Mengliu Yang | Metabolism | Best Researcher Award Posted on 30/10/202401/11/2024 by sciencefatherLeave a Comment on Mengliu Yang | Metabolism | Best Researcher Award Assoc prof Dr. Mengliu Yang | Metabolism | Best Researcher Award Global Recognition: Her participation in significant global conferences, such as EASD, indicates her recognition in the international research community and her commitment to disseminating her findings. Assoc Prof Dr. Mengliu Yang , Chongqing Medical University , China Profile Scopus OrcID 🌱EARLY ACADEMIC PURSUITS Dr. Mengliu Yang began her academic journey at Chongqing Medical University, where her passion for cellular signaling in metabolic diseases was sparked. She later advanced her expertise under the mentorship of Professor John Whitehead at The University of Queensland, earning her Ph.D. with a focus on central nervous system-peripheral metabolic interactions. These foundational years equipped Dr. Yang with a multidisciplinary perspective, crucial for her later work in metabolic disease mechanisms and regulatory pathways. 💼 PROFESSIONAL ENDEAVORS As an Associate Professor at The Second Affiliated Hospital of Chongqing Medical University, Dr. Yang leads a highly skilled team dedicated to advancing metabolic disease research. Her professional endeavors are backed by prestigious grants, including support from the National Natural Science Foundation of China and the Novo Nordisk Talent Fund. Dr. Yang’s work stands out for its combination of clinical research, cellular biology, and real-world impact on disease management, particularly in areas affecting metabolic regulation and obesity. 🔬 CONTRIBUTIONS AND RESEARCH FOCUS Dr. Yang’s research is focused on the “gut-brain-liver” axis, where she has identified pivotal molecules like NUCB2/nesfatin-1 and zinc-α2-glycoprotein (ZAG) that influence insulin resistance and energy balance. Her team’s work also highlights the role of hypothalamic POMC and AgRP neurons in controlling central and peripheral metabolic processes, contributing to new treatment targets for conditions like Type 2 diabetes and obesity. With 23 high-impact publications in journals such as Nature Communications, EMBO Journal, and Diabetes Care, her findings are shaping the future of metabolic research. 📚 ACADEMIC CITES Dr. Yang’s research has garnered significant attention, reflected in her impressive citation metrics: Total Citations: 3,410 h-Index: 36 i10-Index: 63 These metrics underscore her work’s influence, particularly in understanding metabolic signaling pathways and advancing therapeutic options for metabolic disorders. 🌍 Impact and Influence Dr. Yang’s influence extends globally through her presentations at major conferences, such as the European Association for the Study of Diabetes (EASD), and her editorial roles at Frontiers in Endocrinology and Frontiers in Public Health. Her contributions to clinical guidelines have furthered the field’s understanding of central-peripheral metabolic regulation, earning her recognition and a “Rising Star” distinction from the Chinese American Diabetes Association (CADA). 🌟 Legacy and Future Contributions With three ongoing research projects and four completed, Dr. Yang’s work is paving the way for breakthroughs in metabolic disease treatment. Her ongoing patents are expected to bring new innovations to metabolic research and patient care. Dr. Yang’s collaborative work with esteemed colleagues like Oluf Borbye Pedersen from the University of Copenhagen and Chen Chen from the University of Queensland highlights her commitment to international research advancements. 📄Publications AZGP1 in POMC neurons modulates energy homeostasis and metabolism through leptin-mediated STAT3 phosphorylation Authors: Qiu, S., Wu, Q., Wang, H., … Li, L., Yang, M. Journal: Nature Communications, 2024, 15(1), 3377 Enhancing precision targeting of ovarian cancer tumor cells in vivo through extracellular vesicle engineering Authors: Alharbi, M., Lai, A., Godbole, N., … Wu, S.Y., Salomon, C. Journal: International Journal of Cancer, 2024, 155(8), pp. 1510–1523 Empagliflozin rescues lifespan and liver senescence in naturally aged mice Authors: Long, J., Ren, Z., Duan, Y., … Luo, X., Liu, D. Journal: GeroScience, 2024, 46(5), pp. 4969–4986 Combined serum CTRP7 and CTRP15 levels as a novel biomarker for insulin resistance and type 2 diabetes mellitus Authors: Xue, S., Ling, J., Tian, M., … Yang, M., Yang, G. Journal: Heliyon, 2024, 10(9), e30029 Hypothalamic P62 (SQSTM1) regulates energy balance by modulating leptin signaling Authors: Yang, S., Li, Y., Tian, M., … Li, L., Yang, M. Journal: Theranostics, 2024, 14(17), pp. 6605–6624
Yinghao Lun | Preparation of SERS Substrate | Best Researcher Award Posted on 30/10/202430/10/2024 by sciencefatherLeave a Comment on Yinghao Lun | Preparation of SERS Substrate | Best Researcher Award Dr. Yinghao Lun | Preparation of SERS Substrate | Best Researcher Award Innovative Contribution: Yinghao developed a reusable SERS substrate with femtosecond laser processing, resulting in substrates with excellent uniformity, oxidation resistance, and stability. His research showcases a detection limit of 10⁻¹⁴ M for Malachite Green (MG), indicating substantial potential for sensitive molecular detection in practical applications. Dr. Yinghao Lun, Wuhan University , China Profile OrcID 🌱EARLY ACADEMIC PURSUITS Yinghao Lun began his academic journey with a focus on physics and material science, which laid a strong foundation for his expertise in Remote Sensing Science and Technology. His early education emphasized research and innovation, fostering a deep interest in photonic materials and advanced sensing techniques. Under the mentorship of prominent scientists, Yinghao developed essential skills that would guide his later research endeavors. 💼 PROFESSIONAL ENDEAVORS Currently a PhD student at Wuhan University, Yinghao is engaged in groundbreaking work in the field of Surface-Enhanced Raman Scattering (SERS). He is supervised by Prof. Detlef Mueller and Prof. Xuan Wang, renowned experts in the domain, which has provided Yinghao with invaluable exposure to advanced techniques and methodologies. His work spans practical applications, particularly in molecular detection, with implications for public safety and environmental monitoring. 