Teimuraz Lezhava | Biomedical Engineering | Best Researcher Award Published on 30/09/202530/09/2025 by Health Scientists Prof. Teimuraz Lezhava | Biomedical Engineering | Best Researcher Award Head of the Department of Genetics | Ivane Javakhishvili Tbilisi State University | Georgia Professor Teimuraz Lezhava, Head of the Department of Genetics at Ivane Javakhishvili Tbilisi State University and Director of the TSU Institute of Genetics, is a distinguished health scientist and geneticist whose career has been dedicated to advancing the understanding of human genome dynamics, aging, and cancer biology. He defended his doctoral dissertation in Leningrad in 1984, earning his PhD in Biological Sciences, and in the same year was appointed Professor of Genetics. Professor Lezhava is internationally recognized for formulating the Genetic Theory of Aging, which links progressive chromosome heterochromatinization to the decline of genomic function and age-related pathologies, and his pioneering research on peptide bioregulators that can induce chromatin deheterochromatinization, opening therapeutic avenues for aging, cancer, cardiovascular disease, and tuberculosis. His scholarship includes more than 150 scientific publications and three influential monographs, notably Human Chromosomes and Aging (New York, 2006), with his most recent work appearing in leading journals such as Aging Nature, Cytology and Genetics, and International Journal of Peptide Research and Therapeutics. He has played a prominent role in the international scientific community, founding the symposium “Chromosomes and Aging” at the World Congress of Gerontologists and Geriatricians, and delivering invited lectures across Europe, Asia, and the United States. Professor Lezhava has been honored with the Order of Honor Cavalier and the prestigious Advanced Scholar Award of the International Association of Gerontology and Geriatrics (IAGG-ER) for his contributions to biogerontology. He also serves on the editorial boards of several scientific journals, including Georgian Medical News, Jacobs Journal of Gerontology, Inter Ging, and others, underscoring his role as a leader in shaping the global dialogue on genetics, aging, and human health. He has 312 citations from 68 documents with an h-index of 8. Profiles: Scopus | ORCID Publications 1. Lezhava, T., Monaselidze, J., Jokhadze, T., Gorgoshidze, M., Kiladze, M., & Gaiozishvili, M. (2011). Remodeling of heterochromatin induced by heavy metals in extreme old age. 2. Monaselidze, J., Gorgoshidze, M., Jokhadze, T., Gaiozishvili, M., & Lezhava, T. (2011). Influence of tetrapeptide on chromatin thermostability. Bulletin of Experimental Biology and Medicine. 3. Lezhava, T., Monaselidze, J., Jokhadze, T., Kakauridze, N., Khodeli, N., Rogava, M., Bochorishvili, T., Gorgoshidze, M., Khachidze, D., Lomidze, E., et al. (2011). Gerontology research in Georgia. 4. Monaselidze, J. R., Khavinson, V. K., Gorgoshidze, M. Z., Khachidze, D. G., Lomidze, E. M., Jokhadze, T. A., & Lezhava, T. A. (2011). Effect of the peptide bronchogen (Ala-Asp-Glu-Leu) on DNA thermostability. 5. Kiladze, M., Gorgoshidze, M., Monaselidze, J., Jokhadze, T., & Lezhava, T. (2009). Microcalorimetric study of human blood lymphocytes culture at presence of copper, cadmium and prostamax.
