Seyed Sepehr Mohseni | Engineering | Best Researcher Award

Published on by Shen Awards

Mr. Seyed Sepehr Mohseni | Engineering | Best Researcher Award

University of Tehran from Switzerland. 

Seyed Sepehr Mohseni is a biomedical engineer specializing in microfluidics, microfabrication, and biomechanics. With a keen interest in developing innovative microfluidic platforms for biological and clinical applications, his research addresses vital issues in cell sorting, cancer diagnostics, and organ-on-a-chip technologies. Having completed both his Bachelor’s and Master’s degrees with distinction in biomedical engineering, he has already contributed to several high-impact journal articles and conference presentations. His master’s thesis focused on the separation of circulating tumor cells (CTCs) using a novel arc-shaped microfluidic channel, which showcases his strength in problem-solving and innovation. Beyond academia, he has volunteered as a technical expert in the medical device field and worked on collaborative research projects involving cell culture and biosensor development. Seyed Sepehr’s combined academic excellence, laboratory expertise, and interdisciplinary research experience reflect his deep commitment to advancing biomedical technologies. His work not only aligns with current trends in healthcare engineering but also holds significant potential for clinical impact. As a young researcher with a growing international presence, he demonstrates strong potential for leadership in biomedical research. He is well-positioned for prestigious recognitions such as the Best Researcher Award, owing to his innovative contributions and academic accomplishments in a relatively short span.

Professional Profile

Education

Seyed Sepehr Mohseni holds a Master of Science in Biomedical Engineering with a specialization in Biomechanics from the University of Tehran, Iran. He pursued his postgraduate studies at the Faculty of New Sciences and Technologies, completing his degree in July 2021. His master’s thesis, titled “CTCs separation by an obstacles-embedded arc-shaped microfluidic channel”, was awarded an excellent grade of 20/20, under the supervision of Dr. Ali Abouei Mehrizi. He graduated with a total GPA of 18.03/20, reflecting consistent academic performance across advanced engineering courses, including finite element methods, continuum mechanics, and biological modeling. Prior to that, he earned his Bachelor of Science in Biomedical Engineering, also in Biomechanics, from the Science and Research Branch of Islamic Azad University in Tehran, graduating in 2017. He maintained a strong GPA of 18.51/20 and ranked second among his cohort. Throughout both degrees, Seyed Sepehr showed an aptitude for interdisciplinary learning, bridging biology with engineering fundamentals. His academic record is supported by top national rankings in university entrance examinations, highlighting his early dedication to academic excellence and biomedical innovation. These achievements laid the foundation for his advanced research in microfluidics and device development for healthcare applications.

Professional Experience

Seyed Sepehr Mohseni has amassed a diverse portfolio of professional and research-oriented experiences that complement his academic training. During his postgraduate studies, he actively contributed to laboratory-based research at the Bio-Microfluidics Lab at the University of Tehran. His responsibilities included hands-on work with microfluidic device fabrication, droplet generators, cell sorting platforms, and fluorescence microscopy. He also served as a teaching assistant across multiple core engineering courses, including finite element methods, biomechanics, and biological system simulations, under the mentorship of Dr. Ali Abouei Mehrizi. In addition to his academic roles, Seyed Sepehr has gained industry-relevant experience. From 2019 to 2023, he worked as a technical expert at Setareh Kimia Persian Engineering Company, where he specialized in calibrating medical and laboratory devices. He also served as a technical supervisor for medical equipment importers and manufacturers with the General Directorate of Medical Equipment in Iran. In 2023, he joined a project at Iran University of Medical Sciences, focusing on the isolation of circulating tumor cells from blood samples, further integrating clinical applications with his engineering expertise. This breadth of experience reflects his ability to bridge research, industry, and healthcare regulation—key elements of a well-rounded biomedical professional.