🔬 CONTRIBUTIONS AND RESEARCH FOCUS Yinghao’s primary research focus is on the fabrication and application of reusable SERS substrates. He contributed significantly to the development of a highly efficient SERS platform using femtosecond laser-processed crystalline silicon. These innovative substrates exhibit mountain-like microstructures, offering high uniformity, oxidation resistance, and exceptional stability. This technology achieves a remarkable enhancement factor (EF) of 10^10 and allows for the detection of Malachite Green (MG) at concentrations as low as 10^-14 M. Such advancements are particularly beneficial for food safety, demonstrating the platform’s potential in precise and reliable SERS-based sensing applications. 📚 ACADEMIC CITES Yinghao’s notable publication, “Reusable SERS Platform of Femtosecond Laser Processed Substrate for Detection of Malachite Green,” was published in Molecules (2024, 29, 5053). This publication has been well-received in academic circles, reflecting the significance of his research in pushing the boundaries of SERS applications. It underscores the broader academic impact of Yinghao’s work, as citations of his research continue to grow, recognizing the innovations he has brought to this field. 🌍 Impact and Influence The impact of Yinghao’s research is substantial, particularly within the food safety and environmental monitoring sectors. His work promises significant advancements in molecular detection technologies, offering safer, more reliable solutions for detecting harmful contaminants. The reproducibility and stability of the developed SERS platform reflect a major leap forward in sensing technology, providing practical benefits for industries reliant on precise chemical detection. 🌟 Legacy and Future Contributions With his current trajectory, Yinghao Lun is poised to make enduring contributions to the field of remote sensing and SERS technologies. His work not only advances the scientific understanding of photonic materials but also provides practical applications with real-world impact. Yinghao envisions future research that expands the capabilities of SERS-based platforms, potentially revolutionizing sensing technologies across multiple sectors. His dedication to advancing remote sensing and molecular detection methods ensures a legacy of impactful contributions to science and industry. 📄Publications Reusable SERS Platform of Femtosecond Laser Processed Substrate for Detection of Malachite Green Authors: Yinghao Lun, Bing Zhao, Yuanhai Geng, Wenhan Du, Xiaona Zhao, Xuan Wang Journal: Molecules
Dianzheng Wang | Additive Manufacturing | Best Researcher Award Posted on 29/10/202429/10/2024 by sciencefatherLeave a Comment on Dianzheng Wang | Additive Manufacturing | Best Researcher Award Dr. Dianzheng Wang | Additive Manufacturing| Best Researcher Award International Presentation Experience: His acceptance to present at the 1st Asia Pacific International Conference on Additive Manufacturing in Melbourne demonstrates his recognition in the global research community and ability to communicate complex ideas effectively. Dr. Dianzheng Wang , Institute of Engineering Thermophysics, Chinese Academy of Sciences , China Profile Scopus 🌱EARLY ACADEMIC PURSUITS Dianzheng Wang completed his Bachelor’s degree in Materials Science and Engineering at Northwestern Polytechnical University in Xi’an City, China, from September 2009 to July 2013. He graduated with an impressive GPA of 89.3/100, ranking 1st out of 26 students. His strong foundation in materials science paved the way for his advanced studies. 💼 PROFESSIONAL ENDEAVORS Dianzheng pursued a Ph.D. at Tsinghua University in Beijing, focusing on the Selective Laser Melting (SLM) of Tungsten and Its Alloys from September 2013 to July 2018. His doctoral research explored innovative techniques in additive manufacturing, particularly in the context of tungsten materials, showcasing his dedication to advancing this field. 🔬 CONTRIBUTIONS AND RESEARCH FOCUS During his Ph.D., Dianzheng made significant contributions through his research on: Balling Mechanism in Selective Laser Melting of Tungsten: Investigating the behaviors that lead to defects during the SLM process. Fabricating Dense Pure Tungsten and Molybdenum from Spherical Powders by SLM: Developing methods to achieve high-density structures through advanced additive manufacturing techniques. Plasma Spheroidization of Polyhedral Tungsten Powders: Innovating powder processing techniques to enhance the quality of materials used in SLM. Crack Growth Behaviors and Reduction in Selective Laser Melted Tungsten: Analyzing failure mechanisms and developing strategies to mitigate them. 📚 ACADEMIC CITES Dianzheng has presented his research at prominent conferences, including the 1st Asia Pacific International Conference on Additive Manufacturing in Melbourne, Australia, in December 2017, where he was invited to give an oral presentation. This highlights his recognition in the academic community and the relevance of his work. 🌍 Impact and Influence Dianzheng’s work has potential implications in various industries, including aerospace, automotive, and energy, where high-performance materials are essential. His research aims to enhance the mechanical properties and manufacturing processes of tungsten-based materials, thereby contributing to more robust applications. 🌟 Legacy and Future Contributions As a researcher in materials science, Dianzheng Wang’s work on selective laser melting of tungsten positions him as a key contributor to the development of advanced manufacturing processes. His ongoing research efforts will likely lead to innovations that improve material performance and expand the applications of additive manufacturing technology. 📄Publications Robust visual-based method and new datasets for ego-lane index estimation in urban environment Authors: Wang, D., Liang, D., Li, S. Journal: Machine Vision and Applications, 2024, 35(5), 112 Blistering and retention behavior of laser powder bed fused tungsten alloys under hydrogen plasma irradiation Authors: Li, K., Du, B., Yu, L., Liu, W., Chen, W. Journal: Journal of Nuclear Materials, 2024, 595, 155049 Additive Materialization: Promoting Customized Design in Ceramic Components with Integrated Structure & Performance via Additive Manufacturing Authors: Song, L., Wang, D., Zhao, R., Ma, J., Shen, Z. Journal: Kuei Suan Jen Hsueh Pao/Journal of the Chinese Ceramic Society, 2021, 49(5), pp. 819–828 Crack suppression in additively manufactured tungsten by introducing secondary-phase nanoparticles into the matrix Authors: Li, K., Wang, D., Xing, L., Liu, W., Shen, Z. Journal: International Journal of Refractory Metals and Hard Materials, 2019, 79, pp. 158–163 Cracking in laser additively manufactured W: Initiation mechanism and a suppression approach by alloying Authors: Wang, D., Wang, Z., Li, K., Liu, W., Shen, Z. Journal: Materials and Design, 2019, 162, pp. 384–393
