Yuxin Peng | Cell Adhesion Mechanisms | Best Researcher Award

Published on by Cell Biologist

Prof. Yuxin Peng | Cell Adhesion Mechanisms | Best Researcher Award

Prof. Yuxin Peng | Zhejiang University | China

Dr. Yuxin Peng is a distinguished researcher and educator in the field of biomedical and exercise science engineering. Currently serving as a ZJU 100 Young Professor at Zhejiang University, China, he has made significant strides in developing flexible sensors, smart wearable systems, and human–machine interaction technologies. With a Ph.D. and postdoctoral training at the National University of Singapore, his research integrates cutting-edge materials science, biomechanics, and AI-driven health monitoring systems. His work has been consistently published in high-impact journals like Science Advances, Advanced Science, IEEE Transactions, and Soft Robotics, reflecting both depth and innovation. Dr. Peng’s contributions are not only academic but also practical, with several of his innovations applied in rehabilitation, sports science, and robotics. His dedication and cross-disciplinary expertise make him a strong candidate for recognition such as the Best Researcher Award.

Publication Profiles: 

Orcid
Scopus

Education:

Dr. Yuxin Peng received his doctoral degree (Ph.D.) in an engineering-related discipline, laying a strong foundation in biomedical engineering, biomechanics, and sensor technologies. His early academic pursuits were rooted in multidisciplinary innovation, merging engineering principles with human physiology and robotics. To further deepen his scientific understanding, he pursued postdoctoral research at the prestigious National University of Singapore, focusing on biomedical systems and smart rehabilitation. During his academic training, Dr. Peng built expertise in wearable sensors, motion tracking systems, and soft robotics—technologies that play a crucial role in personalized healthcare and intelligent rehabilitation. His education trajectory demonstrates both depth and diversity, preparing him to address complex biomedical challenges with integrated, high-tech solutions. It also laid the groundwork for his future leadership roles and impactful research career at Zhejiang University, where he now mentors young researchers and leads innovation in health engineering.

Experience:

Dr. Yuxin Peng has built an impressive academic and research career spanning over a decade. He has been a ZJU 100 Young Professor at Zhejiang University, affiliated with the Institute of Exercise Science and Health Engineering. In this role, he leads interdisciplinary research projects in wearable technology, flexible sensors, and human motion analysis. Prior to this, he served as a Research Fellow at the Department of Biomedical Engineering, National University of Singapore, where he focused on intelligent health systems and rehabilitation technologies. His hands-on experience in global, high-tech research environments has allowed him to develop collaborations with experts in robotics, materials science, and medical engineering. He has supervised numerous projects and students, while continuously publishing in high-impact journals. His experience demonstrates a rare blend of academic rigor and real-world application, making him a leader in human-centered biomedical innovation and smart rehabilitation systems.

Research Focus:

Dr. Yuxin Peng’s research focuses on wearable systems, smart sensors, soft robotics, and biomedical signal processing for human motion monitoring and rehabilitation. His work addresses real-world problems such as gait analysis, joint motion detection, force sensing, and rehabilitation assistance. By integrating AI, flexible electronics, and biocompatible materials, he develops high-performance sensors and intelligent exosuits for applications in sports science, elderly care, and physical therapy. Notable innovations include graphene-based aerogels, hydrogel biosensors, and multi-feature neural networks for gesture recognition. His lab has also contributed to optical waveguide sensors, virtual reality rehabilitation, and MI-controlled exoskeletons. The overarching goal of his work is to enable non-invasive, real-time, and personalized health monitoring through smart technology. By pushing the boundaries of soft, adaptive, and human-interactive systems, Dr. Peng’s research is at the forefront of the next generation of intelligent biomedical engineering solutions.