Professor Teimuraz Lezhava, Head of the Department of Genetics at Ivane Javakhishvili Tbilisi State University and Director of the TSU Institute of Genetics, is a distinguished health scientist and geneticist whose career has been dedicated to advancing the understanding of human genome dynamics, aging, and cancer biology. He defended his doctoral dissertation in Leningrad in 1984, earning his PhD in Biological Sciences, and in the same year was appointed Professor of Genetics. Professor Lezhava is internationally recognized for formulating the Genetic Theory of Aging, which links progressive chromosome heterochromatinization to the decline of genomic function and age-related pathologies, and his pioneering research on peptide bioregulators that can induce chromatin deheterochromatinization, opening therapeutic avenues for aging, cancer, cardiovascular disease, and tuberculosis. His scholarship includes more than 150 scientific publications and three influential monographs, notably Human Chromosomes and Aging (New York, 2006), with his most recent work appearing in leading journals such as Aging Nature, Cytology and Genetics, and International Journal of Peptide Research and Therapeutics. He has played a prominent role in the international scientific community, founding the symposium “Chromosomes and Aging” at the World Congress of Gerontologists and Geriatricians, and delivering invited lectures across Europe, Asia, and the United States. Professor Lezhava has been honored with the Order of Honor Cavalier and the prestigious Advanced Scholar Award of the International Association of Gerontology and Geriatrics (IAGG-ER) for his contributions to biogerontology. He also serves on the editorial boards of several scientific journals, including Georgian Medical News, Jacobs Journal of Gerontology, Inter Ging, and others, underscoring his role as a leader in shaping the global dialogue on genetics, aging, and human health. He has 312 citations from 68 documents with an h-index of 8. Profiles: Scopus | ORCID Publications 1. Lezhava, T., Monaselidze, J., Jokhadze, T., Gorgoshidze, M., Kiladze, M., & Gaiozishvili, M. (2011). Remodeling of heterochromatin induced by heavy metals in extreme old age. 2. Monaselidze, J., Gorgoshidze, M., Jokhadze, T., Gaiozishvili, M., & Lezhava, T. (2011). Influence of tetrapeptide on chromatin thermostability. Bulletin of Experimental Biology and Medicine. 3. Lezhava, T., Monaselidze, J., Jokhadze, T., Kakauridze, N., Khodeli, N., Rogava, M., Bochorishvili, T., Gorgoshidze, M., Khachidze, D., Lomidze, E., et al. (2011). Gerontology research in Georgia. 4. Monaselidze, J. R., Khavinson, V. K., Gorgoshidze, M. Z., Khachidze, D. G., Lomidze, E. M., Jokhadze, T. A., & Lezhava, T. A. (2011). Effect of the peptide bronchogen (Ala-Asp-Glu-Leu) on DNA thermostability. 5. Kiladze, M., Gorgoshidze, M., Monaselidze, J., Jokhadze, T., & Lezhava, T. (2009). Microcalorimetric study of human blood lymphocytes culture at presence of copper, cadmium and prostamax.
Xuye Chen | Biomedical Engineering | Best Researcher Award Published on 09/09/202509/09/2025 by Health Scientists Prof. Xuye Chen | Biomedical Engineering | Best Researcher Award Assistant to the Dean at Lu dong university | China Xuye Chen stands out as a highly accomplished researcher whose work in microfluidics, MEMS, and intelligent sensing systems demonstrates both innovation and real-world relevance. Their extensive contributions to international journals and leadership in multiple research projects highlight a strong commitment to advancing science with direct applications in wearable technology, healthcare, and agriculture. The ability to mentor students who progress to advanced research roles further reflects their dedication to academic growth and knowledge transfer. While their achievements are impressive, expanding international collaborations, engaging more actively in professional societies, and contributing to wider knowledge dissemination through books or reviews could further strengthen their impact. Enhanced global consultancy and industry partnerships would also support the practical translation of their research. Overall, their track record of impactful innovations and research leadership makes them a strong candidate for the Best Researcher Award, with the potential for even greater influence in the future. Professional Profile Scopus Profile Education Xuye Chen has pursued a strong academic journey that laid the foundation for their expertise in advanced scientific research. Their educational background is marked by a steady progression through rigorous training in science and engineering, equipping them with the technical skills and analytical mindset necessary to excel in their field. Over the course of their academic development, they cultivated a deep understanding of microfluidics, MEMS, and related interdisciplinary domains, which later shaped their research career. Through continuous learning and scholarly engagement, they have translated academic knowledge into impactful research contributions with applications in healthcare, wearable technology, and agriculture. Their educational pathway also reflects a commitment to integrating theoretical knowledge with practical innovation, enabling them to establish a strong reputation within the research community. This solid academic grounding has not only supported their personal growth but also empowered them to mentor and inspire future researchers in advancing scientific discovery. Experience Xuye Chen professional experience reflects a strong record of research, innovation, and leadership in the fields of microfluidics, MEMS, and intelligent