Yu Kang | Obstetrics and Gynecology | Best Researcher Award Posted on 29/10/202429/10/2024 by sciencefatherLeave a Comment on Yu Kang | Obstetrics and Gynecology | Best Researcher Award Prof .Yu Kang | Obstetrics and Gynecology | Best Researcher Award Innovative Research Projects: Dr. Kang has successfully led and participated in 16 research projects, including collaborations with prestigious institutions like MD Anderson, underscoring his role in advancing cancer treatment methodologies. Prof. Yu Kang , Obstetrics & Gynecology Hospital of Fudan University, China Profile Scopus 🌱EARLY ACADEMIC PURSUITS Dr. Yu Kang obtained his PhD and completed his postdoctoral fellowship at MD Anderson Cancer Research Center, which laid a strong foundation for his research in gynecologic oncology. His early education focused on the mechanisms of cancer biology and treatment modalities, establishing a profound understanding of the complexities of gynecologic tumors. 💼 PROFESSIONAL ENDEAVORS Currently serving as the chief physician at the Obstetrics & Gynecology Hospital of Fudan University, Dr. Kang is also a doctoral supervisor. His clinical practice centers around individualized precision treatment and prevention strategies for gynecologic tumors, ensuring that patients receive the most effective therapies tailored to their specific needs. 🔬 CONTRIBUTIONS AND RESEARCH FOCUS Dr. Kang’s main research focus includes ovarian cancer, PJ syndrome, and hereditary breast and ovarian cancer (HBOC). He has published extensively in prestigious journals such as JNCI, contributing significantly to the understanding and treatment of rare gynecological tumors. His research has led to the publication of 32 SCI articles, the acquisition of 4 national patents, and the authorship of 12 monographs. 📚 ACADEMIC CITES While specific citation metrics are not provided, Dr. Kang’s prolific output of 53 journal publications in SCI and Scopus-indexed journals underscores his impact in the academic community and highlights the significance of his research findings in advancing gynecologic cancer treatment. 🌍 Impact and Influence Through his research and clinical practice, Dr. Kang has made significant strides in the field of gynecologic oncology, particularly in precision medicine. His collaborative efforts with organizations such as the MD Anderson Cancer Center Sister Organization Network Foundation have further advanced the potential treatment options for epithelial ovarian cancer, showcasing his commitment to improving patient outcomes. 🌟 Legacy and Future Contributions Dr. Kang’s ongoing work in the field of gynecologic tumors aims to pave the way for innovative treatment modalities and improved patient care. With several patents in process and an active editorial role in Gynecologic Oncology, he is poised to continue influencing the field significantly. His commitment to research and patient care ensures a lasting legacy in gynecologic oncology. 📄Publications MRI grading for informed clinical decision-making in Peutz–Jeghers syndrome patients with cervical lesions Authors: Jiang, A., Chen, Y., Ning, Y., Xu, C., Kang, Y. Journal: Scientific Reports, 2024, 14(1), 23731 Clinical characteristics and status of treatment of small-cell carcinoma of the ovary, hypercalcemic type in the Chinese population: a meta-analysis Authors: Zheng, K., Gao, Y., Xu, C., Kang, Y. Journal: Journal of Gynecologic Oncology, 2024, 35(4), e96 Immunotherapy combined with targeted therapy in advanced small cell carcinoma of the ovary of hypercalcemic type: A case of overall survival lasting for over 5 years Authors: Gao, Y., Zang, L., Ye, Y., Wang, H., Xu, C., Kang, Y. Journal: European Journal of Obstetrics and Gynecology and Reproductive Biology, 2024, 297, pp. 270–274 Correction to: Dominant-negative transforming growth factor-β receptor-armoured mesothelin-targeted chimeric antigen receptor T cells slow tumour growth in a mouse model of ovarian cancer Authors: Li, K., Xu, J., Wang, J., Wu, S., Kang, Y. Journal: Cancer Immunology, Immunotherapy, 2024, 73(6), 105 Do survivors of borderline ovarian tumors have susceptibility to secondary primary malignancies? A SEER population-based study Authors: Wang, J., Du, Y., Kang, Y. Journal: International Journal of Gynecology and Obstetrics, 2024, 165(3), pp. 1229–1236
Zhiqiang Cai | Economics and Finance | Best Scholar Award Posted on 29/10/202429/10/2024 by sciencefatherLeave a Comment on Zhiqiang Cai | Economics and Finance | Best Scholar Award Mr .Zhiqiang Cai | Economics and Finance | Best Scholar Award Collaborative Efforts: Zhiqiang’s participation in collaborative research efforts, such as studies on the implications of the Belt and Road Initiative and green finance policies, underscores his ability to work effectively within multidisciplinary teams. Mr. Zhiqiang Cai , School of Qinghai Minzu University of Economics and Management, China Profile OrcID 🌱EARLY ACADEMIC PURSUITS Zhiqiang Cai embarked on his academic journey in finance with a solid foundation in quantitative and analytical skills. During his undergraduate studies, he excelled in mathematics competitions, winning third prize in the 11th National University Mathematics Competition (Non-Mathematics) and first prize in the 12th. His dedication to academic achievement earned him the prestigious National Scholarship, marking him as an outstanding scholar with exceptional promise. 