Research Interest

Seyed Sepehr Mohseni’s research interests are centered around the development and application of microfluidic technologies in biomedical engineering. He is particularly focused on microfabrication, organ-on-a-chip systems, and cell culture platforms, aiming to address challenges in diagnostics, therapeutic monitoring, and disease modeling. His graduate thesis on CTC separation using an arc-shaped deterministic lateral displacement microchannel highlights his interest in cancer research and lab-on-a-chip solutions for non-invasive diagnostics. His scientific curiosity extends to biosensing applications, including the use of porous silicon integrated microchannels and reflectometric interference Fourier transform spectroscopy. He is also interested in biomaterials and hydrogel-based tissue engineering, as demonstrated in collaborative projects involving VEGF delivery systems and bone regeneration scaffolds. Seyed Sepehr’s interdisciplinary perspective allows him to combine mechanical design principles with biological applications, making his research highly relevant to current needs in precision medicine. With a growing interest in organ-on-a-chip and microfluidics-enabled point-of-care testing, his long-term vision involves developing platforms that enhance personalized healthcare. His research is aligned with global trends in translational medicine, aiming to move scientific innovation from the lab bench to clinical practice. This strong alignment of technical knowledge with clinical relevance defines his growing impact in the biomedical field.

Research Skills

Seyed Sepehr Mohseni brings a comprehensive set of research skills that span both computational and experimental domains in biomedical engineering. He is highly proficient in using simulation and modeling software such as COMSOL Multiphysics, MATLAB, ABAQUS, and Ansys Fluent, which he applies in the design and analysis of microfluidic devices and biomechanical systems. His academic background is strengthened by a deep understanding of finite element methods, continuum mechanics, and biological system simulations. In the laboratory, Seyed Sepehr has advanced expertise in microfabrication techniques such as photolithography and soft lithography. He has operated and analyzed microfluidic systems involving droplet generation, micromixing, and cell separation. His work is supported by imaging techniques, including fluorescence and confocal microscopy, as well as experience in 3D bioprinting and mammalian cell culture. These laboratory skills were honed through years of hands-on experience in the Bio-Microfluidics Lab at the University of Tehran. Additionally, he is adept in data visualization and analysis software such as Origin, Tracker, and ImageJ/Fiji, along with graphic design tools like Adobe Photoshop and Illustrator. His interdisciplinary competence allows him to transition smoothly from computational modeling to experimental implementation, which is essential for innovative research in biomedical device development.

Awards and Honors

Seyed Sepehr Mohseni has received multiple academic distinctions that reflect his high level of competence and commitment to biomedical engineering. In 2021, he was ranked first among the 2018 M.Sc. entrants in Biomedical Engineering at the Faculty of New Sciences and Technologies, University of Tehran. This recognition is a testament to his consistent academic excellence and outstanding performance in research-based coursework and laboratory activities. Earlier in his academic journey, he achieved second rank among all undergraduate entrants in Biomedical Engineering at Islamic Azad University in 2014. More notably, in the same year, he was ranked in the top 1% of participants in Iran’s highly competitive national university entrance exam for M.Sc. programs in Mechanical Engineering. These achievements highlight his intellectual rigor and early promise as a future leader in engineering research. His consistent high GPA throughout his academic career and the excellent grade for his master’s thesis further reinforce his qualifications. These honors, combined with his publication record in high-impact journals and active involvement in innovative research, make him a strong candidate for recognition through awards such as the Best Researcher Award. They confirm both his academic credibility and his potential to contribute significantly to the field.

Conclusion

In conclusion, Seyed Sepehr Mohseni stands out as a dedicated and innovative biomedical researcher with a strong foundation in both theory and practical application. His focused research on microfluidic systems, cell sorting technologies, and biosensing reflects a clear vision for solving contemporary challenges in healthcare engineering. He has already made meaningful contributions to the field through his publications, laboratory innovations, and cross-disciplinary collaborations. While his professional experience is still developing, it includes diverse roles in teaching, laboratory research, and clinical collaboration—all of which enrich his research profile. His ability to integrate engineering design with biological functionality demonstrates a maturity of thought uncommon in early-career researchers. Although he is yet to pursue a doctoral degree or lead large-scale independent projects, his current trajectory strongly suggests readiness for further academic advancement and leadership roles in biomedical research. Seyed Sepehr’s academic performance, technical expertise, and innovative outlook make him an ideal candidate for competitive research honors. The Best Researcher Award would not only recognize his current accomplishments but also encourage and support a promising career that is likely to yield significant impact in translational medicine and biomedical device development.