sensing technologies. Over the years, they have consistently advanced interdisciplinary research with practical applications in healthcare, wearable devices, and modern agriculture, contributing to the development of impactful solutions that address real-world challenges. Their role in leading numerous funded research projects demonstrates effective project management, scientific rigor, and the ability to translate ideas into tangible outcomes. Beyond individual contributions, they have played a significant part in mentoring students and young researchers, fostering academic growth and encouraging innovation within the next generation of scientists. Their professional journey also includes extensive collaborations with industry through consultancy projects, enhancing the application of research in practical domains. This blend of academic excellence, applied research, and mentorship highlights a well-rounded professional trajectory that positions them as an influential figure in their field. Research Interest Xuye Chen research interests lie at the intersection of micro-nano manufacturing, microfluidic control systems, and flexible MEMS-based intelligent sensing technologies, with a strong focus on their practical applications in diverse fields. Their work emphasizes the development of innovative solutions that integrate advanced materials and design principles to create wearable equipment and healthcare monitoring systems capable of improving human well-being. In addition to health-related applications, their research extends to modern agriculture, where microfluidic and sensing systems can enhance productivity and sustainability. A central theme in their work is bridging fundamental science with real-world utility, ensuring that research outcomes not only advance theoretical knowledge but also provide tangible societal benefits. By exploring multidisciplinary approaches that combine physics, engineering, and biomedical sciences, they continue to push the boundaries of innovation. Their interests reflect a commitment to advancing technologies that improve quality of life while addressing pressing challenges across multiple sectors. Award and Honor Xuye Chen has received multiple awards and honors in recognition of their outstanding contributions to scientific research and technological innovation. Their achievements have been acknowledged through several prestigious provincial-level science and technology awards, reflecting the significance and impact of their work within the academic and applied research communities. These honors highlight excellence in areas such as microfluidics, MEMS, and intelligent sensing systems, where their research outcomes have advanced both knowledge and practical applications. Recognition through these awards also underscores their ability to lead high-quality research projects and deliver solutions with societal relevance, particularly in healthcare, wearable technology, and agriculture. Beyond personal achievements, these accolades serve as a testament to their role as a mentor, innovator, and leader in their field. The consistent acknowledgment of their work through competitive honors illustrates the high regard in which they are held and strengthens their candidacy for further international recognition. Research Skill Xuye Chen possesses a comprehensive set of research skills that enable them to excel in advancing innovative technologies across interdisciplinary domains. Their expertise includes designing and fabricating microfluidic systems, developing flexible MEMS-based sensors, and applying micro-nano manufacturing techniques to create intelligent devices with practical applications. They demonstrate strong analytical skills in experimental design, data interpretation, and problem-solving, ensuring high-quality outcomes in complex research environments. Their ability to integrate engineering principles with biomedical and agricultural applications reflects versatility and adaptability in addressing diverse challenges. In addition to technical expertise, they are skilled in managing large-scale research projects, securing funding, and delivering impactful results. Their proficiency in publishing in top-tier journals and reviewing scholarly work further shows strong communication and critical evaluation abilities. These combined skills not only contribute to advancing scientific innovation but also to mentoring young researchers, thereby fostering knowledge transfer and capacity building in their field. Publications Top Notes Title: Self-powered wearable triboelectric nanogenerator based on MXene/chitosan/carbon nanotube layered composite filmYear: 2025Citation: 2 Title: CuO-embedded laser-induced graphene microfluidic system for continuous, non-invasive, and cost-effective glucose monitoring in sweatYear: 2025Citation: 1 Title: Bioinspired Leaf-Vein Micromixer for a Rapid and Efficient Synthesis of Monodisperse Ciprofloxacin Lipid NanoparticlesYear: 2025Citation: 1 Title: A flexible stretchable pressure sensor featuring a carbon nanotube porous sponge bionic-skin stratum spinosum electrode for health monitoringYear: 2025Citation: 1 Conclusion Xuye Chen contributions to scientific research, innovation in MEMS and microfluidics, and their direct applications in healthcare and related fields make them highly deserving of recognition through the Best Researcher Award. Their strong academic output, project leadership, and applied impact align closely with the objectives of this award. With continued expansion in collaborative and outreach efforts, they have the potential to elevate their influence even further on the global research stage.