💼 PROFESSIONAL ENDEAVORS Currently pursuing a Master of Finance at Qinghai Minzu University’s School of Economics and Management, Zhiqiang has actively contributed to a variety of research initiatives. He has gained experience as a reviewer for Humanities & Social Sciences Communications, a Springer Nature journal, and has completed eight research projects across different economic and financial disciplines. His participation in these projects reflects his commitment to advancing knowledge in finance, economics, and digital transformation. 🔬 CONTRIBUTIONS AND RESEARCH FOCUS Zhiqiang’s research emphasizes the intersection of finance and sustainability, with a focus on digital economy integration, green finance, and corporate finance. He has explored key areas like high-quality development in animal husbandry through digital economy empowerment, the impact of digital technology on traditional industry transformation, and the role of government in improving employment quality for university students. His published works reflect his diverse interests, addressing topics from the Belt and Road Initiative’s corporate sustainability impact to green finance policies in China. 📚 ACADEMIC CITES While Zhiqiang’s work is relatively new, his publications have already been indexed in SSCI, ProQuest, and CNKI. As he continues to contribute high-quality research, his citation index is expected to grow, increasing his visibility and influence within the academic community. 🌍 Impact and Influence Through his research, Zhiqiang Cai contributes to critical discussions on sustainable finance and the digital economy’s role in economic transformation. His work on green finance, energy economics, and machine learning for sustainable development has gained attention at major international economic conferences, allowing him to influence and share insights with global audiences. His collaboration on projects related to Qinghai’s economic development and his involvement in developing finance curricula further demonstrate his commitment to creating long-lasting impact. 🌟 Legacy and Future Contributions Zhiqiang’s dedication to finance and economics research, paired with his role in promoting sustainable development through the digital economy, highlights his potential to leave a lasting legacy. His ongoing work will likely contribute valuable insights to China’s economic transformation, particularly in regions like Qinghai. With his continued involvement in both academic and practical applications of finance, Zhiqiang Cai is set to make further impactful contributions, reinforcing the importance of sustainability and digitalization in modern finance. 📄Publications Quantitative Evidence of the Community of Shared Future for Mankind as a Driver of Sustainable Development in Human Society Author: Zhiqiang Cai Journal: Humanities and Social Sciences Communications The Role and Challenges of Machine Learning in the Construction of a Community of Human Destiny Author: Zhiqiang Cai, Wenjie Zhang, Chuyu Zhang Journal: Journal of Electrical Systems Discussion on the Healthy and Sustainable Development of Financial Markets—Illegal Public Deposit-taking as a Perspective Author: Zhiqiang Cai Journal: Financial Engineering and Risk Management
Li Pan | Pig Nutrition and Feed Science | Best Researcher Award Posted on 29/10/202429/10/2024 by sciencefatherLeave a Comment on Li Pan | Pig Nutrition and Feed Science | Best Researcher Award Assoc Prof Dr .Li Pan | Pig Nutrition and Feed Science | Best Researcher Award Collaborative Projects: Her participation in multiple National Natural Science Foundation and provincial projects further emphasizes her experience with large-scale, interdisciplinary research, reinforcing her practical and scientific knowledge in animal nutrition. Assoc Prof Dr. Li Pan, Jilin Agricultural University, China Profile Scopus 🏛️Early Academic Pursuits Li Pan began her academic journey with a focus on the biochemical and nutritional sciences, which laid the foundation for her specialization in feed anti-nutrition factors. This early dedication propelled her into significant research roles, allowing her to gain a deep understanding of complex biochemical interactions, particularly those impacting animal health and nutrition. 👨🔬 Professional Endeavors Li Pan is an Associate Professor at Jilin Agricultural University, where she leads groundbreaking research on pig nutrition and digestive tract health. She has also completed a postdoctoral fellowship at China Agricultural University, enhancing her expertise in animal physiology and nutrition. Her professional accomplishments include managing a youth fund from the National Science Foundation, and she has contributed to seven national and provincial projects, along with securing a startup fund from Jilin Agricultural University. 🔬 CONTRIBUTIONS AND RESEARCH FOCUS Her research primarily centers on feed anti-nutrition factors and their impact on animal health, with a particular focus on the toxicity mechanisms of these factors. Li Pan’s research results provide crucial insights for optimizing feed processing, which has practical applications in the animal nutrition sector. Her published works include nine SCI-indexed papers and three papers in core Chinese journals, adding substantial value to the field of pig digestive health and feed science. 📚 ACADEMIC CITES Li Pan’s recent publication, “Soybean Agglutinin Induced Apoptotic Effects by Down-Regulating ANXA2 Through FAK Pathway in IPEC-J2 Cells,” has been cited in various research projects, showcasing her research’s reach and relevance. This work, published in Journal of Animal Physiology and Animal Nutrition, adds to her growing citation index, evidencing her contributions to academic literature. 🌍 Impact and Influence Li Pan’s research on feed toxicity mechanisms has had a significant impact on the understanding of how to optimize feed resources for pig health. This research is instrumental in providing technical solutions for the feed processing industry, influencing both academic circles and industrial practices. Her work as a reviewer for prestigious journals like Journal of Cellular Physiology and Frontiers in Plant Science further highlights her influence in the scientific community. 