Publications Top Notes

  • Title: Preparation of microfluidic-based pectin microparticles loaded carbon dots conjugated with BMP-2 embedded in gelatin-elastin-hyaluronic acid hydrogel scaffold for bone tissue
    Authors: F. Moztarzadeh, M. Farokhi, A.A. Mehrizi, H. Basiri, S.S. Mohseni
    Journal: International Journal of Biological Macromolecules
    Volume/Page: 184, 29–41
    Year: 2021
    Citations: 60

  • Title: Machine learning-aided microdroplets breakup characteristic prediction in flow-focusing microdevices by incorporating variations of cross-flow tilt angles
    Authors: B. Talebjedi, A. Abouei Mehrizi, B. Talebjedi, S.S. Mohseni, N. Tasnim, …
    Journal: Langmuir
    Volume/Issue/Page: 38 (34), 10465–10477
    Year: 2022
    Citations: 14

  • Title: Microfluidic platforms for cell sorting
    Authors: F. Mirakhorli, S.S. Mohseni, S.R. Bazaz, A.A. Mehrizi, P.J. Ralph, M.E. Warkiani
    Journal: Sustainable Separation Engineering: Materials, Techniques and Process
    Year: 2022
    Citations: 12

  • Title: A Novel Strategy for Square-Wave Micromixers: A Survey of RBC Lysis for Further Biological Analysis
    Authors: A.H. Hazeri, A. Abouei Mehrizi, S.S. Mohseni, M. Ebrahimi Warkiani, …
    Journal: Industrial & Engineering Chemistry Research
    Volume/Issue/Page: 62 (40), 16215–16224
    Year: 2023
    Citations: 6

  • Title: Composite Microgels for Imaging-Monitored Tracking of the Delivery of Vascular Endothelial Growth Factor to Ischemic Muscles
    Authors: H. Basiri, S.S. Mohseni, A. Abouei Mehrizi, A. Rajabnejadkeleshteri, …
    Journal: Biomacromolecules
    Volume/Issue/Page: 22 (12), 5162–5172
    Year: 2021
    Citations: 4

  • Title: Flow rate controlling by capillary micropumps in open biomicrofluidic devices
    Authors: S. Fathi, S.S. Mohseni, A.A. Mehrizi
    Conference: 2020 27th National and 5th International Iranian Conference on Biomedical Engineering
    Year: 2020
    Citations: 4

  • Title: A novel microfluidic platform for MCF-7 separation: Arc-shaped deterministic lateral displacement microchannel
    Authors: S.S. Mohseni, A.A. Mehrizi, S. Fathi
    Journal: Microchemical Journal
    Volume/Page: 211, 113076
    Year: 2025

Jing Wang | Engineering | Best Researcher Award

Published on by Shen Awards

Assoc. Prof. Dr. Jing Wang | Engineering | Best Researcher Award

Associate Professor from Shanghai Jiao Tong University, China

Jing Wang, Ph.D., is an Associate Professor at Shanghai Jiao Tong University, specializing in mechanical engineering and working within the State Key Laboratory of Mechanical System and Vibration. With a birth date of November 14, 1989, Dr. Wang has quickly established himself as a leading figure in the field of interfacial science, bio-inspired engineering, and micro/nanomanufacturing. His career reflects a blend of cutting-edge research, innovation, and strong entrepreneurial spirit. Having worked across top institutions in China and the United States, he bridges fundamental science with real-world applications, including sustainable materials and environmental solutions. Dr. Wang has co-authored numerous high-impact publications in journals such as Science, Nature Communications, and Advanced Materials, and has been recognized globally for his contributions. Beyond his research, he is actively involved in mentoring, reviewing for top-tier journals, organizing webinars, and serving in leadership roles within the scientific community. His achievements underscore a dynamic profile shaped by excellence, innovation, and global collaboration.