Xuye Chen stands out as a highly accomplished researcher whose work in microfluidics, MEMS, and intelligent sensing systems demonstrates both innovation and real-world relevance. Their extensive contributions to international journals and leadership in multiple research projects highlight a strong commitment to advancing science with direct applications in wearable technology, healthcare, and agriculture. The ability to mentor students who progress to advanced research roles further reflects their dedication to academic growth and knowledge transfer. While their achievements are impressive, expanding international collaborations, engaging more actively in professional societies, and contributing to wider knowledge dissemination through books or reviews could further strengthen their impact. Enhanced global consultancy and industry partnerships would also support the practical translation of their research. Overall, their track record of impactful innovations and research leadership makes them a strong candidate for the Best Researcher Award, with the potential for even greater influence in the future. Professional Profile Scopus Profile Education Xuye Chen has pursued a strong academic journey that laid the foundation for their expertise in advanced scientific research. Their educational background is marked by a steady progression through rigorous training in science and engineering, equipping them with the technical skills and analytical mindset necessary to excel in their field. Over the course of their academic development, they cultivated a deep understanding of microfluidics, MEMS, and related interdisciplinary domains, which later shaped their research career. Through continuous learning and scholarly engagement, they have translated academic knowledge into impactful research contributions with applications in healthcare, wearable technology, and agriculture. Their educational pathway also reflects a commitment to integrating theoretical knowledge with practical innovation, enabling them to establish a strong reputation within the research community. This solid academic grounding has not only supported their personal growth but also empowered them to mentor and inspire future researchers in advancing scientific discovery. Experience Xuye Chen professional experience reflects a strong record of research, innovation, and leadership in the fields of microfluidics, MEMS, and intelligent sensing technologies. Over the years, they have consistently advanced interdisciplinary research with practical applications in healthcare, wearable devices, and modern agriculture, contributing to the development of impactful solutions that address real-world challenges. Their role in leading numerous funded research projects demonstrates effective project management, scientific rigor, and the ability to translate ideas into tangible outcomes. Beyond individual contributions, they have played a significant part in mentoring students and young researchers, fostering academic growth and encouraging innovation within the next generation of scientists. Their professional journey also includes extensive collaborations with industry through consultancy projects, enhancing the application of research in practical domains. This blend of academic excellence, applied research, and mentorship highlights a well-rounded professional trajectory that positions them as an influential figure in their field. Research Interest Xuye Chen research interests lie at the intersection of micro-nano manufacturing, microfluidic control systems, and flexible MEMS-based intelligent sensing technologies, with a strong focus on their practical applications in diverse fields. Their work emphasizes the development of innovative solutions that integrate advanced materials and design principles to create wearable equipment and healthcare monitoring systems capable of improving human well-being. In addition to health-related applications, their research extends to modern agriculture, where microfluidic and sensing systems can enhance productivity and sustainability. A central theme in their work is bridging fundamental science with real-world utility, ensuring that research outcomes not only advance theoretical knowledge but also provide tangible societal benefits. By exploring multidisciplinary approaches that combine physics, engineering, and biomedical sciences, they continue to push the boundaries of innovation. Their interests reflect a commitment to advancing technologies that improve quality of life while addressing pressing challenges across multiple sectors. Award and Honor Xuye Chen has received multiple awards and honors in recognition of their outstanding contributions to scientific research and technological innovation. Their achievements have been acknowledged through several prestigious provincial-level science and technology awards, reflecting the significance and impact of their work within the academic and applied research communities. These honors highlight excellence in areas such as microfluidics, MEMS, and intelligent sensing systems, where their research outcomes have advanced both knowledge and practical applications. Recognition through these awards also underscores their ability to lead high-quality research projects and deliver solutions with societal relevance, particularly in healthcare, wearable technology, and agriculture. Beyond personal achievements, these accolades serve as a testament to their role as a mentor, innovator, and leader in their field. The consistent acknowledgment of their work through competitive honors illustrates the high regard in which they are held and strengthens their candidacy for further international recognition. Research Skill Xuye Chen possesses a comprehensive set of research skills that enable them to excel in advancing innovative technologies across interdisciplinary domains. Their expertise includes designing and fabricating microfluidic systems, developing flexible MEMS-based sensors, and applying micro-nano manufacturing techniques to create intelligent devices with practical applications. They demonstrate strong analytical skills in experimental design, data interpretation, and problem-solving, ensuring high-quality outcomes in complex research environments. Their ability to integrate engineering principles with biomedical and agricultural applications reflects versatility and adaptability in addressing diverse challenges. In addition to technical expertise, they are skilled in managing large-scale research projects, securing funding, and delivering impactful results. Their proficiency in publishing in top-tier journals and reviewing scholarly work further shows strong communication and critical evaluation abilities. These combined skills not only contribute to advancing scientific innovation but also to mentoring young researchers, thereby fostering knowledge transfer and capacity building in their field. Publications Top Notes Title: Self-powered wearable triboelectric nanogenerator based on MXene/chitosan/carbon nanotube layered composite filmYear: 2025Citation: 2 Title: CuO-embedded laser-induced graphene microfluidic system for continuous, non-invasive, and cost-effective glucose monitoring in sweatYear: 2025Citation: 1 Title: Bioinspired Leaf-Vein Micromixer for a Rapid and Efficient Synthesis of Monodisperse Ciprofloxacin Lipid NanoparticlesYear: 2025Citation: 1 Title: A flexible stretchable pressure sensor featuring a carbon nanotube porous sponge bionic-skin stratum spinosum electrode for health monitoringYear: 2025Citation: 1 Conclusion Xuye Chen contributions to scientific research, innovation in MEMS and microfluidics, and their direct applications in healthcare and related fields make them highly deserving of recognition through the Best Researcher Award. Their strong academic output, project leadership, and applied impact align closely with the objectives of this award. With continued expansion in collaborative and outreach efforts, they have the potential to elevate their influence even further on the global research stage.