🌟 Legacy and Future Contributions With a robust research background and impactful publications, Li Pan’s work will likely continue to inform and innovate the fields of animal nutrition and health. Her research trajectory indicates a promising future filled with advancements in feed science and anti-nutrition factors, shaping future research methodologies and feeding practices in the agricultural sector. Her legacy lies in her dedication to optimizing animal health through advanced nutrition research, with an eye toward sustainable and efficient feed management practices 📄Publications Bacillus subtilis JATP3 improved the immunity of weaned piglets by improving intestinal flora and producing citalopram Authors: He, F., Jin, X., E, T., Bao, N., Sun, H. Journal: Microbial Pathogenesis, 2024, 195, 106852 Advances in Mucin and Intestinal Mucosal Barrier (黏蛋白与肠道黏膜屏障的研究进展) Authors: Xia, J., Xu, C., Qin, G., Pan, L. Journal: Chinese Journal of Animal Nutrition, 2024, 36(3), pp. 1484–1493 Soybean Agglutinin Induced Apoptotic Effects by Down-Regulating ANXA2 Through FAK Pathway in IPEC-J2 Cells Authors: Tianjiao, E., Xu, C., Fan, X., Pan, L., Qin, G. Journal: Journal of Animal Physiology and Animal Nutrition, 2024 The apoptotic effects of soybean agglutinin were induced through three different signal pathways by down-regulating cytoskeleton proteins in IPEC-J2 cells Authors: Pan, L., Tianjiao, E., Xu, C., Qin, G., Farouk, M.H. Journal: Scientific Reports, 2023, 13(1), 5753 Effects of diets with different amino acid release characteristics on the gut microbiota and barrier function of weaned pigs Authors: Mi, M., Shen, Z., Hu, N., Bao, N., Zhao, Y. Journal: BMC Microbiology, 2023, 23(1), 18
Guixin Qin | Comparative Zoology | Best Researcher Award Posted on 29/10/202429/10/2024 by sciencefatherLeave a Comment on Guixin Qin | Comparative Zoology | Best Researcher Award Prof Dr .Guixin Qin | Comparative Zoology | Best Researcher Award National Recognition: As a national candidate of the “Ten Million Talents Project,” Dr. Qin receives a special allowance from The State Council, which signifies his outstanding contributions to science and technology in China. Prof Dr. Guixin Qin, Jilin Agricultural University, China Profile Scopus 🏛️Early Academic Pursuits Dr. Guixin Qin began his academic journey with a Ph.D. from Wageningen University in the Netherlands, where he specialized in animal nutrition and feed science. His early research laid a solid foundation for his expertise, focusing on comparative animal nutrition and the challenges posed by feed anti-nutrition factors, key issues that would shape his future work and influence in the field. 👨🔬 Professional Endeavors Dr. Qin has built a distinguished career as a Professor at Jilin Agricultural University and serves as an executive director for the Chinese Animal Husbandry and Veterinary Society. Recognized as both a national and provincial leader in his field, Dr. Qin is a second-level candidate in China’s “Ten Million Talents Project” and enjoys the prestigious State Council special allowance. His roles include vice chairman and secretary-general of the Feed Safety and Biotechnology Committee of the Chinese Animal Nutrition Society and president of the Jilin Animal Husbandry and Veterinary Society. 🔬 CONTRIBUTIONS AND RESEARCH FOCUS Dr. Qin’s primary research centers on animal nutrition, with a particular emphasis on the comparison of nutrition profiles and the mitigation of anti-nutritional factors in feeds. Over the years, he has undertaken and successfully completed over 20 research projects, including five key National Natural Science Foundation projects. His work has not only advanced the understanding of animal feed science but also informed the design of safer and more efficient animal nutrition practices. 📚 ACADEMIC CITES Dr. Qin’s latest cited work includes studies like “Soybean Agglutinin Induced Apoptotic Effects by Down-Regulating ANXA2 Through FAK Pathway in IPEC-J2 Cells,” which addresses critical issues in animal nutrition at the cellular level. His contributions extend beyond academia into practical applications, influencing both animal nutrition standards and feed manufacturing processes. 🌍 Impact and Influence An active contributor to academia, Dr. Qin has authored over 300 academic papers, with 40 published in SCI journals over the past five years alone. He has been recognized for his contributions as a “national outstanding scientific and technological worker,” with accolades for his impact in both national and provincial circles. His recent research, such as the work on Soybean Agglutinin’s apoptotic effects, highlights his contributions to understanding cellular impacts in animal nutrition, underscoring his influence on safety and efficacy in feed science. 🌟 KEY TOPICS OF INFLUENCE Comparative Animal Nutrition: Leading the study of nutrient profiles across animal species, optimizing nutrition for improved animal health. Feed Anti-Nutrient Factors: Groundbreaking research on reducing negative feed components that hinder animal health. Innovation in Animal Feed Science: Pioneer in developing safer, more nutritious feed solutions 🌟 Legacy and Future Contributions With over 20 completed consultancy projects, five published patents, and one ISBN-registered book, Dr. Qin’s legacy extends across both scientific and industrial spheres. His ongoing research and active participation in professional societies ensure that his impact will continue to shape the fields of animal husbandry and feed science. Dr. Qin’s leadership and scientific contributions have set a benchmark in animal nutrition, inspiring future research and innovation. 📄Publications Improving effect of N-acetylcysteine on growth and intestinal health in juvenile Cyprinus carpio involve the Nrf2/MAPK/NF-κB pathways Authors: Zhu, R., Li, D.-L., Zhang, B.-Y., Wu, L.-F., Qin, G.-X. Journal: Aquaculture, 2024, Volume 589, Article 740971 Advances in Mucin and Intestinal Mucosal Barrier | 黏蛋白与肠道黏膜屏障的研究进展 Authors: Xia, J., Xu, C., Qin, G., Pan, L. Journal: Chinese Journal of Animal Nutrition, 2024, Volume 36(3), Pages 1484–1493 Impact of deoxynivalenol on rumen function, production, and health of dairy cows: Insights from metabolomics and microbiota analysis Authors: Dong, J.-N., Zhao, Z.-K., Wang, Z.-Q., Wang, T., Zhen, Y.-G. Journal: Journal of Hazardous Materials, 2024, Volume 465, Article 133376 Soybean Agglutinin Induced Apoptotic Effects by Down-Regulating ANXA2 Through FAK Pathway in IPEC-J2 Cells Authors: Tianjiao, E., Xu, C., Fan, X., Pan, L., Qin, G. Journal: Journal of Animal Physiology and Animal Nutrition, 2024 Mechanistic insights into rumen function promotion through yeast culture (Saccharomyces cerevisiae) metabolites using in vitro and in vivo models Authors: Chen, X., Xiao, J., Zhao, W., Sun, Z., Zhen, Y. Journal: Frontiers in Microbiology, 2024, Volume 15, Article 1407024
