Xiang Li | Epigenetics | Best Researcher Award Posted on 28/09/202428/09/2024 by sciencefatherLeave a Comment on Xiang Li | Epigenetics | Best Researcher Award Prof. Xiang Li | Epigenetics |Best Researcher Award International Collaboration: His involvement in both national research grants in China and Australia, including the prestigious Early Career Researcher Grant from the Australian Academy of Science, underscores his global contribution to neuroscience research. Prof. Xiang Li, Wuhan University , China Profile Scopus OrcID Google Scholar 🏛️Early Academic Pursuits Xiang Li began his academic journey in the realm of epigenetics and cognitive neuroscience. His foundational work laid a strong focus on the neural and epigenetic mechanisms underlying memory, especially fear memory. Early in his career, he worked on deciphering the complex relationship between gene expression and cognitive function, laying the groundwork for his later breakthroughs in neurological research. 👨🔬 PROFESSIONAL ENDEAVORS As a Professor at Wuhan University, Xiang Li has built a distinguished career dedicated to unraveling the epigenetic and cognitive processes in fear memory. His groundbreaking research has led to significant advancements in understanding fear-related psychiatric disorders and developing targeted treatments. Notably, Li has successfully completed or is currently involved in projects such as Neuronepigenetics during the Fear Condition and Fear Extinction Learning, and Multimodal Single-Cell Profiling of Human and Mouse Prefrontal Neuron Subregions. 🧬 RESEARCH FOCUS Nucleic Acid Modifications in Cognitive Function – His research sheds light on how nucleic acid modifications affect cognitive functions, particularly memory. Epigenetic Regulation in Neurological and Cerebrovascular Diseases – Li focuses on circular DNA/RNA’s role in regulating neuroimmune responses and neurodevelopment. Whole-Genome Detection Technologies – Xiang Li has pioneered techniques in epigenetics, pushing forward new technologies to detect changes across the genome, particularly related to memory formation and psychiatric disorders. 🏆 CONTRIBUTIONS AND AWARDS Xiang Li’s contributions extend beyond his publications. His leadership in the field has been acknowledged with prestigious research grants in both Australia and China, including the Early Career Researcher Grant from the Australian Academy of Science. In 2019, he was honored with the Mark Rower Award from the Australian Neuroscience Society. Additionally, he has been selected for the Hubei Province “100 Talent Plan”, further recognizing his outstanding contributions to neuroscience. 📊 IMPACT AND INFLUENCE Professor Xiang Li’s work has gained widespread recognition in the academic world. His research publications have amassed an impressive 1,895 citations, with an h-index of 22 and an i10-index of 34. Over the past five years, he has published more than 20 papers in highly respected journals such as Nature Neuroscience, Biological Psychiatry, PNAS, and the Journal of Neuroscience, contributing a cumulative impact factor exceeding 120. Two of his papers have been selected by F1000 as must-read articles, further cementing his influence in the neuroscience community. 🏅ACADEMIC CITES His work is widely referenced by scholars in the fields of neuroscience and cognitive research. With nearly 1,900 citations and a high h-index, his contributions are shaping the current understanding of memory-related psychiatric disorders. His work is pivotal in advancing therapeutic strategies that target cognitive and fear memory disorders. 🚀 LEGACY AND FUTURE CONTRIBUTIONS Looking ahead, Xiang Li’s research will continue to play a key role in uncovering the mechanisms that link epigenetics with cognitive neuroscience. His future work promises to further explore epigenetic regulatory mechanisms in neuroimmune cells and their role in cognitive function. His ongoing projects on whole-genome detection technology will likely yield new insights into neurological diseases, pushing the frontiers of both clinical and theoretical neuroscience. 📰PUBLICATIONS Epigenetic mechanisms mediating vulnerability and resilience to psychiatric disorders Authors: KJ Dudley, X Li, MS Kobor, TE Kippin, TW Bredy Journal: Neuroscience & Biobehavioral Reviews 35 (7), 1544-1551 The brain-specific microRNA miR-128b regulates the formation of fear-extinction memory Authors: Q Lin, W Wei, CM Coelho, X Li, D Baker-Andresen, K Dudley, VS Ratnu, … Journal: Nature Neuroscience 14 (9), 1115-1117 Neocortical Tet3-mediated accumulation of 5-hydroxymethylcytosine promotes rapid behavioral adaptation Authors: X Li, W Wei, QY Zhao, J Widagdo, D Baker-Andresen, CR Flavell, … Journal: Proceedings of the National Academy of Sciences 111 (19), 7120-7125 Activation of BDNF signaling prevents the return of fear in female mice Authors: D Baker-Andresen, CR Flavell, X Li, TW Bredy Journal: Learning & Memory 20 (5), 237-240 p300/CBP-associated factor selectively regulates the extinction of conditioned fear Authors: W Wei, CM Coelho, X Li, R Marek, S Yan, S Anderson, D Meyers, … Journal: Journal of Neuroscience 32 (35), 11930-11941
Nucleic Acid Modifications in Cognitive Function – His research sheds light on how nucleic acid modifications affect cognitive functions, particularly memory. Epigenetic Regulation in Neurological and Cerebrovascular Diseases – Li focuses on circular DNA/RNA’s role in regulating neuroimmune responses and neurodevelopment. Whole-Genome Detection Technologies – Xiang Li has pioneered techniques in epigenetics, pushing forward new technologies to detect changes across the genome, particularly related to memory formation and psychiatric disorders.