Xuye Chen has pursued a strong academic journey that laid the foundation for their expertise in advanced scientific research. Their educational background is marked by a steady progression through rigorous training in science and engineering, equipping them with the technical skills and analytical mindset necessary to excel in their field. Over the course of their academic development, they cultivated a deep understanding of microfluidics, MEMS, and related interdisciplinary domains, which later shaped their research career. Through continuous learning and scholarly engagement, they have translated academic knowledge into impactful research contributions with applications in healthcare, wearable technology, and agriculture. Their educational pathway also reflects a commitment to integrating theoretical knowledge with practical innovation, enabling them to establish a strong reputation within the research community. This solid academic grounding has not only supported their personal growth but also empowered them to mentor and inspire future researchers in advancing scientific discovery. Experience Xuye Chen professional experience reflects a strong record of research, innovation, and leadership in the fields of microfluidics, MEMS, and intelligent sensing technologies. Over the years, they have consistently advanced interdisciplinary research with practical applications in healthcare, wearable devices, and modern agriculture, contributing to the development of impactful solutions that address real-world challenges. Their role in leading numerous funded research projects demonstrates effective project management, scientific rigor, and the ability to translate ideas into tangible outcomes. Beyond individual contributions, they have played a significant part in mentoring students and young researchers, fostering academic growth and encouraging innovation within the next generation of scientists. Their professional journey also includes extensive collaborations with industry through consultancy projects, enhancing the application of research in practical domains. This blend of academic excellence, applied research, and mentorship highlights a well-rounded professional trajectory that positions them as an influential figure in their field. Research Interest Xuye Chen research interests lie at the intersection of micro-nano manufacturing, microfluidic control systems, and flexible MEMS-based intelligent sensing technologies, with a strong focus on their practical applications in diverse fields. Their work emphasizes the development of innovative solutions that integrate advanced materials and design principles to create wearable equipment and healthcare monitoring systems capable of improving human well-being. In addition to health-related applications, their research extends to modern agriculture, where microfluidic and sensing systems can enhance productivity and sustainability. A central theme in their work is bridging fundamental science with real-world utility, ensuring that research outcomes not only advance theoretical knowledge but also provide tangible societal benefits. By exploring multidisciplinary approaches that combine physics, engineering, and biomedical sciences, they continue to push the boundaries of innovation. Their interests reflect a commitment to advancing technologies that improve quality of life while addressing pressing challenges across multiple sectors. Award and Honor Xuye Chen has received multiple awards and honors in recognition of their outstanding contributions to scientific research and technological innovation. Their achievements have been acknowledged through several prestigious provincial-level science and technology awards, reflecting the significance and impact of their work within the academic and applied research communities. These honors highlight excellence in areas such as microfluidics, MEMS, and intelligent sensing systems, where their research outcomes have advanced both knowledge and practical applications. Recognition through these awards also underscores their ability to lead high-quality research projects and deliver solutions with societal relevance, particularly in healthcare, wearable technology, and agriculture. Beyond personal achievements, these accolades serve as a testament to their role as a mentor, innovator, and leader in their field. The consistent acknowledgment of their work through competitive honors illustrates the high regard in which they are held and strengthens their candidacy for further international recognition. Research Skill Xuye Chen possesses a comprehensive set of research skills that enable them to excel in advancing innovative technologies across interdisciplinary domains. Their expertise includes designing and fabricating microfluidic systems, developing flexible MEMS-based sensors, and applying micro-nano manufacturing techniques to create intelligent devices with practical applications. They demonstrate strong analytical skills in experimental design, data interpretation, and problem-solving, ensuring high-quality outcomes in complex research environments. Their ability to integrate engineering principles with biomedical and agricultural applications reflects versatility and adaptability in addressing diverse challenges. In addition to technical