Pengfei Rong | Management and Accounting | Best Researcher Award Posted on 28/10/202428/10/2024 by sciencefatherLeave a Comment on Pengfei Rong | Management and Accounting | Best Researcher Award Mr .Pengfei Rong | Management and Accounting | Best Researcher Award Editorial Involvement: He serves as a reviewer for 8 reputable journals, which highlights his expertise and recognition in the academic community, allowing him to contribute to the quality of published research. Mr. Pengfei Rong, Shanghai Normal University, China Profile Scopus 🏛️Early Academic Pursuits Rong Pengfei began his academic journey with a postdoctoral fellowship in management, delving into the realms of top management team (TMT) and enterprise innovation management. This initial phase laid the groundwork for his enduring commitment to understanding and enhancing corporate leadership dynamics and innovation processes. 👨🔬 Professional Endeavors With 14 years of experience, Rong Pengfei has established himself as a prominent researcher and associate professor at Shanghai Normal University. His professional endeavors include leading and completing 7 projects at or above the provincial and ministerial level, such as the Humanities and Social Sciences Project of the Chinese Ministry of Education. He has published extensively, with 7 papers in SSCI journals and 20 papers in CSSCI journals, along with 2 monographs. 🔬 CONTRIBUTIONS AND RESEARCH FOCUS Rong Pengfei’s research primarily focuses on organizational behavior and human resource management, with a special emphasis on TMT and enterprise innovation management. He has pioneered the exploration of TMT reflexivity, reflexivity evolution, and TMT knowledge hiding, investigating their impacts on corporate innovation performance. Additionally, his work has highlighted the interaction between CEOs and TMTs, contributing significantly to this field through numerous projects and publications. 📚 ACADEMIC CITES Rong Pengfei’s extensive body of work includes publications in renowned journals such as the “Journal of the Knowledge Economy,” “Current Psychology,” “Frontiers in Psychology,” “R&D Management,” and the “Fudan Journal (Social Sciences Edition).” His contributions are well-cited, reflecting the significant impact of his research on the academic discourse in management and innovation. 🌍 Impact and Influence Rong Pengfei’s influence extends beyond his immediate research circle, as evidenced by his involvement in 14 research projects, including national-level initiatives. As a key participant in three national projects, he has contributed to groundbreaking studies on human resource management, corporate behavior, and performance. His editorial appointments as a reviewer for prestigious journals underscore his standing in the academic community. 📝 EDITORIAL APPOINTMENTS Rong Pengfei has served as a reviewer for 8 distinguished journals, including “R&D Management,” “Journal of the Knowledge Economy,” “Knowledge Management Research & Practice,” “International Journal of Conflict Management,” “Current Psychology,” “Frontiers in Psychology,” “Journal of Engineering and Technology Management,” and “Business and Management Research Journal.” His editorial roles underscore his expertise and recognition in the academic community. 📜 PROFESSIONAL MEMBERSHIPS As an active member of the Shanghai Psychological Society in China, Rong Pengfei engages with a broader professional community, contributing to the development and dissemination of psychological research and its applications in management. 📊 COMPLETED/ONGOING RESEARCH PROJECTS Rong Pengfei has successfully hosted and completed 14 research projects, including 7 projects at or above the provincial and ministerial level. His leadership in these initiatives, including significant contributions to national projects, highlights his capability to drive impactful research that advances understanding in management and innovation. 🤝Collaborations In his collaborative efforts, Rong Pengfei has played a key role as the main participant in completing three national projects. These projects, such as the Youth Project to the National Social Science Fund of China and the Program Project to the National Soft Science Research of China, focus on human resource management, corporate behavior, and performance, showcasing his ability to work effectively in team-oriented research environments. 🌟 Legacy and Future Contributions Rong Pengfei’s legacy is marked by his innovative contributions to the understanding of TMT dynamics and corporate innovation. His future endeavors promise to build on this foundation, further unraveling the complexities of organizational behavior and enhancing the strategic capabilities of enterprises. His continued commitment to research and collaboration will undoubtedly shape the future of management studies. 📄Publications The impact of the ethical CEO on top management team’s creativity from the perspective of knowledge management: The moderating role of psychological distance Authors: Rong, P., Liu, S. Journal: Current Psychology, 2023, 42(17), pp. 14736–14750 Top Management Team Knowledge Hiding and Enterprise Innovation Performance: A Moderated Mediation Model Authors: Rong, P., Liu, S. Journal: Frontiers in Psychology, 2021, 12, 783147 CEO Turnover, Leadership Identity, and TMT Creativity in a Cross-Cultural Context Authors: Rong, P., Wang, C. Journal: Frontiers in Psychology, 2021, 12, 610526 Can transactive memory system improve top management team’s creativity? The moderating role of team identity Authors: Rong, P., Xie, J. Journal: Current Psychology, 2021, 40(8), pp. 4156–4163 Does team conflict affect top management team creativity? Team climate as a moderator Authors: Rong, P., Zhang, L., Xie, J. Journal: Social Behavior and Personality, 2019, 47(12), e8572