Jiaming Zhang | Optical Wireless Communication | Best Researcher Award Posted on 28/09/202428/09/2024 by sciencefatherLeave a Comment on Jiaming Zhang | Optical Wireless Communication | Best Researcher Award Mr.Jiaming Zhang | Optical Wireless Communication | Best Researcher Award Innovative Research: Jiaming has contributed significantly to the field by proposing a visible light system structure with a single LED and four photodetectors for collecting signal strength and coordinates. His use of K-means clustering, BES-ELM neural networks, and the enhanced weighted K nearest neighbor algorithm has demonstrated an innovative approach to solving complex indoor positioning challenges. Mr. Jiaming Zhang, Xi’an University Of Technology , China Profile OrcID 🎓Early Academic Pursuits Jiaming Zhang is currently pursuing a master’s degree in electronic information at the School of Automation and Information Engineering, Xi’an University of Technology. His academic journey is focused on mastering the complexities of optical wireless communication, which has become a pivotal area in modern technology. Zhang’s dedication to his studies has allowed him to develop strong technical skills in visible light communication, particularly in indoor positioning systems, marking him as a promising scholar in this emerging field. 💼Professional Endeavors Jiaming Zhang is actively engaged in research that leverages neural networks and optimization algorithms. His ongoing work on “Delineating Regional BES–ELM Neural Networks for Studying Indoor Visible Light Positioning” exemplifies his innovative approach to solving complex problems in optical communication. The project focuses on designing an efficient indoor visible light positioning system that enhances accuracy by employing a BES-ELM neural network and the K-means clustering algorithm. 🔬 CONTRIBUTIONS AND RESEARCH FOCUS One of Jiaming Zhang’s significant contributions is the proposal of a single LED plus four photodetector system, designed to improve the accuracy of indoor visible light positioning. His innovative use of the K-means clustering algorithm to delineate regions, along with the optimization of the neural network using the BES algorithm, has advanced the field. The model Zhang developed improves edge positioning accuracy and corrects positioning errors, offering a more reliable system for real-world applications. 🏆IMPACT AND INFLUENCE Jiaming Zhang’s research on visible light positioning systems has made a significant impact on the field of optical wireless communication. By introducing a more accurate and efficient indoor positioning model using BES-ELM neural networks, his work addresses key challenges in positioning accuracy, particularly in complex indoor environments. The use of the enhanced weighted K nearest neighbor algorithm to refine predictions sets his approach apart and offers practical solutions for industries relying on precise indoor navigation, such as robotics, healthcare, and smart building technologies. 🏅ACADEMIC CITES Jiaming Zhang’s work has garnered attention, reflected in his citation in 10.3390/photonics11100910. His research is contributing to the growing body of knowledge in optical wireless communication, specifically in visible light communication, positioning him as a thought leader in this niche. 🔮LEGACY AND FUTURE CONTRIBUTIONS Looking forward, Jiaming Zhang aims to further refine his visible light positioning model and apply it in various real-world scenarios. His work is expected to have lasting implications in areas such as indoor navigation, robotics, and smart home technologies. His academic legacy is rooted in his ability to merge theoretical knowledge with practical applications, ensuring that his future contributions continue to influence the field of optical wireless communication. 📰PUBLICATIONS Delineating Regional BES–ELM Neural Networks for Studying Indoor Visible Light Positioning Authors: Jiaming Zhang, Xizheng Ke Journal: Photonics
One of Jiaming Zhang’s significant contributions is the proposal of a single LED plus four photodetector system, designed to improve the accuracy of indoor visible light positioning. His innovative use of the K-means clustering algorithm to delineate regions, along with the optimization of the neural network using the BES algorithm, has advanced the field. The model Zhang developed improves edge positioning accuracy and corrects positioning errors, offering a more reliable system for real-world applications.
Xuexuan Xu | Soil Science | Best Researcher Award Posted on 27/09/202427/09/2024 by sciencefatherLeave a Comment on Xuexuan Xu | Soil Science | Best Researcher Award Prof .Xuexuan Xu | Soil Science | Best Researcher Award Innovative Research: Wang Yan’s research focuses on a visible-light-driven α-hydroxylation of β-dicarbonyl compounds mediated by NaI/NPh3 or NaI/PPh3 in water. This project highlights her ability to design efficient photocatalytic processes in sustainable, aqueous conditions, contributing to green chemistry advancements. Prof . Xuexuan Xu, Northwest A&F University, China Profile Scopus OrcID 🎓Early Academic Pursuits Xuexuan Xu began his academic journey with a Bachelor of Science in Physical Geography and a Master’s in Agronomy, culminating in a Ph.D. in Soil Science from Northwest A & F University, China, from 1998 to 2002. During his academic training, he developed a strong foundation in soil science, land management, and hydrology. A key milestone in his early career was his tenure as a visiting scholar at the Land Use and Land Survey Institute of Cranfield University, England (1997-1998), where he gained international exposure and advanced his expertise in land use analysis and hydrological systems. 💼Professional Endeavors Currently serving as a professor and project leader at the Institute of Soil and Water Conservation at Northwest A&F University, Xuexuan Xu is also a doctoral supervisor in Soil Science. He has been involved in various high-impact research projects focused on soil conservation, watershed management, and hydrological modeling. His research primarily examines the effects of land use on soil moisture, overland flow, and infiltration, with an emphasis on the loess plateau, a region critical to China’s environmental sustainability efforts. He employs stable isotopic signatures, field measurements, numerical modeling, and geostatistical analysis to assess the water-bearing capacity of the loess hilly region. 🔬 CONTRIBUTIONS AND RESEARCH FOCUS Xuexuan Xu’s research is focused on investigating the typical measures of soil and water conservation and the benefits of watershed management. His work in the Loess Plateau examines the interactions between soil moisture and hydrological consequences related to different land uses. He has explored the enforcement of fenced enclosures and their impact on grassland recovery and soil infiltration. His significant study in Yunwu Mountain revealed that enclosure durations of 14, 30, and 39 years resulted in increased soil infiltration rates by 20.66%, 152.03%, and 61.19%, respectively, demonstrating that fencing enhances vegetation recovery and soil moisture retention. 🏆IMPACT AND INFLUENCE With over 130 published research papers and four books as a co-editor, Xuexuan Xu’s scholarly work has had a profound influence on the field of soil science. His research has contributed to the development of more effective soil and water conservation strategies, especially in the Loess Plateau, a region that is central to China’s ecological preservation efforts. His innovative methods for assessing hydrological systems and watershed management have guided policy decisions and practical approaches in land management. 🏅ACADEMIC CITES Xuexuan Xu’s work is widely recognized in academic circles, with numerous citations in top-tier journals such as Soil Science Society of America Journal, Journal of Hydrology, and Catena. His studies have provided a scientific basis for understanding the benefits of soil conservation measures, influencing a wide range of disciplines, from environmental science to agricultural engineering. 🔮LEGACY AND FUTURE CONTRIBUTIONS As a dedicated researcher and mentor, Xuexuan Xu’s contributions have not only advanced soil science but also left a lasting legacy in the field of hydrology and land conservation. His continued focus on improving soil infiltration and water-bearing capacity in arid and semi-arid regions will be critical in addressing future challenges related to climate change, land degradation, and food security. His legacy as an academic leader is solidified by his role as a doctoral supervisor, where he fosters the next generation of scientists committed to sustainable land management. 📰PUBLICATIONS Land-use-driven changes in functional profiles of microbial lipid metabolism affect soil water repellency Authors: Chai, X., Qu, Y., Wu, Q., Du, F., Xu, X. Journal: Catena, 2024, Vol. 243, Article 108215. Cover plant functional types alter the abundance and composition of hydrophobic compounds: The relationship with soil water repellency on the Chinese Loess Plateau Authors: Chai, X., Wang, W., Ren, X., Xu, X., Du, F. Journal: Plant and Soil, 2024, Vol. 497(1-2), Pages 687–704. Restoration of Grassland Improves Soil Infiltration Capacity in Water-Wind Erosion Crisscross Region of China’s Loess Plateau Authors: Ren, X., Chai, X., Qu, Y., Xu, X., Du, F. Journal: Land, 2023, Vol. 12(8), Article 1485. Extreme drought alters plant community structure by changing dominant species growth in desert grassland Authors: Wang, J., Zhang, L., Xu, X., Liu, B., Gao, J. Journal: Journal of Vegetation Science, 2023, Vol. 34(3), Article e13189. Enhancing wheat production and quality in alkaline soil: A study on the effectiveness of foliar and soil applied zinc Authors: Khan, F.U., Khan, A.A., Qu, Y., Hassan, S., Xu, X. Journal: PeerJ, 2023, Vol. 11, Article e16179.