Professional Profile

Education

Jing Wang completed his Bachelor of Engineering (B.E.) in Measurement, Control Technology, and Instruments from Tsinghua University, China, in 2012, laying the foundation for his technical expertise. He advanced his studies in the United States, earning a Ph.D. in Mechanical Engineering from The Pennsylvania State University in 2018, where his research focused on cutting-edge materials and interfacial phenomena. Dr. Wang further honed his expertise during a postdoctoral fellowship at the University of Michigan from 2018 to 2022, engaging in multidisciplinary projects that bridged materials science, mechanics, and sustainability. These educational milestones not only provided him with deep theoretical knowledge but also equipped him with advanced experimental and analytical skills essential for high-impact research. His academic journey across top-tier institutions in China and the U.S. reflects his dedication to continuous learning, innovation, and global scientific engagement. Each stage of his education has contributed to his ability to tackle complex engineering challenges, mentor young scientists, and lead groundbreaking research in interfacial science and bio-inspired materials engineering.

Professional Experience

Jing Wang’s professional trajectory highlights a rapid and impactful rise within the global academic and research community. After completing his Ph.D. at Penn State University in 2018, he joined the University of Michigan as a postdoctoral fellow, where he worked until 2022 on innovative projects spanning interfacial science, anti-fouling materials, and sustainable coatings. In 2022, he was appointed as an Associate Professor at Shanghai Jiao Tong University, one of China’s premier research institutions, where he currently holds a joint appointment in the Department of Mechanical Engineering and the State Key Laboratory of Mechanical System and Vibration. Beyond his academic posts, Dr. Wang has been a Technical Advisor for spotLESS Materials Inc. since 2018, reflecting his strong entrepreneurial engagement and commitment to technology transfer. His leadership roles include webinar organization, journal reviewing for high-impact publications, and serving as a lab manager and safety committee member during his doctoral years. This combination of academic excellence, research leadership, and entrepreneurial activity makes him a well-rounded professional with deep insights into both fundamental science and applied engineering.

Research Interests

Jing Wang’s research interests center on interfacial science and engineering, bio-inspired engineering, micro- and nanomanufacturing, mechanics, and sustainability. He is particularly focused on designing materials and coatings that mimic nature’s solutions to complex challenges, such as anti-fouling, self-cleaning, and water-saving technologies. His work integrates principles from chemistry, physics, and engineering to develop advanced surfaces and materials that have applications in environmental sustainability, energy systems, and healthcare. Additionally, Dr. Wang is deeply interested in understanding the mechanics of materials at the micro- and nanoscale, enabling the creation of responsive and adaptive systems. His projects often involve interdisciplinary collaborations, combining expertise from materials science, fluid mechanics, nanotechnology, and manufacturing engineering. Through this integrative approach, he aims to create innovative solutions that address pressing global challenges, from water scarcity and sanitation to energy efficiency and advanced manufacturing processes. Dr. Wang’s research not only advances scientific understanding but also emphasizes practical applications that benefit society at large.

Research Skills

Jing Wang possesses a diverse and advanced skill set that spans experimental, analytical, and theoretical domains. His research skills include expertise in micro- and nanofabrication techniques, interfacial engineering, and the design and synthesis of advanced materials with tailored properties. He is adept in various surface characterization methods such as scanning electron microscopy (SEM), atomic force microscopy (AFM), and contact angle measurements, enabling detailed understanding of surface properties. Dr. Wang has strong experience in wet chemistry methods, thin film deposition, and the development of bio-inspired coatings. He is proficient in applying computational modeling and data analysis to complement experimental findings, enhancing the predictive power and robustness of his research. Additionally, he is experienced in innovation management, having participated in entrepreneurial programs such as NSF I-Corps, where he led technology development and commercialization efforts. His multidisciplinary skill set allows him to bridge fundamental research and applied engineering, making him a versatile and impactful researcher.

Awards and Honors

Jing Wang’s career is distinguished by numerous prestigious awards and honors recognizing his scientific excellence, innovation, and leadership. Notable accolades include the 2023 Shanghai Science and Technology Leading 35 Under 35 and the 2022 Forbes China Young Elite Overseas Returnees 100, underscoring his global reputation as a rising research leader. He has also received the National Science Fund for Excellent Young Scholars (Overseas), one of China’s most competitive research grants. Earlier in his career, Dr. Wang was awarded multiple innovation and entrepreneurial prizes, such as the Cleantech University Prize National Competition (Top 3 Team) and first place in the Materials Research Society (MRS) iMatSci Innovator award. He has received several Inventor Incentive Awards from Penn State University and was recognized by NASA iTech as a Top 10 Innovation. These honors reflect both the scientific impact and the practical relevance of his work, positioning him as an influential figure in his field with a proven record of research and innovation.