TiePeng Wang | Free Radical Biology and Medicine | Excellence in Innovation Posted on 28/10/202428/10/2024 by sciencefatherLeave a Comment on TiePeng Wang | Free Radical Biology and Medicine | Excellence in Innovation Assoc Prof Dr .TiePeng Wang | Free Radical Biology and Medicine | Excellence in Innovation Extensive Research Experience: Wang has led numerous research projects funded by the National Natural Science Foundation of China and the Science and Technology Program of Xinjiang Production and Construction Corps. His completed and ongoing projects demonstrate his ability to secure funding and contribute to significant scientific advancements. Assoc prof Dr. TiePeng Wang , Institute of Biophysics, Chinese Academy of Sciences, China Profile Scopus 🏛️Early Academic Pursuits Tiepeng Wang earned his BSc in Life Sciences from Jilin University in 2002 and his Ph.D. from the Institute of Biophysics, Chinese Academy of Sciences, in 2007. His early career involved serving as a research assistant and postdoc at the Institute of Biophysics and Neurosciences, where he laid the foundation for his future research in neurodegenerative diseases and redox regulation mechanisms. 👨🔬 Professional Endeavors Since 2011, Tiepeng Wang has been an associate professor at Shihezi University’s Medical School and a Special Research Assistant at the Institute of Biophysics since 2021. His career is marked by leading multiple research projects funded by prestigious institutions, including the National Natural Science Foundation of China and the Science and Technology Program of Xinjiang Production and Construction Corps. He has published over 20 research papers and edited several textbooks, significantly contributing to the academic community. 🔬 CONTRIBUTIONS AND RESEARCH FOCUS Discovery of Necroptosis in Neurodegenerative Diseases: By integrating cellular biology, biochemistry, bioinformatics, and animal behaviorology, Tiepeng Wang discovered that nitric oxide (NO) and necroptosis are the primary pathways leading to neuronal damage in diseases such as Parkinson’s, Alzheimer’s, and amyotrophic lateral sclerosis. His research indicated that as the severity of these diseases increases, neuronal death pathways shift towards necroptosis. Neuroprotective Effects of GSNOR: His studies identified the enzyme GSNOR as having significant neuroprotective effects against neurotoxicity. He proposed combining creatine with GSNOR to enhance neuroprotection, addressing the limitations of using creatine alone in clinical trials. 📚 ACADEMIC CITES With a total citation count of 173 for his published papers, Tiepeng Wang’s contributions are widely recognized and referenced in the scientific community. He has edited and co-edited several influential textbooks, including: Advanced Medical Molecular Biology Experimental Techniques (ISBN: 978-7-5192-4603-7) Biochemistry (ISBN: 978-7-5578-6019-6) Basic Research and Clinical Diagnosis of Diabetes (ISBN: 978-7-80756-572-7) Medical Functional Experimentation (ISBN: 978-7-5372-4392-6) Experiment Instruction of Biochemistry and Medical Genetics (ISBN: 978-7-5574-0274-7) Modern Basic Research and Clinical Practice of Diabetes (ISBN: 978-7-5046-6730-4) 🌍 Impact and Influence Tiepeng Wang’s research has had a profound impact on understanding the mechanisms of neuronal damage and developing potential therapeutic strategies for neurodegenerative diseases. His work on NO and necroptosis has opened new avenues for drug development, targeting necroptosis to mitigate neuronal damage. 🤝 Professional Memberships AND Collaborations Young Member, Free Radical Biology and Free Radical Medicine Professional Committee, Chinese Society for Biophysics Member, Chinese Society for Cell Biology Member, Chinese Society for Neuroscience Notable Collaborations: National Key R&D Program of China (2022YFA1303000): Collaboration with Prof. Chen Chang, focusing on maintenance of redox homeostasis and stress intervention. National Natural Science Foundation of China (81360142): Collaboration with Prof. Xie Jianxin on the impact of obesity on bone metabolism. National Key Basic Research Program of China (2005CB522804): Collaboration with Prof. Chen Chang on cognitive brain imaging and visual invariance. By consistently pushing the frontiers of biomedical research, Tiepeng Wang continues to pave the way for new therapeutic strategies and a deeper understanding of neurodegenerative diseases. His work not only advances scientific knowledge but also holds the promise of improving clinical outcomes for patients worldwide. 🌟 Legacy and Future Contributions Tiepeng Wang’s legacy in the field of biophysics and neuroscience is marked by his significant discoveries and innovative research approaches. His ongoing projects and collaborations, such as the National Key R&D Program of China on redox homeostasis and stress intervention, continue to push the boundaries of our understanding of neuronal health. As a young member of the Free Radical Biology and Free Radical Medicine Professional Committee of the Chinese Society for Biophysics, and as a member of both the Chinese Society for Cell Biology and the Chinese Society for Neuroscience, Tiepeng Wang is poised to make enduring contributions to science and medicine. 📄Publications Optimization of a glutamate excitotoxicity model in cultured cerebellar granule neurons Authors: Wang, T.-P., Zhang, T., Chen, C. Journal: Progress in Biochemistry and Biophysics, 2013, 40(8), pp. 775–782 Nitric oxide metabolism controlled by formaldehyde dehydrogenase (fdh, homolog of mammalian GSNOR) plays a crucial role in visual pattern memory in Drosophila Authors: Hou, Q., Jiang, H., Zhang, X., Liu, L., Chen, C. Journal: Nitric Oxide – Biology and Chemistry, 2011, 24(1), pp. 17–24 A novel mechanism underlying the susceptibility of neuronal cells to nitric oxide: The occurrence and regulation of protein S-nitrosylation is the checkpoint Authors: He, J., Wang, T., Wang, P., Yin, Q., Chen, C. Journal: Journal of Neurochemistry, 2007, 102(6), pp. 1863–1874 Activation of GSNOR transcription by NF-κB negatively regulates NGF-induced PC12 differentiation Authors: Wu, K., Zhang, Y., Wang, P., Wang, T., Chen, C. Journal: Free Radical Research, 2014, 48(9), pp. 1011–1017