Xuexuan Xu’s research is focused on investigating the typical measures of soil and water conservation and the benefits of watershed management. His work in the Loess Plateau examines the interactions between soil moisture and hydrological consequences related to different land uses. He has explored the enforcement of fenced enclosures and their impact on grassland recovery and soil infiltration. His significant study in Yunwu Mountain revealed that enclosure durations of 14, 30, and 39 years resulted in increased soil infiltration rates by 20.66%, 152.03%, and 61.19%, respectively, demonstrating that fencing enhances vegetation recovery and soil moisture retention.
Yan Wang | Organic Chemistry | Best Researcher Award Posted on 25/09/202425/09/2024 by sciencefatherLeave a Comment on Yan Wang | Organic Chemistry | Best Researcher Award Dr .Yan Wang | Organic Chemistry| Best Researcher Award Innovative Research: Wang Yan’s research focuses on a visible-light-driven α-hydroxylation of β-dicarbonyl compounds mediated by NaI/NPh3 or NaI/PPh3 in water. This project highlights her ability to design efficient photocatalytic processes in sustainable, aqueous conditions, contributing to green chemistry advancements. Dr . Yan Wang, Ningxia University, China Profile Scopus OrcID 🎓Early Academic Pursuits Wang Yan is currently a doctoral candidate at Ningxia University, focusing on Organic Chemistry under the supervision of Prof. Jinhui Yang. Her research passion has centered around innovative photocatalytic systems, particularly exploring EDA (Electron Donor-Acceptor) complexes. During her PhD journey, Wang Yan has contributed to two important publications on photocatalytic EDA systems, with another compelling paper soon to be released. 💼Professional Endeavors Wang Yan’s professional achievements are highlighted by her work in visible-light-driven α-hydroxylation of β-dicarbonyl compounds. This research, mediated by NaI/NPh3 or NaI/PPh3 in water, has shown significant progress in the realm of aqueous phase photocatalysis. She has also collaborated in institution-land cooperative projects between the Chinese Academy of Engineering and Ningxia. 🔬 CONTRIBUTIONS AND RESEARCH FOCUS Wang Yan’s key contribution to organic chemistry lies in the development of an efficient EDA complex system using β-dicarbonyl substrates. Her innovative approach eliminates the need for pre-installed substrates, employing NaI and the cost-effective NPh3. This system not only enhances the EDA photocatalytic process in the aqueous phase but also exhibits excellent oxygen tolerance. Furthermore, the system facilitates the hydrogen evolution reaction and hydration–hydroxylation of β-dicarbonyl derivatives using water as both solvent and oxygen source. 🏆IMPACT AND INFLUENCE Wang Yan’s research has impacted the field of photocatalysis, particularly in promoting eco-friendly and cost-effective approaches in organic chemistry. Her novel work in using non-homogeneous systems and water-based solvents for chemical reactions reflects her commitment to advancing green chemistry initiatives. 🏅ACADEMIC CITES Her work has been recognized in the Chemical Abstracts Service (CAS) citation index, and her articles have been featured in reputable journals such as Organic Chemistry Frontiers. These citations reflect the scientific community’s recognition of her contributions to photocatalysis. 🔮LEGACY AND FUTURE CONTRIBUTIONS Wang Yan aims to continue advancing the field of EDA complexes and photocatalysis. Her future work will likely focus on expanding the practical applications of these systems in industrial and environmental contexts. Through her innovative approaches and dedication, she is poised to make lasting contributions to the field of organic chemistry. 📰PUBLICATIONS Green and efficient synthesis of dibenzyl cyanamides and ureas with cyanamide as a block Authors: Wang, Z.; He, Y.; Wang, F.; Wu, J.; Yang, J. Journal: RSC Advances, 2024, 14(33), pp. 23693–23698 Visible-light-driven α-hydroxylation of β-dicarbonyl compounds mediated by NaI/NPh3 or NaI/PPh3 in water Authors: Wang, Y.; Wang, Z.; Luo, H.; Li, D.; Yang, J. Journal: Organic Chemistry Frontiers, 2024 KOH-promoted cascade C-Cl bond activation and amidation of trichloromethyl aromatic compounds with formamides in water Authors: Wang, C.; Wang, Y.; Wu, J.; Liang, J.; Yang, J. Journal: Organic and Biomolecular Chemistry, 2023, 21(25), pp. 5185–5188 Copper-catalyzed direct synthesis of 3-methylene-2-arylisoindolin-1-ones with calcium carbide as a surrogate of gaseous acetylene Authors: Wu, J.; Ma, Y.; Wang, Y.; Li, D.; Yang, J. Journal: Green Chemistry, 2023, 25(9), pp. 3425–3430 Research Progress on the Synthesis of Nitrogen-Containing Compounds with Cyanamide as a Building Block | 以氨基氰为原料合成含氮化合物的研究进展 Authors: Wu, J.; Wang, Z.; Wang, C.; Li, D.; Yang, J. Journal: Chinese Journal of Organic Chemistry, 2023, 43(2), pp. 436–454
Wang Yan’s key contribution to organic chemistry lies in the development of an efficient EDA complex system using β-dicarbonyl substrates. Her innovative approach eliminates the need for pre-installed substrates, employing NaI and the cost-effective NPh3. This system not only enhances the EDA photocatalytic process in the aqueous phase but also exhibits excellent oxygen tolerance. Furthermore, the system facilitates the hydrogen evolution reaction and hydration–hydroxylation of β-dicarbonyl derivatives using water as both solvent and oxygen source.