expertise, they are skilled in managing large-scale research projects, securing funding, and delivering impactful results. Their proficiency in publishing in top-tier journals and reviewing scholarly work further shows strong communication and critical evaluation abilities. These combined skills not only contribute to advancing scientific innovation but also to mentoring young researchers, thereby fostering knowledge transfer and capacity building in their field. Publications Top Notes Title: Self-powered wearable triboelectric nanogenerator based on MXene/chitosan/carbon nanotube layered composite filmYear: 2025Citation: 2 Title: CuO-embedded laser-induced graphene microfluidic system for continuous, non-invasive, and cost-effective glucose monitoring in sweatYear: 2025Citation: 1 Title: Bioinspired Leaf-Vein Micromixer for a Rapid and Efficient Synthesis of Monodisperse Ciprofloxacin Lipid NanoparticlesYear: 2025Citation: 1 Title: A flexible stretchable pressure sensor featuring a carbon nanotube porous sponge bionic-skin stratum spinosum electrode for health monitoringYear: 2025Citation: 1 Conclusion
Xuye Chen professional experience reflects a strong record of research, innovation, and leadership in the fields of microfluidics, MEMS, and intelligent sensing technologies. Over the years, they have consistently advanced interdisciplinary research with practical applications in healthcare, wearable devices, and modern agriculture, contributing to the development of impactful solutions that address real-world challenges. Their role in leading numerous funded research projects demonstrates effective project management, scientific rigor, and the ability to translate ideas into tangible outcomes. Beyond individual contributions, they have played a significant part in mentoring students and young researchers, fostering academic growth and encouraging innovation within the next generation of scientists. Their professional journey also includes extensive collaborations with industry through consultancy projects, enhancing the application of research in practical domains. This blend of academic excellence, applied research, and mentorship highlights a well-rounded professional trajectory that positions them as an influential figure in their field. Research Interest Xuye Chen research interests lie at the intersection of micro-nano manufacturing, microfluidic control systems, and flexible MEMS-based intelligent sensing technologies, with a strong focus on their practical applications in diverse fields. Their work emphasizes the development of innovative solutions that integrate advanced materials and design principles to create wearable equipment and healthcare monitoring systems capable of improving human well-being. In addition to health-related applications, their research extends to modern agriculture, where microfluidic and sensing systems can enhance productivity and sustainability. A central theme in their work is bridging fundamental science with real-world utility, ensuring that research outcomes not only advance theoretical knowledge but also provide tangible societal benefits. By exploring multidisciplinary approaches that combine physics, engineering, and biomedical sciences, they continue to push the boundaries of innovation. Their interests reflect a commitment to advancing technologies that improve quality of life while addressing pressing challenges across multiple sectors. Award and Honor Xuye Chen has received multiple awards and honors in recognition of their outstanding contributions to scientific research and technological innovation. Their achievements have been acknowledged through several prestigious provincial-level science and technology awards, reflecting the significance and impact of their work within the academic and applied research communities. These honors highlight excellence in areas such as microfluidics, MEMS, and intelligent sensing systems, where their research outcomes have advanced both knowledge and practical applications. Recognition through these awards also underscores their ability to lead high-quality research projects and deliver solutions with societal relevance, particularly in healthcare, wearable technology, and agriculture. Beyond personal achievements, these accolades serve as a testament to their role as a mentor, innovator, and leader in their field. The consistent acknowledgment of their work through competitive honors illustrates the high regard in which they are held and strengthens their candidacy for further international recognition. Research Skill Xuye Chen possesses a comprehensive set of research skills that enable them to excel in advancing innovative technologies across interdisciplinary domains. Their expertise includes designing and fabricating microfluidic systems, developing flexible MEMS-based sensors, and applying micro-nano manufacturing techniques to create intelligent devices with practical applications. They demonstrate strong analytical skills in experimental design, data interpretation, and problem-solving, ensuring high-quality outcomes in complex research environments. Their ability to integrate engineering principles with biomedical and agricultural applications reflects versatility and adaptability in addressing diverse challenges. In addition