Zongzhi Liu | Bioinformatics | Best Researcher Award Posted on 26/10/202428/10/2024 by sciencefatherLeave a Comment on Zongzhi Liu | Bioinformatics | Best Researcher Award Assoc Prof Dr.Zongzhi Liu | Bioinformatics | Best Researcher Award Successful Research Projects: Dr. Liu has led significant projects, including the study of RUNX3 methylation’s impact on T cell function and immunotherapy response. His successful acquisition of funding for multiple National Natural Science Foundation projects reflects his ability to secure resources for impactful research. Assoc Prof Dr. Zongzhi Liu , Changping Laboratory, China Profile Scopus 🏛️Early Academic Pursuits Zongzhi Liu’s academic journey is deeply rooted in the exploration of human diseases and immunotherapy. His early academic work laid the foundation for his current focus on the mechanisms of neurodegenerative diseases and tumor immunotherapy. By leveraging next-generation sequencing and bioinformatics, he has significantly contributed to the understanding of disease pathways and therapeutic targets. 👨🔬 Professional Endeavors Liu’s professional endeavors are characterized by his commitment to precision medicine and epigenetic research. His notable projects include the development of epigenetic biomarkers for early cancer diagnosis and targeted therapy. His work with Runx3 knockout mouse models has provided critical insights into the epigenetic regulation of PD-1 tumor treatment response and resistance. 🔬 SCADEN Algorithm and Neurodegenerative Diseases Liu utilized the SCADEN algorithm to predict primary pathways involved in neuron degeneration, specifically focusing on Alzheimer’s Disease (AD), Parkinson’s Disease (PD), and Amyotrophic Lateral Sclerosis (ALS). His research integrates behavioral experiments in mice to explore these mechanisms further. 🧫 Multi-Omics Analysis for Tumor Immunotherapy Through multi-omics analysis, Liu identified epigenetic targets for tumor immunotherapy. His establishment of a Runx3 knockout mouse model was pivotal in demonstrating that Runx3 epigenetic reprogramming is a key regulator of PD-1 tumor treatment response and resistance. 🌐 Research and Innovations Liu’s innovations extend to several high-impact projects: Molecular Mechanism of T Cell Function: Studied the regulation of T cell function related to RUNX3 methylation reprogramming, funded by the National Natural Science Foundation (2023-2025). Emerging Infectious Diseases: Contributed to pathogen identification and early warning technology for infectious diseases, as part of a national task (2021-2024). Combined Immunotherapy: Investigated the synergistic effects of combined immunotherapy, with significant clinical implications (2016-2022). Maternal Age and Pregnancy Outcomes: Explored the impact of advanced maternal age on pregnancy outcomes and offspring health (2018-2022). Liquid Biopsy Technology: Evaluated liquid biopsy technology for early cancer screening and diagnosis (2019-2021). 🏢 Consultancy/Industry Projects National Natural Science Foundation Project: Molecular mechanism study on T cell function regulation (2023-2025). National Task Project: Study on pathogen identification and early warning technology (2021-2024). National Key R&D Program: Research on combined immunotherapy (2016-2022). National Natural Science Foundation Key Project: Impact of advanced maternal age on pregnancy outcomes (2018-2022). Ministry of Science and Technology Key R&D Program: Liquid biopsy technology for early cancer diagnosis (2019-2021). 🌍 Impact and Influence Liu’s research has significantly impacted the fields of neurodegenerative diseases and tumor immunotherapy. His work on epigenetic reprogramming and precision medicine has paved the way for innovative approaches to early diagnosis and targeted therapy, influencing both clinical practices and future research directions. 👩🔬 Professional Memberships AND Collaborations Zongzhi Liu holds esteemed editorial appointments as a reviewer for Frontiers in Oncology and Frontiers in Pediatrics, contributing his expertise to the peer-review process. His collaborative efforts span multiple prestigious institutions, including the General Hospital of the People’s Liberation Army of China, the Institute of Pathogen Biology at the Chinese Academy of Medical Sciences, Peking University Third Hospital, and the Cancer Hospital of the Chinese Academy of Medical Sciences. As a member of the Chinese Society for Cell Biology, Liu actively participates in advancing the field of bioinformatics in human diseases. His research focuses on bioinformatics, with a particular interest in the mechanisms of neurodegenerative diseases and tumor immunotherapy, underscoring his commitment to the intersection of epigenetics and precision medicine. 🌟 Legacy and Future Contributions Liu’s legacy in the scientific community is marked by his groundbreaking research and dedication to advancing medical science. His future contributions are anticipated to further enhance our understanding of disease mechanisms and therapeutic strategies, ultimately improving patient outcomes and shaping the future of precision medicine. 📄Publications Epigenetic reprogramming of Runx3 reinforces CD8 + T-cell function and improves the clinical response to immunotherapy Authors: Liu, Z., Li, X., Gao, Y., Mei, Q., Sun, Y. Journal: Molecular Cancer, 2023, 22(1), 84 CRISPR-Cas13d effectively targets SARS-CoV-2 variants, including Delta and Omicron, and inhibits viral infection Authors: Liu, Z., Gao, X., Kan, C., Zhang, Z., Sun, Y. Journal: MedComm, 2023, 4(1), e208 Camrelizumab combined with apatinib and S-1 as second-line treatment for patients with advanced gastric or gastroesophageal junction adenocarcinoma: a phase 2, single-arm, prospective study Authors: Jing, C., Wang, J., Zhu, M., Zhang, Z., Deng, W. Journal: Cancer Immunology, Immunotherapy, 2022, 71(11), pp. 2597–2608 Whole-genome circulating tumor DNA methylation landscape reveals sensitive biomarkers of breast cancer Authors: Hai, L., Li, L., Liu, Z., Tong, Z., Sun, Y. Journal: MedComm, 2022, 3(3), e134 Low-dose decitabine priming endows CAR T cells with enhanced and persistent antitumour potential via epigenetic reprogramming Authors: Wang, Y., Tong, C., Dai, H., Zhang, Y., Han, W. Journal: Nature Communications, 2021, 12(1), 409