Zhi-Qiang Tao | Mechanical Engineering| Best Researcher Award Posted on 24/09/202424/09/2024 by sciencefatherLeave a Comment on Zhi-Qiang Tao | Mechanical Engineering| Best Researcher Award Dr .Zhi-Qiang Tao | Mechanical Engineering| Best Researcher Award Research Contributions: With over 20 peer-reviewed technical papers published in international journals and conference proceedings, Dr. Tao has significantly contributed to the understanding and advancement of his specialized research areas. His publications reflect the breadth of his knowledge and dedication to his field. Dr . Zhi-Qiang Tao, Zhejiang Ocean University, China Profile Scopus 🎓Early Academic Pursuits Zhi-Qiang Tao received his Ph.D. in Mechanical Engineering from Beijing University of Technology in 2018. During his doctoral studies, Tao focused on mechanical dynamics and fatigue-related phenomena, laying the foundation for his future research in fatigue mechanisms, particularly in multiaxial and very high cycle fatigue. 💼Professional Endeavors After completing his Ph.D., Zhi-Qiang Tao became a Research Assistant at the Robotics College of Beijing Union University. Here, he collaborated with colleagues on cutting-edge research in robotics and mechanical engineering, contributing significantly to the development of fatigue analysis tools and technologies. His role also involved mentoring students and assisting in various research projects. 🔬 CONTRIBUTIONS AND RESEARCH FOCUS Zhi-Qiang Tao has focused extensively on: Mechanical Dynamics Multiaxial Fatigue Very High Cycle Fatigue (VHCF) His research investigates how materials respond under extreme conditions over extended periods, helping industries understand material durability and mechanical resilience. His work has applications across sectors such as automotive, aerospace, and robotics, providing critical insights into the longevity and safety of components. 🏆IMPACT AND INFLUENCE Tao’s research on very high cycle fatigue is of particular importance, as it addresses the need for understanding how materials behave under more than one million cycles of loading. His work helps improve the design of mechanical systems to avoid failures, thus enhancing safety and reliability in critical infrastructures. With over 20 peer-reviewed technical papers published in international journals and conference proceedings, his work has been widely cited and recognized. His contributions serve as a foundation for ongoing studies in fatigue failure mechanisms. 🏅ACADEMIC CITES Zhi-Qiang Tao has received numerous citations in the fields of mechanical dynamics and fatigue studies, underscoring his impact on the academic community. His contributions have been referenced in studies related to material resilience, fatigue life prediction, and failure analysis, emphasizing his role in advancing the understanding of fatigue phenomena in engineering materials. 🔮LEGACY AND FUTURE CONTRIBUTIONS Zhi-Qiang Tao’s legacy in the field of mechanical engineering is one of persistence and innovation. His future contributions are expected to continue influencing how industries approach material fatigue and structural design. As fatigue becomes an increasingly crucial aspect of robotic systems, Tao’s work will play a pivotal role in ensuring mechanical components can withstand extreme conditions and prolonged use. Through his research, he has not only contributed to academia but also provided valuable insights for industry applications that focus on extending the life cycle of mechanical components, enhancing both safety and performance. 📰PUBLICATIONS A new probabilistic control volume scheme to interpret specimen size effect on fatigue life of additively manufactured titanium alloys Authors: Tao, Z.-Q., Wang, Z., Pan, X., Qian, G., Hong, Y. Journal: International Journal of Fatigue, 2024, 183, 108262 Surface roughness prediction and roughness reliability evaluation of CNC milling based on surface topography simulation Authors: Zhang, Z., Lv, X., Qi, B., Zhang, M., Tao, Z. Journal: Eksploatacja i Niezawodnosc, 2024, 26(2), 183558 Life prediction method based on damage mechanism for titanium alloy TC4 under multiaxial thermo-mechanical fatigue loading Authors: Li, D.-H., Shang, D.-G., Mao, Z.-Y., Cong, L.-H., Tao, Z.-Q. Journal: Engineering Fracture Mechanics, 2023, 282, 109206 Multiaxial fatigue life estimation based on weight-averaged maximum damage plane under variable amplitude loading Authors: Tao, Z.-Q., Qian, G., Li, X., Zhang, Z.-L., Li, D.-H. Journal: Journal of Materials Research and Technology, 2023, 23, pp. 2557–2575 Multiaxial fatigue life prediction by equivalent energy-based critical plane damage parameter under variable amplitude loading Authors: Tao, Z.-Q., Qian, G., Sun, J., Zhang, Z.-L., Hong, Y. Journal: Fatigue and Fracture of Engineering Materials and Structures, 2022, 45(12), pp. 3640–3657
Zhi-Qiang Tao has focused extensively on: Mechanical Dynamics Multiaxial Fatigue Very High Cycle Fatigue (VHCF) His research investigates how materials respond under extreme conditions over extended periods, helping industries understand material durability and mechanical resilience. His work has applications across sectors such as automotive, aerospace, and robotics, providing critical insights into the longevity and safety of components.
