Ji Wenjuan | Sensor | Best Researcher Award

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Prof. Ji Wenjuan | Sensor | Best Researcher Award 

Professor Wenjuan Ji is a materials scientist specializing in the design, synthesis, and functional exploration of porous metal-organic frameworks. Her research focuses on developing novel MOF materials with ferroelectric and nonlinear optical properties, while also advancing applied studies in energy materials, fluorescence, and electrochemical sensing. With a strong background in chemistry and materials science, she combines expertise in crystallography, spectroscopy, and electrochemical techniques to bridge fundamental discoveries with practical applications. Recognized for her contributions to functional materials, she continues to lead innovative projects that drive progress in energy technologies and advanced sensing systems.

Prof. Ji Wenjuan | Shanxi Normal University | China

Profiles

SCOPUS

ORCID

Education

  • Professor Wenjuan Ji has pursued advanced education in chemistry and materials science, establishing a strong foundation in the fields of inorganic chemistry and functional materials. Her academic journey provided her with expertise in crystallography, solid-state chemistry, and material characterization, which later guided her into the study and development of porous metal-organic frameworks.

Experience

  • With a career dedicated to research and teaching, Professor Wenjuan Ji has accumulated extensive experience in designing, synthesizing, and characterizing advanced porous materials. She has led research teams in exploring the multifunctional properties of metal-organic frameworks and applied them to diverse areas of materials science. Her professional experience extends to supervising graduate students, collaborating with national and international research groups, and contributing to the advancement of applied chemistry.

Awards and Recognition

  • Professor Wenjuan Ji has been recognized for her significant contributions to the field of functional materials. She has received honors from academic and scientific organizations for her pioneering work in the development of innovative porous structures with unique electronic and optical properties. These distinctions highlight her commitment to advancing material science and her leadership in the research community.

Skills and Expertise

  • Her skills span the synthesis of metal-organic frameworks, advanced crystallographic analysis, and property evaluation of functional materials. She is proficient in applying spectroscopic and electrochemical techniques to investigate the performance of materials. Additionally, her strengths include leading interdisciplinary projects, integrating theoretical understanding with experimental work, and mentoring future researchers.

Research Focus 

  • Professor Ji’s research primarily concentrates on the design, synthesis, and property studies of porous metal-organic frameworks. She focuses on developing novel MOFs that exhibit ferroelectric and nonlinear optical characteristics. Her work also extends to applied research in energy-related materials, fluorescence-based detection, and electrochemical sensing technologies. Through this research, she aims to bridge fundamental discoveries with practical applications in energy, environmental monitoring, and advanced sensing

Publications

  • Zinc metal-organic framework with high-density free carboxyl oxygen functionalized pore walls for targeted electrochemical sensing of paracetamol
    Authors: Wenjuan Ji
    Journal: Chinese Journal of Inorganic Chemistry, 2024

    Dual Turn-On/Off Fluorescence Sensing in Heterobimetallic MOFs for Ultrasensitive Detection of Multiple Antibiotics
    Authors: Jianli Shi, Bo Yan, Guojiao Wang, Bingqiang Wang, Haiying Yang, Yunlong Fu, Wenjuan Ji
    Journal: Inorganic Chemistry, 2025

Conclusion

  • Through her education, experience, and dedication to innovative research, Professor Wenjuan Ji has established herself as a leading figure in the field of functional materials. Her work with porous metal-organic frameworks represents a significant contribution to material science, offering new directions for applications in energy, sensing, and optical technologies. Her ability to merge theoretical insights with practical applications ensures her continued impact on both academic research and real-world technological advancement.

Xiao Sheng | Drosophila | Young Scientist Award

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Dr. Xiao Sheng | Drosophila | Young Scientist Award 

Sheng Xiao is a researcher at the Navy Medical University specializing in biochemistry and molecular biology. Her work bridges modern biomedical science with traditional Chinese medicine, focusing on aging, cancer development, and intestinal health. She has led projects exploring the molecular mechanisms of herbal compounds and their therapeutic potential, earning recognition such as the Outstanding Poster Award at an international biology congress and the title of “Shizhen” scholar. Actively involved in professional societies and editorial boards, she is recognized as an emerging leader dedicated to advancing innovative, interdisciplinary approaches to human health.

Dr. Xiao Sheng | Naval Medical University School of Pharmacy | China

Profiles

SCOPUS

ORCID

Education

  • Sheng Xiao pursued advanced studies in biochemistry and molecular biology, developing a strong foundation in both theoretical and applied biomedical sciences. Her academic journey has centered on understanding molecular mechanisms that connect human physiology with disease progression. By combining traditional Chinese medicine knowledge with modern molecular biology, she built expertise that enables her to study cellular pathways, signaling networks, and therapeutic interventions for complex health challenges such as aging, cancer, and intestinal disorders.