to technical expertise, they are skilled in managing large-scale research projects, securing funding, and delivering impactful results. Their proficiency in publishing in top-tier journals and reviewing scholarly work further shows strong communication and critical evaluation abilities. These combined skills not only contribute to advancing scientific innovation but also to mentoring young researchers, thereby fostering knowledge transfer and capacity building in their field. Publications Top Notes Title: Self-powered wearable triboelectric nanogenerator based on MXene/chitosan/carbon nanotube layered composite filmYear: 2025Citation: 2 Title: CuO-embedded laser-induced graphene microfluidic system for continuous, non-invasive, and cost-effective glucose monitoring in sweatYear: 2025Citation: 1 Title: Bioinspired Leaf-Vein Micromixer for a Rapid and Efficient Synthesis of Monodisperse Ciprofloxacin Lipid NanoparticlesYear: 2025Citation: 1 Title: A flexible stretchable pressure sensor featuring a carbon nanotube porous sponge bionic-skin stratum spinosum electrode for health monitoringYear: 2025Citation: 1 Conclusion
Xuye Chen research interests lie at the intersection of micro-nano manufacturing, microfluidic control systems, and flexible MEMS-based intelligent sensing technologies, with a strong focus on their practical applications in diverse fields. Their work emphasizes the development of innovative solutions that integrate advanced materials and design principles to create wearable equipment and healthcare monitoring systems capable of improving human well-being. In addition to health-related applications, their research extends to modern agriculture, where microfluidic and sensing systems can enhance productivity and sustainability. A central theme in their work is bridging fundamental science with real-world utility, ensuring that research outcomes not only advance theoretical knowledge but also provide tangible societal benefits. By exploring multidisciplinary approaches that combine physics, engineering, and biomedical sciences, they continue to push the boundaries of innovation. Their interests reflect a commitment to advancing technologies that improve quality of life while addressing pressing challenges across multiple sectors. Award and Honor Xuye Chen has received multiple awards and honors in recognition of their outstanding contributions to scientific research and technological innovation. Their achievements have been acknowledged through several prestigious provincial-level science and technology awards, reflecting the significance and impact of their work within the academic and applied research communities. These honors highlight excellence in areas such as microfluidics, MEMS, and intelligent sensing systems, where their research outcomes have advanced both knowledge and practical applications. Recognition through these awards also underscores their ability to lead high-quality research projects and deliver solutions with societal relevance, particularly in healthcare, wearable technology, and agriculture. Beyond personal achievements, these accolades serve as a testament to their role as a mentor, innovator, and leader in their field. The consistent acknowledgment of their work through competitive honors illustrates the high regard in which they are held and strengthens their candidacy for further international recognition. Research Skill Xuye Chen possesses a comprehensive set of research skills that enable them to excel in advancing innovative technologies across interdisciplinary domains. Their expertise includes designing and fabricating microfluidic systems, developing flexible MEMS-based sensors, and applying micro-nano manufacturing techniques to create intelligent devices with practical applications. They demonstrate strong analytical skills in experimental design, data interpretation, and problem-solving, ensuring high-quality outcomes in complex research environments. Their ability to integrate engineering principles with biomedical and agricultural applications reflects versatility and adaptability in addressing diverse challenges. In addition to technical expertise, they are skilled in managing large-scale research projects, securing funding, and delivering impactful results. Their proficiency in publishing in top-tier journals and reviewing scholarly work further shows strong communication and critical evaluation abilities. These combined skills not only contribute to advancing scientific innovation but also to mentoring young researchers, thereby fostering knowledge transfer and capacity building in their field. Publications Top Notes Title: Self-powered wearable triboelectric nanogenerator based on MXene/chitosan/carbon nanotube layered composite filmYear: 2025Citation: 2 Title: CuO-embedded laser-induced graphene microfluidic system for continuous, non-invasive, and cost-effective glucose monitoring in sweatYear: 2025Citation: 1 Title: Bioinspired Leaf-Vein Micromixer for a Rapid and Efficient Synthesis of Monodisperse Ciprofloxacin Lipid NanoparticlesYear: 2025Citation: 1 Title: A flexible stretchable pressure sensor featuring a carbon nanotube porous sponge bionic-skin stratum spinosum electrode for health monitoringYear: 2025Citation: 1 Conclusion