Kun Yang | Sensors | Best Researcher Award Posted on 21/09/202421/09/2024 by sciencefatherLeave a Comment on Kun Yang | Sensors | Best Researcher Award Prof Dr . Kun Yang | Sensors | Best Researcher Award Extensive Project Leadership: Yang has successfully led numerous high-impact projects, both in China and abroad. His leadership roles in national and provincial research projects, such as “Major Science and Technology Projects in Zhoushan” and the “National Overseas Talent Introduction Program,” further highlight his research impact and funding acquisition abilities. Prof Dr .Kun Yang, Zhejiang Ocean University, China Profile Scopus OrcID 🎓Early Academic Pursuits Yang Kun’s academic journey began with a Bachelor of Electronic Communication Systems from Wuhan University of Science and Technology (2000-2004), where he laid the foundation for his future in wireless communication. He further pursued a Double Master’s Degree in Information and Communication Systems at Wuhan University of Technology (2004-2005) and Agder University, Norway (2005-2007). He completed his PhD in Wireless Communication Channel Measurement and Modeling at the Norwegian University of Science and Technology (2008-2014), focusing on cutting-edge research that would later define his professional and academic contributions. 💼Professional Endeavors Yang Kun’s career is distinguished by leadership roles in research and academia. He serves as the Deputy Dean of the Information Engineering College at Zhejiang Ocean University and is the Director of the Marine Communication Laboratory. Prior to this, he held various key positions such as a Professor and Director of the Zhejiang Provincial Key Laboratory of Marine Big Data Mining and Application. Notably, he founded Super Radio AS in Oslo, Norway, a company that offers advanced wireless channel measurement and ocean broadband communication solutions. His professional endeavors also include postdoctoral research at IFSTTAR in France and participation in European Union lighthouse projects like Roll2Rail. 🔬 CONTRIBUTIONS AND RESEARCH FOCUS Yang Kun has led several groundbreaking projects, particularly in Maritime 5G and Maritime Wireless Communication. His research has focused on high-resolution wireless channel parameter estimation, 5G MIMO channel models, and maritime broadband communication technologies. As the leader of the world’s first Maritime 5G project, he has significantly advanced the field by connecting the maritime world to the digital domain. Additionally, his research into cooperative human activity recognition and localization for healthcare (Wiwell and CareWell projects) highlights his interdisciplinary contributions.Some of his notable projects include: 5G MIMO Communications in Maritime Environments (MAMIME) Maritime 5G: Connect the Sea to the Digital World Cooperative Human Activity Recognition and Localization for Healthcare Roll2Rail 🏆IMPACT AND INFLUENCE Yang Kun’s work has had far-reaching implications for both academic research and industry applications. His leadership in major projects such as Maritime 5G and Marine Communication Laboratory Construction has positioned him as a pioneer in maritime broadband communication. With over 5000 kRMB in funding for key projects, his research directly contributes to maritime safety, digital transformation, and oceanic resource management. His influence extends internationally through collaborations with global research institutions, including Fugro Oceanor AS in Norway, and his participation in EU H2020 projects. 🏅ACADEMIC CITES With a robust publication portfolio and significant project leadership, Yang Kun’s research is frequently cited across domains including maritime communication, 5G technology, and wireless communication systems. His academic works continue to impact global research in communication technologies, and he regularly collaborates with experts across continents, bridging academic and industrial innovation. 🔮LEGACY AND FUTURE CONTRIBUTIONS Yang Kun’s legacy lies in his visionary leadership and trailblazing research in Maritime 5G and marine data communication. As he continues to lead projects that integrate advanced communication technologies with the maritime environment, his future contributions will likely focus on the digital transformation of ocean industries and the development of sustainable communication infrastructures for global maritime operations. His work not only strengthens maritime communication but also supports emerging fields like smart healthcare, positioning him as a leading force in both technological advancement and applied innovation. 📰PUBLICATIONS Improving the Accuracy of Direction of Arrival Estimation with Multiple Signal Inputs Using Deep Learning Authors: Lu, Y.; Guan, H.; Yang, K.; Wen, C.; Li, X. Journal: Sensors, 2024, 24(10), 2971 Trajectory Optimization and Retrieving Monitory System for UAV-assisted Offshore Maritime Communications Authors: Zhang, Z.; Peng, T.; Yang, K.; Li, X. Conference: 2023 3rd International Conference on Electronic Information Engineering and Computer Science (EIECS 2023), pp. 1014–1019 Frequency Division Sparse Neural Network for CSI Feedback in Massive MIMO Systems Authors: Wang, C.; Zhao, X.; He, L.; Peng, T.; Yang, K. Conference: 2023 International Conference on Intelligent Communication and Networking (ICN 2023), pp. 105–110 Ship Early Warning System Based on Nine Axis Sensors Authors: Ding, J.; Yang, K.; Liu, Y.; Lin, J. Conference: 2023 10th International Forum on Electrical Engineering and Automation (IFEEA 2023), pp. 398–402 LoRa Path-Loss Model and Verification for Maritime Environment Authors: Zeng, H.; Yang, K.; Wu, J.; Wen, C.; Li, X. Conference: Proceedings of 2023 IEEE International Conference on Unmanned Systems (ICUS 2023), pp. 1587–159
Yang Kun has led several groundbreaking projects, particularly in Maritime 5G and Maritime Wireless Communication. His research has focused on high-resolution wireless channel parameter estimation, 5G MIMO channel models, and maritime broadband communication technologies. As the leader of the world’s first Maritime 5G project, he has significantly advanced the field by connecting the maritime world to the digital domain. Additionally, his research into cooperative human activity recognition and localization for healthcare (Wiwell and CareWell projects) highlights his interdisciplinary contributions.Some of his notable projects include: 5G MIMO Communications in Maritime Environments (MAMIME) Maritime 5G: Connect the Sea to the Digital World Cooperative Human Activity Recognition and Localization for Healthcare Roll2Rail
Yu-Zhe Liu | Representation Theory | Best Researcher Award Posted on 21/09/202421/09/2024 by sciencefatherLeave a Comment on Yu-Zhe Liu | Representation Theory | Best Researcher Award Mr . Yu-Zhe Liu | Representation Theory | Best Researcher Award Institutional Impact: Being affiliated with Guizhou University, a major institution in China, reflects Dr. Liu’s role in influencing both regional and national mathematics education. His work contributes to the academic reputation of the university and fosters collaboration within China’s academic community Mr .Yu-Zhe Liu, School of Mathematics and Statistics, Guizhou University, China Profile OrcID 🎓Early Academic Pursuits Yu-Zhe Liu began his academic journey with a Bachelor’s degree in Forest Resource Conservation from Guizhou University in 2014. His early interest in environmental conservation provided him with a unique perspective. However, he later shifted his focus toward Basic Mathematics, where he earned a Master’s degree in 2019 from Guizhou University. Building on his growing passion for mathematics, Liu pursued his PhD in Basic Mathematics from Nanjing University, which he completed in June 2022. His academic shift from forestry to mathematics highlights a broad intellectual foundation and versatility. 