Conclusion

In conclusion, Dr. Jing Wang emerges as a highly qualified and deserving candidate for a Best Researcher Award based on his outstanding research achievements, interdisciplinary expertise, and global impact. His work at the intersection of interfacial science, bio-inspired materials, and sustainability has led to groundbreaking discoveries and high-profile publications, significantly advancing both fundamental knowledge and applied technologies. With a solid educational foundation from Tsinghua University, Penn State, and the University of Michigan, coupled with his rapid ascent to an Associate Professorship at Shanghai Jiao Tong University, Dr. Wang exemplifies excellence in research leadership. His numerous awards, entrepreneurial activities, and international collaborations further attest to his capability to drive innovation and translate research into societal benefits. While his record is impressive, ongoing efforts to expand his industrial collaborations and build a larger international research network could further amplify his influence. Overall, Dr. Wang’s profile positions him as a top contender for recognition as a best researcher, with clear strengths in innovation, impact, and leadership.

Publications Top Notes

  1. Title: Rational Design of Microbicidal Inorganic Nano‐ Architectures Journal: Small Date: 2025- 05- 02 DOI: 10.1002/ smll. 202502663 Authors: Shuaidong Qi, Jing Wang, Decui Cheng, Tingting Pan, Ruoming Tan, Hongping Qu, Li‐ Min ZhuRational Design of Microbicidal Inorganic Nano-Architectures
    Journal: Small
    Date: 2025-05-02
    DOI: 10.1002/smll.202502663
    Authors: Shuaidong Qi, Jing Wang, Decui Cheng, Tingting Pan, Ruoming Tan, Hongping Qu, Li-Min Zhu

  2. Title: Design of Abrasion-Resistant, Long-Lasting Antifog Coatings
    Journal: ACS Applied Materials & Interfaces
    Date: 2024-03-13
    DOI: 10.1021/acsami.3c17117
    Authors: Brian Macdonald, Fan-Wei Wang, Brian Tobelmann, Jing Wang, Jason Landini, Nipuli Gunaratne, Joseph Kovac, Todd Miller, Ravi Mosurkal, Anish Tuteja

  3. Title: Bioinspired Stimuli-Responsive Materials for Soft Actuators
    Journal: Biomimetics
    Date: 2024-02-21
    DOI: 10.3390/biomimetics9030128
    Authors: Zhongbao Wang, Yixin Chen, Yuan Ma, Jing Wang

  4. Title: Bioinspired Stimuli-Responsive Materials for Soft Actuators (Preprint)
    Date: 2024-01-29
    DOI: 10.20944/preprints202401.2039.v1
    Authors: Zhongbao Wang, Yixin Chen, Yuan Ma, Jing Wang

  5. Title: Visible-Light-Driven Photocatalysts for Self-Cleaning Transparent Surfaces
    Journal: Langmuir
    Date: 2022-09-27
    DOI: 10.1021/acs.langmuir.2c01455
    Authors: Andrew J. Gayle, Julia D. Lenef, Park A. Huff, Jing Wang, Fenghe Fu, Gayatri Dadheech, Neil P. Dasgupta

  6. Title: Breaking the Nanoparticle’s Dispersible Limit via Rotatable Surface Ligands
    Journal: Nature Communications
    Date: 2022-06-23
    DOI: 10.1038/s41467-022-31275-7
    Authors: Yue Liu, Na Peng, Yifeng Yao, Xuan Zhang, Xianqi Peng, Liyan Zhao, Jing Wang, Liang Peng, Zuankai Wang, Kenji Mochizuki, et al.