Xuye Chen has received multiple awards and honors in recognition of their outstanding contributions to scientific research and technological innovation. Their achievements have been acknowledged through several prestigious provincial-level science and technology awards, reflecting the significance and impact of their work within the academic and applied research communities. These honors highlight excellence in areas such as microfluidics, MEMS, and intelligent sensing systems, where their research outcomes have advanced both knowledge and practical applications. Recognition through these awards also underscores their ability to lead high-quality research projects and deliver solutions with societal relevance, particularly in healthcare, wearable technology, and agriculture. Beyond personal achievements, these accolades serve as a testament to their role as a mentor, innovator, and leader in their field. The consistent acknowledgment of their work through competitive honors illustrates the high regard in which they are held and strengthens their candidacy for further international recognition. Research Skill Xuye Chen possesses a comprehensive set of research skills that enable them to excel in advancing innovative technologies across interdisciplinary domains. Their expertise includes designing and fabricating microfluidic systems, developing flexible MEMS-based sensors, and applying micro-nano manufacturing techniques to create intelligent devices with practical applications. They demonstrate strong analytical skills in experimental design, data interpretation, and problem-solving, ensuring high-quality outcomes in complex research environments. Their ability to integrate engineering principles with biomedical and agricultural applications reflects versatility and adaptability in addressing diverse challenges. In addition to technical expertise, they are skilled in managing large-scale research projects, securing funding, and delivering impactful results. Their proficiency in publishing in top-tier journals and reviewing scholarly work further shows strong communication and critical evaluation abilities. These combined skills not only contribute to advancing scientific innovation but also to mentoring young researchers, thereby fostering knowledge transfer and capacity building in their field. Publications Top Notes Title: Self-powered wearable triboelectric nanogenerator based on MXene/chitosan/carbon nanotube layered composite filmYear: 2025Citation: 2 Title: CuO-embedded laser-induced graphene microfluidic system for continuous, non-invasive, and cost-effective glucose monitoring in sweatYear: 2025Citation: 1 Title: Bioinspired Leaf-Vein Micromixer for a Rapid and Efficient Synthesis of Monodisperse Ciprofloxacin Lipid NanoparticlesYear: 2025Citation: 1 Title: A flexible stretchable pressure sensor featuring a carbon nanotube porous sponge bionic-skin stratum spinosum electrode for health monitoringYear: 2025Citation: 1 Conclusion
Xuye Chen possesses a comprehensive set of research skills that enable them to excel in advancing innovative technologies across interdisciplinary domains. Their expertise includes designing and fabricating microfluidic systems, developing flexible MEMS-based sensors, and applying micro-nano manufacturing techniques to create intelligent devices with practical applications. They demonstrate strong analytical skills in experimental design, data interpretation, and problem-solving, ensuring high-quality outcomes in complex research environments. Their ability to integrate engineering principles with biomedical and agricultural applications reflects versatility and adaptability in addressing diverse challenges. In addition to technical expertise, they are skilled in managing large-scale research projects, securing funding, and delivering impactful results. Their proficiency in publishing in top-tier journals and reviewing scholarly work further shows strong communication and critical evaluation abilities. These combined skills not only contribute to advancing scientific innovation but also to mentoring young researchers, thereby fostering knowledge transfer and capacity building in their field. Publications Top Notes Title: Self-powered wearable triboelectric nanogenerator based on MXene/chitosan/carbon nanotube layered composite filmYear: 2025Citation: 2 Title: CuO-embedded laser-induced graphene microfluidic system for continuous, non-invasive, and cost-effective glucose monitoring in sweatYear: 2025Citation: 1 Title: Bioinspired Leaf-Vein Micromixer for a Rapid and Efficient Synthesis of Monodisperse Ciprofloxacin Lipid NanoparticlesYear: 2025Citation: 1 Title: A flexible stretchable pressure sensor featuring a carbon nanotube porous sponge bionic-skin stratum spinosum electrode for health monitoringYear: 2025Citation: 1 Conclusion
Xuye Chen contributions to scientific research, innovation in MEMS and microfluidics, and their direct applications in healthcare and related fields make them highly deserving of recognition through the Best Researcher Award. Their strong academic output, project leadership, and applied impact align closely with the objectives of this award. With continued expansion in collaborative and outreach efforts, they have the potential to elevate their influence even further on the global research stage.