Experience

  • Sheng Xiao has gained extensive research experience through her leadership and participation in major projects. As a principal investigator, she has guided studies that examine the therapeutic role of Chinese herbal compounds in alleviating aging-related disorders through brain–gut communication and molecular signaling. She has also directed research on the role of nuclear lamina proteins in tumor progression, uncovering insights into mechanisms of cell competition. Beyond her leadership, she has contributed to national programs exploring the pharmacological basis of traditional medicinal plants and the regulation of intestinal stem cell differentiation. Her research career reflects both independent scientific leadership and collaborative excellence.

Awards and Recognition

  • Sheng Xiao’s scientific achievements have been recognized with several important honors. She received the Outstanding Poster Award at an international biology congress, which underscored the significance and clarity of her research contributions. Her innovative work in traditional Chinese medicine earned her recognition at a national forum on basic medical research, where her team achieved third prize in the medicine category. More recently, she was honored as a “Shizhen” scholar, a distinction that highlights her potential as a leader in integrating traditional and modern biomedical research. These recognitions demonstrate her impact within both national and international scientific arenas.

Skills and Expertise

  • Sheng Xiao possesses strong skills in molecular biology, biochemistry, and experimental design. She is adept at investigating signaling pathways that regulate disease progression, with expertise in areas such as cancer development, intestinal mucosal repair, and aging-related conditions. Her research skills include advanced laboratory experimentation, data analysis, and the integration of traditional medicine insights into modern biomedical frameworks. In addition to technical expertise, she has cultivated leadership, scientific writing, and project management abilities, reinforced by her service on editorial boards and professional committees.

Research Focus 

  • The central focus of Sheng Xiao’s research lies at the intersection of molecular biology, biochemistry, and traditional Chinese medicine. She is deeply interested in unraveling how natural compounds derived from herbs regulate cellular signaling pathways such as Keap–Nrf and srebp-mediated processes. Her work highlights the potential of combining ancient medicinal knowledge with cutting-edge molecular biology to address contemporary health challenges. By focusing on tumor biology, intestinal injury, and aging-related disorders, her research aims to translate mechanistic insights into innovative therapies that improve health outcomes.

Publications

  • Unlocking nature’s medicine cabinet through Drosophila–Driven exploration
    Authors: Xiao Sheng, Jianzheng He, Lei Zhang
    Journal: Phytomedicine

  • Werner syndrome exonuclease promotes gut regeneration and causes age-associated gut hyperplasia in Drosophila
    Authors: Kun Wu, Juanyu Zhou, Yiming Tang, Qiaoqiao Zhang, Lishou Xiong, Xiaorong Li, Zhangpeng Zhuo, Mei Luo, Yu Yuan, Xingzhu Liu, Xiao Sheng
    Journal: PLOS Biology

  • Phase separation of BuGZ regulates gut regeneration and aging through interaction with m6A regulators
    Authors: Qiaoqiao Zhang, Kai Deng, Mengyou Liu, Shengye Yang, Wei Xu, Tong Feng, Minwen Jie, Zhiming Liu, Xiao Sheng, Haiyang Chen
    Journal: Nature Communications

  • ClC‐c regulates the proliferation of intestinal stem cells via the EGFR signalling pathway in Drosophila
    Authors: Jinping Huang, Xiao Sheng, Zhangpeng Zhuo, Danqing Xiao, Kun Wu, Gang Wan, Haiyang Chen
    Journal: Cell Proliferation

  • Antioxidant Effects of Caffeic Acid Lead to Protection of Drosophila Intestinal Stem Cell Aging
    Authors: Xiao Sheng, Yuedan Zhu, Juanyu Zhou, La Yan, Gang Du, Zhiming Liu, Haiyang Chen
    Journal: Frontiers in Cell and Developmental Biology

Conclusion

  • Sheng Xiao represents an emerging leader in biomedical research who skillfully blends traditional medicine with modern molecular biology. Her leadership in important projects, recognition through awards, and active roles in professional organizations showcase her growing influence in the scientific community. With strong technical expertise, innovative vision, and dedication to improving human health, she continues to make meaningful contributions that bridge tradition and modern science in pursuit of transformative therapeutic strategies.

Awais Ali | Poultry Nutrition | Best Researcher Award

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Mr. Awais Ali | Poultry Nutrition | Best Researcher Award 

Awais Ali is a dedicated animal nutritionist and veterinary professional with a strong foundation in livestock and poultry science. He combines his role as a PhD candidate at the Chinese Academy of Agricultural Sciences with his service as a Veterinary Officer in Punjab, Pakistan. His expertise spans feed formulation, poultry farm management, and advanced nutritional interventions aimed at improving gut health, productivity, and meat quality. With multiple SCI publications, professional memberships, and notable awards, he continues to make significant contributions to poultry research and livestock development.