💼Professional Endeavors Since December 2022, Liu has been a Lecturer at the School of Mathematics and Statistics at Guizhou University. His role involves teaching, mentoring students, and conducting research in his specialized field. As a young academic professional, Liu has made substantial progress in developing his expertise in Basic Mathematics, aiming to contribute to both theoretical developments and practical applications in the subject. 🔬 CONTRIBUTIONS AND RESEARCH FOCUS Yu-Zhe Liu’s research primarily centers around Basic Mathematics, with particular emphasis on developing advanced mathematical models and theories. His transition from environmental studies to mathematics adds a distinctive interdisciplinary edge to his work. Through his research, Liu seeks to explore complex mathematical structures and their applications to real-world problems, aiming to provide innovative solutions that have a broad societal impact. 🏆IMPACT AND INFLUENCE As a Lecturer and Researcher, Liu’s influence extends to his students and academic peers. His interdisciplinary background allows him to foster a rich learning environment where students can benefit from his diverse expertise. His contributions to mathematics are gradually gaining recognition, and his role at Guizhou University positions him as a key figure in the mathematical research community in the region. 🏅ACADEMIC CITES Liu’s academic work is starting to gain traction in scholarly circles. His research is cited in various mathematical publications, contributing to the collective knowledge in his field. As his academic career progresses, the number of citations of his work is expected to increase, further solidifying his impact on the mathematical research community. 🔮LEGACY AND FUTURE CONTRIBUTIONS Yu-Zhe Liu’s academic legacy is still in its early stages, but his interdisciplinary approach and commitment to Basic Mathematics set a strong foundation for future contributions. As he continues to teach, mentor, and publish, his work will likely leave a lasting impact on both his institution and the broader mathematical community. His future research endeavors are expected to contribute significantly to mathematical theory and its applications, potentially influencing fields beyond mathematics itself. 📰PUBLICATIONS Normed Modules and the Categorization of Lebesgue Integration Authors: Yu-Zhe Liu, Shengda Liu, Zhaoyong Huang, Panyue Zhou Journal: Preprint (2024) Normed Modules and The Stieltjes Integrations of Functions Defined on Finite-Dimensional Algebras Authors: Hanpeng Gao, Shengda Liu, Yu-Zhe Liu, Yucheng Wang Journal: Preprint (2024) Recollements and Gorenstein Projective Modules for Gentle Algebras Authors: Yu-Zhe Liu, Dajun Liu, Xin Ma Journal: Preprint (2024) There Are No Strictly Shod Algebras in Hereditary Gentle Algebras Authors: Houjun Zhang, Yu-Zhe Liu Journal: Communications in Algebra (2024-09-18) On String Algebras and the Cohen–Macaulay Auslander Algebras Authors: Yu-Zhe Liu, Chao Zhang Journal: Applied Categorical Structures (2024-08)
Yu-Zhe Liu’s research primarily centers around Basic Mathematics, with particular emphasis on developing advanced mathematical models and theories. His transition from environmental studies to mathematics adds a distinctive interdisciplinary edge to his work. Through his research, Liu seeks to explore complex mathematical structures and their applications to real-world problems, aiming to provide innovative solutions that have a broad societal impact.
Guo Li | RNA Editing | Best Researcher Award Posted on 21/09/202423/09/2024 by sciencefatherLeave a Comment on Guo Li | RNA Editing | Best Researcher Award Assoc Prof Dr . Guo Li | RNA Editing | Best Researcher Award Innovative Research Techniques: Innovative Research Techniques: Guo’s expertise in high-throughput screening techniques allows for the rapid identification of functional genes, a critical process in understanding genetic diseases and developing targeted therapies. His proficiency in both coding and non-coding gene functions is crucial for advancing our understanding of gene regulation. Assoc Prof Dr . Shen Hu ,Xianghu Laboratory, China Profile Scopus OrcID 🎓Early Academic Pursuits Dr. Guo Li began his academic journey with a strong focus on molecular biology and genetics. His early research laid the groundwork for advanced studies in genome editing, leading to a profound understanding of genetic mechanisms and innovations. 💼Professional Endeavors Over the years, Dr. Li has held various prestigious positions in academic and research institutions. His work primarily revolves around genome and RNA editing, employing cutting-edge technologies to address complex biological questions. His leadership in several projects has contributed significantly to advancements in genetic research. 🔬 CONTRIBUTIONS AND RESEARCH FOCUS Dr. Li’s research is characterized by three main pillars: GENOME AND RNA EDITING: He focuses on innovative methods for precise editing, enhancing our understanding of gene function and regulation. HIGH-THROUGHPUT SCREENING OF FUNCTIONAL GENES AND NON-CODING GENES: This work aims to identify and analyze gene functions at a large scale, providing insights into the roles of non-coding regions in gene expression and regulation. GENE THERAPY BASED ON CRISPR-CAS TECHNOLOGY: Dr. Li is at the forefront of utilizing CRISPR-Cas systems for therapeutic applications, developing strategies to correct genetic disorders and improve health outcomes. 🏆IMPACT AND INFLUENCE Dr. Li’s research has significantly impacted the field of genetics, contributing to the development of novel techniques in genome editing. His work has been influential in both academic and clinical settings, paving the way for future innovations in gene therapy. 🏅ACADEMIC CITES His publications have garnered a substantial number of citations, reflecting the importance and relevance of his research in the scientific community. Dr. Li’s contributions continue to inspire researchers and practitioners alike. 🔮LEGACY AND FUTURE CONTRIBUTIONS Dr. Guo Li is committed to advancing the field of genetic research and therapy. His ongoing projects aim to further refine gene editing techniques and explore new applications for CRISPR-Cas technology, ensuring a lasting legacy in molecular genetics. 📰PUBLICATIONS Stenotrophomonas maltophilia Isolated from the Gut Symbiotic Community of the Plastic-Eating Tenebrio molitor Authors: Ye, S., Lu, Y., Li, G., Wu, Y., Yao, Y. Journal: Applied Biochemistry and Biotechnology, 2024 Cellulose nanofibril matrix drives the dynamic formation of spheroids Authors: Lu, Y., Li, G., Li, Y., Yao, Y. Journal: Journal of Zhejiang University: Science B, 2023, 24(10), pp. 922–934 A novel base editor SpRY-ABE8eF148A mediates efficient A-to-G base editing with a reduced off-target effect Authors: Li, G., Cheng, Y., Li, Y., Huang, X., Yao, Y. Journal: Molecular Therapy Nucleic Acids, 2023, 31, pp. 78–87 Transcription-wide impact by RESCUE-induced off-Target single-nucleotide variants in mammalian cells Authors: Li, G., Zhu, X., Wang, Y., Yao, Y., Hu, X. Journal: Journal of Molecular Cell Biology, 2023, 15(2), mjad011 Preventing autosomal-dominant hearing loss in Bth mice with CRISPR/CasRx-based RNA editing Authors: Zheng, Z., Li, G., Cui, C., Hu, X., Shu, Y. Journal: Signal Transduction and Targeted Therapy, 2022, 7(1), 79
Dr. Li’s research is characterized by three main pillars: GENOME AND RNA EDITING: He focuses on innovative methods for precise editing, enhancing our understanding of gene function and regulation. HIGH-THROUGHPUT SCREENING OF FUNCTIONAL GENES AND NON-CODING GENES: This work aims to identify and analyze gene functions at a large scale, providing insights into the roles of non-coding regions in gene expression and regulation. GENE THERAPY BASED ON CRISPR-CAS TECHNOLOGY: Dr. Li is at the forefront of utilizing CRISPR-Cas systems for therapeutic applications, developing strategies to correct genetic disorders and improve health outcomes.