  7. Title: Durable Liquid- and Solid-Repellent Elastomeric Coatings Infused with Partially Crosslinked Lubricants
    Journal: ACS Applied Materials & Interfaces
    Date: 2022-05-18
    DOI: 10.1021/acsami.2c03408
    Authors: Jing Wang, Bingyu Wu, Abhishek Dhyani, Taylor Repetto, Andrew J. Gayle, Tae H. Cho, Neil P. Dasgupta, Anish Tuteja

  8. Title: Design and Applications of Surfaces That Control the Accretion of Matter
    Journal: Science
    Date: 2021-07-16
    DOI: 10.1126/science.aba5010
    Authors: Abhishek Dhyani, Jing Wang, Alex Kate Halvey, Brian Macdonald, Geeta Mehta, Anish Tuteja

  9. Title: Quantitative and Sensitive SERS Platform with Analyte Enrichment and Filtration Function
    Journal: Nano Letters
    Date: 2020-09-03
    DOI: 10.1021/acs.nanolett.0c02683
    Authors: Jing Wang

Meiqi Li | Engineering | Best Researcher Award

Published on by Shen Awards

Dr. Meiqi Li | Engineering | Best Researcher Award

Engineer at Peking University, China.

Dr. Meiqi Li is a skilled biomedical engineer with a strong focus on cutting-edge imaging technologies. As a Co-Principal Investigator (Co-PI) and Engineer in the Peng Xi Group at the School of Life Sciences, Peking University, she has contributed significantly to the fields of super-resolution microscopy and multi-dimensional live-cell imaging. With several prestigious awards, including teaching accolades and innovation prizes from Peking University, Dr. Li is recognized as an accomplished researcher and educator. Her commitment to advancing knowledge in her field is evident through her leadership in multiple high-impact research projects funded by the National Natural Science Foundation. Dr. Li’s innovative work is positioned to make lasting contributions to biomedical research, particularly in understanding complex cellular structures and dynamics.

Professional Profile

Education

Dr. Li completed her Ph.D. in Biomedical Engineering at Peking University, specializing in super-resolution microscopy and live-cell imaging under the mentorship of the Peng Xi Group. During her Ph.D., she developed expertise in advanced imaging techniques, paving the way for her work in high-resolution cellular imaging. She also holds a Bachelor of Science in Automation from Harbin Institute of Technology, where her research centered on photoacoustic imaging, laying a foundation for her proficiency in engineering and imaging sciences. Her academic background combines rigorous technical training with a focus on real-world applications in life sciences, positioning her for success in the interdisciplinary field of biomedical engineering.

Professional Experience

Since 2022, Dr. Li has held the role of Co-PI and Engineer in the Peng Xi Group at Peking University’s School of Life Sciences. Here, she has been instrumental in managing complex research projects, including the National Natural Science Foundation’s Youth Project and Key Project. In these roles, she oversees the development of advanced imaging technologies and guides research teams in exploring new frontiers in live-cell imaging. Her prior experience includes leading and participating in projects related to photoacoustic imaging, as well as contributing to research that has practical applications for diagnostic and research purposes in cell biology and biomedicine.

Research Interests

Dr. Li’s primary research interests lie in the fields of super-resolution microscopy and multi-dimensional live-cell imaging. She is particularly focused on developing and applying novel imaging techniques to capture the dynamic, three-dimensional structures of living cells. Her goal is to advance biomedical imaging technologies, enabling researchers to view cellular processes at unprecedented spatial and temporal resolutions. Through her work, Dr. Li aims to unlock insights into cellular functions that were previously beyond the reach of conventional imaging tools, with implications for understanding disease mechanisms and developing targeted therapies.

Research Skills

Dr. Li possesses an advanced skill set in various biomedical imaging technologies, particularly in super-resolution microscopy, structured illumination microscopy, and photoacoustic imaging. She is adept in utilizing and refining complex imaging equipment, analyzing multi-dimensional data, and implementing innovative solutions to improve imaging resolution and accuracy. Her technical expertise extends to project management, data interpretation, and scientific writing, enabling her to effectively communicate complex findings. Her strong foundation in automation, gained through her undergraduate education, further complements her imaging skills, allowing her to approach research questions with a unique, interdisciplinary perspective.

