methods and Materials

Title: 3D printing of antibacterial polymer devices based on nitric oxide release from embedded S-nitrosothiol crystals
Authors: L Wuwei, Y Yuanhang, CJ Ehrhardt, N Lewinski, D Gascoyne, ...
Journal: ACS Applied Bio Materials

Title: Highly conductive silicone elastomers via environment‐friendly swelling and in situ synthesis of silver nanoparticles
Authors: Y Yang, S Duan, H Zhao
Journal: Advanced Materials Interfaces

Title: Bio-inspired facile strategy for programmable osmosis-driven shape-morphing elastomer composite structures
Authors: Y Yang, Y Wang, M Lin, M Liu, C Huang
Journal: Materials Horizons

Title: Advanced printing transfer of assembled silver nanowire network into elastomer for constructing stretchable conductors
Authors: Y Yang, W Li, S Sreenivasan Narayanan, X Wang, H Zhao
Journal: Advanced Engineering Materials

Title: Analysis on corrosion failure of aluminum alloy drill pipe for scientific ultra-deep well drilling
Authors: J Liang, YH Gu, W Yue, JH Sun, JX Liu, YH Yang
Journal: Exploration Engineering (Rock & Soil Drilling and Tunneling)

Title: Effects of micro-arc oxidation treatment on galvanic corrosion behavior between aluminum alloy drill pipe and steel joints
Authors: L Jian, Guo Yan-hong, Y Yuan-hang
Journal: Materials Protection

Title: A proposal for modified galvanic corrosion model: Investigating effects of micro-arc oxidation on Al alloy
Authors: Y Yang, Y Gu, J Liang, W Yue
Journal: Surface Review and Letters

Title: Comparisons of air and water oxidation on the passive properties of chromium
Authors: Y Yang, F Zhao, Y Ling, X Yang, Y Gu, Z Zhang
Journal: Journal of Materials Engineering and Performance

Title: One-pot fabrication of bio-inspired shape-morphing bilayer structures
Authors: Y Yang, B Cao, Y Tang, C Huang
Journal: Chemical Engineering Journal

Conclusion

Dr. Yuanhang Yang’s career reflects a consistent commitment to using Experimental Methods as the foundation of his academic and professional journey. His education, professional experience, and research achievements all demonstrate the central role of Experimental Methods in producing reliable, innovative, and impactful outcomes. From publications to patents, every contribution embodies his reliance on Experimental Methods as tools for excellence. His awards and honors further highlight the recognition gained through the consistent application of Experimental Methods. In conclusion, Dr. Yang stands as a distinguished researcher whose success stems from his mastery and advancement of Experimental Methods across interdisciplinary scientific domains.