Publications Top Notes:

  1. Hydroplastic Foaming of Graphene Aerogels and AI Tactile SensorsScience Advances

  2. Underwater Instant Adhesive Hydrogel Interfaces for Robust BiosensingAdvanced Science

  3. Flexible Segmented Assemblable Fiber Optic Sensor for Multi-Joint MonitoringSoft Robotics (Accepted)

  4. Calibration-Free Optical Waveguide Bending Sensor for Soft RobotsSoft Science

  5. Distributed Plantar 3D Force Measurement SystemSensors and Actuators A

  6. Superelastic Graphene Nanofibrous Aerogels for Intelligent Sign LanguageSmall

  7. Omnidirectional Soft Bending Sensor for Joint MonitoringIEEE TIE

  8. Shank-RIO: Ranging-Inertial Odometry for Gait and PositioningIEEE TIM

  9. Exosuit with Bidirectional Hand Support via Gesture RecognitionIEEE TNSRE

  10.  Advances in Flexible Bending Sensors and ApplicationsIJ Smart & Nano Materials

Conclusion:

In conclusion, Dr. Yuxin Peng exhibits all the qualities of a top-tier, award-worthy researcher. His work is characterized by scientific rigor, high-impact publication, and a vision for solving real-world healthcare challenges using cutting-edge sensor and robotics technologies. As a respected academic at Zhejiang University with a solid international research background, Dr. Peng has already contributed significantly to wearable health tech and rehabilitation sciences. His ability to combine soft material innovation, artificial intelligence, and biomechanics into novel human-machine interaction systems places him at the forefront of biomedical engineering research. While there is room for growth in the areas of commercialization and global academic engagement, his career trajectory, research excellence, and societal relevance of his innovations make him a highly deserving candidate for the Best Researcher Award.

Yufeng Liu | photosynthesis | Best Researcher Award

Published on by Cell Biologist

Prof. Yufeng Liu | photosynthesis | Best Researcher Award

Prof. Yufeng Liu , Shenyang Agricultural University , China

Professor Yufeng Liu is a distinguished academic at the Modern Facilities Horticultural Engineering Technology Center, Shenyang Agricultural University, China. With a rich background in horticulture and vegetable science, he has dedicated his career to advancing agricultural innovation and sustainability. His research focuses on the molecular mechanisms of photosynthesis and stress responses in plants, particularly tomatoes. Professor Liu has made significant contributions to greenhouse technology and energy-efficient cultivation methods. He is recognized for his commitment to education and research, inspiring a new generation of horticulturists. As a member of various professional societies, he actively collaborates on national projects, driving impactful advancements in the field.

Publication Profile

Scopus

Strengths for the Award

Professor Yufeng Liu is a highly accomplished researcher in the field of horticultural science, particularly known for his work on photosynthesis and stress responses in plants. His strong academic background, highlighted by a PhD in Vegetable Science and significant positions at Shenyang Agricultural University, showcases his commitment to advancing agricultural practices. With 30 publications in indexed journals and 16 patents, he has made substantial contributions to both theoretical and applied research. His innovative technologies in greenhouse cultivation and understanding of stress mechanisms in tomatoes have implications for enhancing crop resilience, making him a valuable asset to the scientific community. His recent recognition through the Changjiang Scholar Award further validates his impact and leadership in horticultural engineering.

Areas for Improvement

While Professor Liu has demonstrated exceptional research capabilities, expanding his outreach to engage with industry stakeholders could enhance the practical application of his findings. Increased collaboration with international researchers may also lead to broader perspectives and innovations in his research. Further, developing more interdisciplinary projects could strengthen his work’s relevance in global agricultural challenges.

Education 

Professor Yufeng Liu obtained his Bachelor’s degree in Horticulture from Shandong Agricultural University in 2009. He pursued his PhD in Vegetable Science at Shenyang Agricultural University, completing it in 2009. His academic journey continued as he transitioned into various teaching roles at the same institution. In March 2012, he became a Lecturer, followed by promotion to Associate Professor in November 2017. By November 2021, he achieved the position of Professor. His educational achievements are complemented by participation in prestigious programs, including the Changjiang Scholar Award Program for Young Scholars in August 2023 and his role as a National bulk vegetable technical system post scientist since August 2022.