Awards and Honors

Throughout her academic and professional career, Dr. Li has received numerous awards that highlight her excellence in research and teaching. Notably, she received the First Prize of the Peking University Innovation in Teaching Application Competition and the Innovation Technology Award. Her teaching prowess was further recognized with awards in the Young Teachers’ Teaching Fundamentals Competition, where she received multiple accolades, including the Best Teaching Demonstration Award. Additionally, Dr. Li has been honored with the Principal Fellowship of Peking University, the Jiaxi Lu Outstanding Graduate Student Award, and the Academic Innovation Prize, among others. These awards reflect her dedication to research, her innovative approach to teaching, and her standing as a respected member of the academic community.

Conclusion

Dr. Meiqi Li is a promising candidate for the Best Researcher Award. Her academic achievements, funded research projects, and numerous accolades reflect her commitment to innovation in life sciences. While she may benefit from additional years of experience in leading large-scale, independent projects, her potential for growth and impact in biomedical engineering is evident. Her pioneering work in cell imaging and microscopy, coupled with her teaching and mentorship success, make her a strong and competitive candidate for this award.

Publication Top  Notes

  • Expanding super-resolution imaging versatility in organisms with multi-confocal image scanning microscopy
    W. Ren†, M. Guan†, Q. Liang†, M. Li*, B. Jin, G. Duan, L. Zhang, X. Ge, H. Xu, Y. Hou, B. Gao, Sodmergen, P. Xi*
    National Science Review, nwae303 (2024).
  • Multi-organelle interactome through 3D fluorescence super-resolution microscopy and deep learning segmentation
    K. Zhanghao†, M. Li†,, X. Chen, W. Liu, T. Li, Y. Wang, F. Su, Z. Wu, C. Shan, J. Wu, Y. Zhang, J. Fu, P. Xi, D. Jin*
    Nature Communications, Third round of review.
  • Multi-resolution analysis enables fidelity-ensured computational super-resolution and denoising for fluorescence microscopy
    Y. Hou, W. Wang, Y. Fu, X. Ge, M. Li*, P. Xi*
    eLight, 4, 14 (2024).
  • Three-dimensional dipole orientation mapping with high temporal-spatial resolution using polarization modulation
    S. Zhong, L. Qiao, X. Ge, X. Xu, Y. Fu, S. Gao, K. Zhanghao, H. Hao, W. Wang, M. Li*, P. Xi*
    PhotoniX, 5, 19 (2024).
  • Fluorescence Lifetime Super-Resolution Imaging Unveils the Dynamic Relationship between Mitochondrial Membrane Potential and Cristae Structure Using the Förster Resonance Energy Transfer Strategy
    F. Peng, X. Ai, J. Sun, X. Ge, M. Li*, P. Xi, B. Gao*
    Analytical Chemistry, 96, 11052-11060 (2024).
  • High-dimensional Super-Resolution Imaging of Heterogeneous Subcellular Lipid Membranes
    K. Zhanghao†, W. Liu†, M. Li†, Z. Wu, X, Wang, X. Chen, C. Shan, H. Wang, X. Chen, Q. Dai, P. Xi, D. Jin
    Nature Communications, 11, 5890 (2020).
  • Structured illumination microscopy using digital micro-mirror device and coherent light source
    M. Li†, Y. Li†, W. Liu, A. Lal, S. Jiang, D. Jin, H. Yang, S. Wang, K. Zhanghao, P. Xi
    Applied Physics Letters, 116 (2020).
  • High-speed autopolarization synchronization modulation three-dimensional structured illumination microscopy
    Y. Li, R. Cao, W. Ren, Y. Fu, H. Y. Hou, S. Zhong, K. Zhanghao, M. Li*, P. Xi*
    Advanced Photonics Nexus, 3, 016001 (2023).
  • Super-resolution imaging of fluorescent dipoles via polarized structured illumination microscopy
    K. Zhanghao†, X. Chen†, W. Liu, M. Li, Y. Liu, Y. Wang, S. Luo, X. Wang, C. Shan, H. Xie, J. Gao, X. Chen, D. Jin, X. Li, Y. Zhang, Q. Dai, P. Xi
    Nature Communications, 10, 4694 (2019).
    Highlight on Nature Methods (16, 1206 (2019)). DOI: 10.1038/s41592-019-0682-6
  • Visualization of cristae and mtDNA interactions via STED nanoscopy using a low saturation power probe
    W. Ren, X. Ge, M. Li, J. Sun, S. Li, S. Gao, C. Shan, B. Gao, P. Xi
    Light: Science & Applications, 13, 116 (2024).