Shen Hu | Drug Delivery | Best Researcher Award Posted on 21/09/202423/09/2024 by sciencefatherLeave a Comment on Shen Hu | Drug Delivery | Best Researcher Award Dr . Shen Hu | Drug Delivery | Best Researcher Award Research Leadership: Highlighting more information about his leadership in major research projects and specific contributions to ongoing medical research would solidify his candidacy. His role in groundbreaking clinical research is a strong asset, but elaborating on the results and their impact on the medical community would further bolster his nomination. Dr. Shen Hu ,The Second Affiliated Hospital of Zhejiang University School of Medicine, China Profile Scopus 🎓Early Academic Pursuits Shen Hu began his academic journey at the Anhui University of Chinese Medicine (2007-2012), where he earned a Bachelor’s Degree in Integrated Traditional Chinese and Western Medicine. This laid a solid foundation for his medical practice by integrating two vital systems of care. He furthered his academic training at Anhui Medical University (2012-2015), achieving a Master’s Degree in Clinical Medicine. This phase of his education prepared him to specialize in clinical methodologies, diagnosis, and treatment, particularly in the field of obstetrics.In 2023, Shen Hu took a significant step forward by joining Harvard T.H. Chan School of Public Health to expand his expertise on a global scale, further enhancing his skill set and contributing to the medical community with advanced knowledge in public health. 💼Professional Endeavors From 2015 onwards, Shen Hu served as a Resident Physician at the Second Affiliated Hospital of Zhejiang University School of Medicine. By 2018, he became an Attending Physician in Obstetrics, focusing on prenatal care, the diagnosis and treatment of pregnancy-related diseases, complications, and critical illness. His key responsibilities include: Prenatal Care and Early Disease Detection Management of Common Pregnancy Diseases Diagnosis and Treatment of Pregnancy Complications Handling Dystocia and Obstetric Emergencies 🔬 CONTRIBUTIONS AND RESEARCH FOCUS Shen Hu’s research primarily revolves around the application of Nanosecond Pulse Ablation in Cervical Cancer Treatment. He has been involved in several innovative medical devices, such as: Utility Model Patent for a Volumetric Instrument for Measuring Ultrasound Focus (HIFU). Invention Patent for a Nanosecond Pulse Ablation Therapy Device specifically for the treatment of cervical cancer. His research demonstrates his commitment to advancing technology in gynecological treatments and minimally invasive procedures, particularly in cancer care. 🏅ACADEMIC CITES Shen Hu actively contributes to the academic community as a Reviewer for notable medical journals such as Experimental Physiology, ensuring the dissemination of high-quality research in his field. His work is widely cited for his contributions to the treatment of cervical cancer and the development of innovative medical technologies. 🏆IMPACT AND INFLUENCE As a member of prominent medical associations, such as the Chinese Medical Association and the Obstetrics and Gynecology Group of China Minimally Invasive Tumor Industry Alliance, Shen Hu has influenced the development and adoption of cutting-edge medical technologies in China. His expertise extends beyond medical practice into pulsed electric field technology, where he serves as a technical expert and the Head of Obstetrics and Gynecology at the Zhejiang Provincial Key Laboratory of Medical Transformation. 🧬 REPRESENTATIVE RESULTS First Prize at the Obstetrics and Gynecology Innovation and Transformation Alliance Competition in Zhejiang Province for his groundbreaking work on Nanosecond Pulse Ablation in Cervical Cancer (2020.11.20). Numerous patents related to high-frequency ultrasound technologies and their applications in clinical settings. These achievements reflect his dedication to transforming obstetric and gynecological care through innovation. 🔮LEGACY AND FUTURE CONTRIBUTIONS Shen Hu’s legacy in the medical community is characterized by his dedication to integrating technology with clinical practice, especially in the treatment of complex obstetric and gynecological cases. His future contributions will likely include further innovations in AI applications in medicine, the expansion of nanosecond pulse ablation techniques, and leadership in minimally invasive procedures. Shen Hu continues to shape the future of obstetrics and gynecology through clinical excellence, research innovations, and his active role in medical education and mentoring the next generation of healthcare professionals. 📰PUBLICATIONS Challenges and Prospects of Visual Contactless Physiological Monitoring in Clinical Study Authors: Huang, B., Hu, S., Liu, Z., Wang, L., Wang, W. Journal: npj Digital Medicine, 2023, 6(1), 231 A Photomodulable Bacteriophage-Spike Nanozyme Enables Dually Enhanced Biofilm Penetration and Bacterial Capture for Photothermal-Boosted Catalytic Therapy of MRSA Infections Authors: Wu, H., Wei, M., Hu, S., Li, F., Ling, D. Journal: Advanced Science, 2023, 10(24), 2301694 A Self-Amplified Ferroptosis Nanoagent that Inhibits the Tumor Upstream Glutathione Synthesis to Reverse Cancer Chemoresistance Authors: Yang, C., Chen, Z., Wei, M., Ding, Q., Ling, D. Journal: Journal of Controlled Release, 2023, 357, pp. 20–30 Efficacy of Electroacupuncture Combined with Intravenous Patient-Controlled Analgesia after Cesarean Delivery: A Randomized Clinical Trial Authors: Jin, Y., Yu, X., Hu, S., Xiong, B., Wang, L. Journal: American Journal of Obstetrics and Gynecology MFM, 2023, 5(2), 100826 Ferric-Loaded Lipid Nanoparticles Inducing Ferroptosis-Like Cell Death for Antibacterial Wound Healing Authors: Zhou, Y., Cai, C.-Y., Wang, C., Hu, S., Cheng, P. Journal: Drug Delivery, 2023, 30(1), pp. 1–8
Shen Hu’s research primarily revolves around the application of Nanosecond Pulse Ablation in Cervical Cancer Treatment. He has been involved in several innovative medical devices, such as: Utility Model Patent for a Volumetric Instrument for Measuring Ultrasound Focus (HIFU). Invention Patent for a Nanosecond Pulse Ablation Therapy Device specifically for the treatment of cervical cancer. His research demonstrates his commitment to advancing technology in gynecological treatments and minimally invasive procedures, particularly in cancer care.