Experience 

Professor Yufeng Liu has extensive teaching and research experience spanning over a decade at Shenyang Agricultural University. His roles have evolved from Lecturer to Professor, allowing him to influence academic curricula and guide numerous graduate students. With a focus on innovative agricultural practices, he has led 16 completed and ongoing research projects, resulting in 30 published articles in indexed journals and 16 patents related to greenhouse technology and plant cultivation techniques. His expertise lies in photosynthesis, stress mechanisms, and calcium regulation in plants, contributing to advancements in stress-resistant vegetable cultivation. Additionally, his editorial role as a Guest Editor for the journal 《Horticulture》 showcases his leadership in the scientific community, and his active memberships in the Chinese Horticultural Society and Chinese Society of Agricultural Engineering reflect his commitment to professional collaboration and knowledge dissemination.

Awards and Honors 

Professor Yufeng Liu’s achievements have garnered him several prestigious awards and recognitions. He was honored with the Changjiang Scholar Award in August 2023, acknowledging his contributions to horticultural science as a young scholar. As a National bulk vegetable technical system post scientist since August 2022, he has played a critical role in developing advanced agricultural techniques. His promotions within Shenyang Agricultural University—from Lecturer to Professor—highlight his impact on academia and research. Furthermore, his contributions to the field have resulted in 16 patents and multiple publications in high-impact journals. Liu’s dedication to enhancing agricultural practices and fostering innovation is evident through his active involvement in professional societies, where he collaborates on various industry projects, strengthening his reputation as a leader in horticultural engineering.

Research Focus 

Professor Yufeng Liu’s research primarily explores the intricate processes of photosynthesis, plant stress responses, and calcium dynamics in horticultural crops. His significant contributions include clarifying molecular mechanisms of photosynthetic disorders in tomatoes under low night temperatures, which aids in developing stress-resistant varieties. Liu has investigated photoprotection mechanisms, contributing to the understanding of how tomatoes cope with adverse environmental conditions. He also focuses on innovative technologies for the efficient cultivation of facility vegetables, emphasizing energy-saving techniques in greenhouse operations. His work has resulted in breakthroughs in the prevention and control of soil-related obstacles in vegetable production. Through 16 ongoing and completed projects, Liu continues to innovate and enhance cultivation strategies, aligning his research with global agricultural sustainability goals.

Publication Top Notes

  1. Genome-wide identification and expression analysis of the UPF0016 family in tomato under drought stress 🌱
  2. Galactinol Regulates JA Biosynthesis to Enhance Tomato Cold Tolerance ❄️
  3. Light quality regulates plant biomass and fruit quality through a photoreceptor-dependent HY5-LHC/CYCB module in tomato 🌞
  4. Microorganisms regulate soil phosphorus fractions in response to low nocturnal temperature 🌍
  5. Progress on the UPF0016 family in plants 🌿
  6. Analysis of YUC and TAA/TAR Gene Families in Tomato 📊
  7. Effects of Low Temperature on Pedicel Abscission and Auxin Synthesis Key Genes of Tomato ❄️
  8. Genome-wide investigation of the phospholipase C gene family in Solanum lycopersicum and abiotic stress analysis 🌱
  9. Detection of Cucumber Powdery Mildew Based on Spectral and Image Information 🥒
  10. Effects of CO2 Enrichment on Carbon Assimilation, Yield and Quality of Oriental Melon Cultivated in a Solar Greenhouse 🌞🍈

Conclusion

Professor Yufeng Liu’s impressive body of work, academic achievements, and ongoing commitment to research make him a strong candidate for the Best Researcher Award. His contributions not only advance scientific understanding but also offer practical solutions to pressing agricultural issues. By fostering industry connections and broadening his collaborative efforts, he can further amplify the impact of his research on global horticulture. Recognizing him with this award would acknowledge his valuable contributions and inspire further innovation in the field.

 

 

Arash Mokhtari | Medicinal Plant | Best Researcher Award

Published on by Cell Biologist

Dr Arash  Mokhtari |  Medicinal Plant |  Best Researcher Award

Research fellow at  Agriculture Biotechnology Research Institute of Iran (ABRII), Iran

Arash Mokhtari is a distinguished Agricultural Biotechnologist with extensive expertise in plant tissue culture and advanced biotechnological methodologies. He earned his Ph.D. in Agricultural Biotechnology from the University of Tehran, Iran, where he achieved National Rank 2 with his research on elicitor-mediated gene expression in Valeriana officinalis. His Master’s degree, also from the University of Tehran, focused on the effect of plant growth regulators on somatic embryogenesis in wheat.