YUSUF BABATUNDE | Engineering | Best Researcher Award

Published on by Shen Awards

Dr. YUSUF BABATUNDE | Engineering | Best Researcher Award

Lecturer at University of Ilorin, Ilorin, Nigeria.

Olawale Yusuf Babatunde is a Nigerian civil engineer with expertise in sustainable construction materials. He has been a Lecturer in the Department of Civil Engineering at the University of Ilorin, Nigeria, since 2019. His work primarily focuses on innovative engineering materials and optimization techniques for civil infrastructure. He is passionate about applying sustainable solutions in construction using local and alternative materials.

Profile

Scopus Profile

Education📚🎓

Olawale holds a Ph.D. in Civil Engineering from the Pan African University Institute of Basic Sciences, Technology and Innovation (PAUSTI), Kenya (2023). He also earned a Master of Engineering (M.Eng) in 2018 and a Bachelor of Engineering (B.Eng) in 2013, both from the University of Ilorin, Nigeria. His early education includes attendance at Dalex Royal College, Ilorin, for his secondary education, completed in 2007.

Experience🏗️📐

Babatunde has been a Lecturer at the University of Ilorin since 2019, teaching a variety of courses in Civil Engineering, such as Engineering Mechanics, Strength of Materials, and Structural Design. Prior to this role, he worked as a Consulting Engineer for Aroes Engineering Nigeria Limited, conducting soil investigations for major projects like the Kwara State New Secretariat Complex. He also gained industry experience at Asbirob Works as a Pupil Engineer and has taught Physics and Mathematics at secondary schools.

Research Interests🧪🏢

Olawale’s research focuses on developing sustainable materials for construction. His Ph.D. research involved an in-depth investigation into the effects of material compositions on waste plastic binder composites for pavers and other construction blocks. His other projects explore the use of alternative binders from eggshell waste, rice husk ash, and magnesium-oxide. His work emphasizes material optimization using Response Surface Methodology (RSM) and Artificial Neural Networks (ANN).

Awards🎖️🏆

Babatunde was awarded the prestigious African Union Ph.D. Scholarship in 2020 for his doctoral studies at PAUSTI, Kenya. This scholarship reflects his dedication and excellence in civil engineering and innovation in sustainable materials.

Publications Top Needs

  • Physicomechanical and Thermal Properties of Particle Board Produced Using Waste Ceramic Materials and Corncob
    • Authors: Aladegboye, O.J., Oyedepo, O.J., Awolola, T.J., Ilesanmi, O.T., Ikubanni, P.P.
    • Year: 2024
    • Citations: 0
  • Performance Evaluation of Hospital Waste Ash-Modified Asphalt Mixtures
    • Authors: Oguntayo, D., Ogundipe, O., Aladegboye, O., Babatunde, Y., Aransiola, O.
    • Year: 2023
    • Citations: 6
  • Effect of Mix Proportion on the Strength and Durability of Plastic and Sand Composite for Construction Applications
    • Authors: Babatunde, Y.O., Ibrahim, R.A., Oguntayo, D.O.
    • Year: 2022
    • Citations: 4
  • Influence of Material Composition on the Morphology and Engineering Properties of Waste Plastic Binder Composite for Construction Purposes
    • Authors: Babatunde, Y., Mwero, J., Mutuku, R., Jimoh, Y., Oguntayo, D.
    • Year: 2022
    • Citations: 9
  • Effects of Filler Types on the Microstructural and Engineering Properties of Waste Plastic Binder Composite for Construction Purposes
    • Authors: Babatunde, Y.O., Mwero, J., Mutuku, R., Jimoh, Y., Oguntayo, D.
    • Year: 2022
    • Citations: 1

Conclusion🌱🔧

Olawale Babatunde is an accomplished civil engineer with a strong foundation in academic research and professional practice. His expertise in sustainable materials, optimization techniques, and structural design is shaping the future of eco-friendly construction. With his dedication to sustainable infrastructure and ongoing contributions to research, Olawale is poised to make a lasting impact in the field of civil engineering.