Xuan Zhang | Pharmacology | Best Researcher Award Posted on 21/09/202423/09/2024 by sciencefatherLeave a Comment on Xuan Zhang | Pharmacology | Best Researcher Award Prof Dr . Xuan Zhang | Pharmacology | Best Researcher Award Patent Contributions: Dr. Zhang has contributed to various patent filings, showcasing his practical contributions to drug development and medical devices. His patents, especially in areas like anti-pulmonary fibrosis drugs and innovative drug transport simulation devices, highlight his forward-thinking approach and leadership in pharmaceutical innovation Prof Dr. Xuan Zhang , Kunming Medical University , China Profile Scopus OrcID 🎓Early Academic Pursuits Xuan Zhang’s academic journey began with a Bachelor of Medicine in Clinical Medicine from Changzhi Medical University in July 2003. he further honed his expertise by obtaining a Master of Medicine in Pharmacology from Kunming Medical University in July 2006. His pursuit of knowledge continued with a Ph.D. in Cell Biology from the University of Chinese Academy of Sciences in January 2013. These academic milestones provided her with a solid foundation in pharmacology and cell biology, setting the stage for his future contributions to anti-inflammatory and immunopharmacological research. 💼Professional Endeavors Dr. Xuan Zhang has had an impressive professional trajectory. he began his research career as a Research Assistant at the Yunnan Key Laboratory of Pharmacology for Natural Products, Kunming Medical University from August 2009 to July 2013. His commitment and excellence led to her appointment as an Associate Professor at the same institution, where he worked from August 2013 to September 2021. During this time, he expanded her academic horizons as a Visiting Scholar at the University of Nebraska Medical Center from January to July 2018. In October 2021, she achieved the rank of Professor at the School of Pharmaceutical Sciences & Yunnan Key Laboratory of Pharmacology for Natural Products. 🔬 CONTRIBUTIONS AND RESEARCH FOCUS Dr. Xuan Zhang’s research primarily focuses on anti-inflammatory and immunopharmacology and respiratory pharmacology. His work centers on understanding the pathogenesis and drug development for organ inflammation and fibrosis, with a special emphasis on lung-related conditions. Throughout her career, he has contributed significantly to uncovering molecular mechanisms, particularly in the context of pulmonary fibrosis and acute lung injury. His research projects, funded by prestigious organizations such as the National Natural Science Foundation of China and the Yunnan Provincial Department of Science and Technology, showcase her expertise and her leadership in exploring pharmacological interventions. 🏅ACADEMIC CITES Dr. Zhang’s academic contributions are extensively cited in the fields of pharmacology and respiratory medicine. His research has garnered attention from scholars worldwide, establishing his as a leading figure in the study of organ fibrosis. His work is continuously referenced in top journals, furthering the understanding of cell signaling pathways and inflammation management. 🏆IMPACT AND INFLUENCE Dr. Zhang has completed a number of important research projects that have advanced the understanding of acute lung injury and pulmonary fibrosis, notably involving compounds like Palmatin and Gentiopicroside. These projects have yielded practical insights into therapeutic approaches, especially concerning key signaling pathways such as MAPK and NF-κB in lung injury. Moreover, his collaborative work with industry has had tangible impacts on pharmaceutical development, particularly in his consultancy projects evaluating vaccine effectiveness and the safety of novel compounds. 🧬PROFESSIONAL MEMBERSHIPS Dr. Zhang is an active member of several prominent organizations, including the Chinese Pharmacological Society and the Yunnan Pharmacological Society. His roles as Deputy Secretary-General and Standing Member of these societies underline her leadership and dedication to advancing pharmacology both in China and internationally. 🔮LEGACY AND FUTURE CONTRIBUTIONS Dr. Zhang’s patents, particularly in the domain of anti-pulmonary fibrosis drugs and innovative drug transport simulation devices, signify her commitment to translating research into practical applications. His continued involvement in groundbreaking research on iridoid glycosides and Geniposide is expected to yield new therapies for pulmonary fibrosis. His current projects, funded by the National Natural Science Foundation and Kunming Medical University, promise to cement his legacy as a pioneer in the field. he is also recognized as a young and middle-aged academic and technical leader in Yunnan Province, ensuring that his influence will extend to future generations of researchers. 📰PUBLICATIONS Geniposide Ameliorates Bleomycin-Induced Pulmonary Fibrosis in Mice by Inhibiting TGF-β/Smad and p38MAPK Signaling Pathways Authors: Yin, J.-B., Wang, Y.-X., Fan, S.-S., Zou, C., Zhang, X. Journal: PLoS ONE, 2024, 19(9), e0309833. Mechanism of Xiyanping Injection in Treatment of Acute Lung Injury Using Network Pharmacology and Molecular Docking Analysis Authors: Nie, S.-Y., Fan, S.-S., Zhu, Y.-S., Wang, Y.-X., Zhang, X. Journal: Chinese Pharmacological Bulletin, 2024, 40(6), pp. 1165–1171. Adult Pancreatoblastoma with Atypical Histological Morphology Combined with Familial Adenomatous Polyposis: A Rare Case Report Authors: Wang, Y.-X., Fan, S.-S., Peng, X.-R., Zhu, Y.-S., Zhang, X. Journal: Frontiers in Oncology, 2024, 14, 1346964. Case Report: Clinicopathological Analysis of Minute Pulmonary Meningothelial-Like Nodules: Report of 7 Cases Authors: Wang, Y.-X., Lei, Z., Yang, M., Zhang, X., Pan, G.-Q. Journal: Frontiers in Oncology, 2022, 12, 942517. New 4,5-seco-20(10→5)-abeo-Abietane Diterpenoids with Anti-Inflammatory Activity from Isodon lophanthoides var. graciliflorus (Benth.) H.Hara Authors: Chen, W.-F., Wong, L.-L., Zhang, X., Tang, L.-P., Li, X. Journal: Chemistry and Biodiversity, 2019, 16(6), e1900206.
Dr. Xuan Zhang’s research primarily focuses on anti-inflammatory and immunopharmacology and respiratory pharmacology. His work centers on understanding the pathogenesis and drug development for organ inflammation and fibrosis, with a special emphasis on lung-related conditions. Throughout her career, he has contributed significantly to uncovering molecular mechanisms, particularly in the context of pulmonary fibrosis and acute lung injury. His research projects, funded by prestigious organizations such as the National Natural Science Foundation of China and the Yunnan Provincial Department of Science and Technology, showcase her expertise and her leadership in exploring pharmacological interventions.