Profile:

Research Excellence

Innovative Research: Dr. Mokhtari’s research in plant tissue culture and agricultural biotechnology is cutting-edge. His work on the elicitor-mediated expression of genes in Valeriana officinalis, and optimization of bioactive compound extraction methods, demonstrates significant contributions to the field of agricultural biotechnology.

Publication Record: With numerous high-impact publications, including studies on efficient production and accumulation of valuable compounds, Dr. Mokhtari has a robust record of disseminating his research. His papers are published in reputable journals, reflecting the high quality and relevance of his work.

Leadership and Impact

Leadership Roles: As Head of the Plant Tissue Culture Laboratory and Advanced Research Greenhouses at the Agricultural Biotechnology Research Institute, Dr. Mokhtari has shown leadership in both research and practical applications. His role in managing teams and optimizing research protocols indicates his capability in driving significant advancements in his field.

National Recognition: Dr. Mokhtari has achieved high national rankings in his academic endeavors, including his Ph.D. and Master’s studies, which underscores his excellence and impact in the field of agricultural biotechnology.

Practical Applications

Agricultural Biotechnology: His research directly impacts agricultural practices by improving plant propagation techniques and enhancing crop yield efficiency. The practical applications of his work in plant tissue culture and genetic improvement are crucial for advancing agricultural productivity.

Professional Affiliations

Institutional Involvement: Dr. Mokhtari is affiliated with prestigious institutions, including the Agricultural Biotechnology Research Institute of Iran and the College of Agriculture and Natural Resources at the University of Tehran. His involvement with these organizations highlights his commitment to advancing agricultural biotechnology.

Conclusion

Dr. Arash Mokhtari’s extensive research contributions, leadership in advanced biotechnology research, and the practical implications of his work make him a highly suitable candidate for the Research for Best Researcher Award. His innovative approaches and significant achievements in plant biotechnology stand out as exemplary in his field.

Publication Top Notes:

  • “A highly efficient method for somatic embryogenesis of Kelussia odorotissima Mozaff., an endangered medicinal plant” in Plant Cell, Tissue and Organ Culture (PCTOC), 2017.
  • “Effect of plant growth regulators on direct shoot regeneration of wheat immature embryonic explants” in Journal of Agricultural Engineering and Biotechnology, 2013.
  • “Direct regeneration from leaves and nodes explants of Physalis peruviana L.” in International Journal of Farming and Allied Sciences, 2013.
  • “Rosmarinic acid and anthocyanin content improvement by foliar application of Fe and Zn fertilizer in Lemon balm (Melissa officinalis L.)” in International Journal of Advanced Biological and Biomedical Research, 2014.
  • “Plant regeneration through callus induction on medicinal herb Viola odorata – Role of plant growth regulators and explants” in Agriculture & Forestry, 2015.
  • “Callus induction and plant regeneration of Valeriana officinalis are affected by different leaf explants and various concentrations of plant growth regulators” in BioTechnologia, 2016.
  • “Rapid micropropagation of Cucumis sativus var. Dastgerdi (Iranian cultivar) by Node Culture Technique” in British Biotechnology Journal, 2014.
  • “Effect of Plant Growth Regulators on Seed Germination and Development of Protocorm and Seedling of Phalaenopsis amabilis (L.) Blume (Orchidaceae)” in Annual Research & Review in Biology, 2014.
  • “Engineering of secondary metabolites in tissue and cell culture of medicinal plants: an alternative to produce beneficial compounds using bioreactor technologies” in Crop Improvement: Sustainability Through Leading-Edge Technology, Springer Publications, 2017.
  • “Interactive effects of plant growth regulators and explants on direct shoot regeneration of Viola odorata” in BioTechnologia, 2016.
  • “Influence of plant growth regulators on in vitro culture and regeneration of Dracocephalum kotschyi” in International Journal of Agriculture Innovations and Research, 2014.