Mr. Awais Ali | The Graduate School of Chinese Academy of Agricultural Sciences | China

Profile

GOOGLE SCHOLAR

Education

  • Awais Ali holds a Master of Science (Hons.) in Animal Nutrition from the University of Agriculture Faisalabad. He is currently pursuing his PhD in Animal Nutrition at the Chinese Academy of Agricultural Sciences, where his studies focus on nutrient physiology and the aging process in laying hens. His academic journey is supported by a prestigious fully funded Chinese Government Scholarship, reflecting his academic excellence and research potential.

Experience

  • Awais Ali serves as a Veterinary Officer in the Livestock and Dairy Development Department under the Government of Punjab, Pakistan. His professional expertise covers agriservices, poultry farm management, and feed formulation. In addition to his government service, he has engaged in certified consultancy projects evaluating nutritional additives and supplements for livestock and poultry. His practical and research-based approach bridges the gap between academic findings and industry application.

Awards and Recognition

  • Awais Ali’s achievements include a silver medal for outstanding academic performance in his postgraduate studies and a postgraduate poster competition award for his research presentation. His contributions extend beyond academics, as shown by the Chief Minister Punjab’s certification for volunteer work during a major flood relief camp. These accolades highlight his dedication to both scientific excellence and community service.

Skills and Expertise

  • His core skills include advanced poultry nutrition, feed formulation, livestock health management, and experimental design for animal science research. He has significant experience in assessing the efficacy of nutritional interventions such as amino acids, vitamins, probiotics, and alternative feed ingredients on growth performance, gut health, and meat quality in poultry. His ability to integrate laboratory analysis with field applications makes him a versatile researcher and practitioner in animal nutrition.

Research Focus 

  • Awais Ali’s research centers on enhancing poultry health and productivity through targeted nutritional strategies. His work investigates intestinal inflammaging, microbiota composition, and short-chain fatty acids in laying hens, aiming to prolong their production cycle. He also explores the effects of supplements such as arginine, alpha-ketoglutarate, and palm meal on gut health in both young and aging birds. In broiler production, his studies have demonstrated the tissue-specific lipid metabolism effects of arginine and validated the use of compound probiotics as effective antibiotic alternatives for improving growth and intestinal integrity.

Research Projects

  • Awais Ali has led and contributed to several impactful poultry nutrition projects. His ongoing work evaluates the role of alpha-ketoglutarate in corn-based and palm meal-based diets as an antiaging agent for extending the production cycle of older laying hens. Completed projects include assessing arginine supplementation for tissue-specific lipid metabolism in broilers to enhance meat quality and studying compound probiotics through feed and water routes as antibiotic alternatives to improve growth performance and intestinal health. He has also conducted certified consultancy trials on nutritional additives for pigs and broilers, bridging academic research with industry innovation.

Publications

Emulsifier supplementation response in Ross 308 broilers at 1-10 days
Authors: I Shahid, M Sharif, M Yousaf, F Ahmad, U Anwar, A Ali, M Hussain, …
Journal: Brazilian Journal of Poultry Science

Effect of exogenous emulsifier (lyso-phospholipid) supplementation in the broiler diet on the feed intake and growth performance during grower phase
Authors: I Shahid, M Sharif, M Yousaf, F Ahmad, MR Virk, MQ Bilal, U Anwar, A Ali, …
Journal: Brazilian Journal of Poultry Science

Effect of different levels of energy and lysine on the production performance of laying hens
Authors: M Sharif, A Ali, U Anwar, FA Chisti, S Jameel, MQ Bilal, M Hussain, …
Journal: Pakistan Journal of Agricultural Sciences

Reviving hope: phage therapy application for antimicrobial resistance in farm animal production over the past decade
Authors: M Melaku, J Wang, Y Xie, A Ali, B Yi, T Ma, R Zhong, L Chen, H Zhang
Journal: Animal Feed Science and Technology

Evaluating the efficacy of compound probiotics as an antibiotic alternative: A comprehensive analysis of growth performance and intestinal health via feed and water routes
Authors: T Ma, W Wang, A Ali, C Yin, B Syed, M Mohnl, VA Sattler, S Guan, …
Journal: Animal Nutrition

Conclusion

  • Awais Ali stands out as a skilled and driven researcher whose work addresses key challenges in poultry health, aging, and productivity. His ability to integrate academic research with field-level application ensures that his findings have both scientific value and practical relevance. Through innovative studies on nutritional supplements and antibiotic alternatives, he has contributed to more sustainable and efficient poultry production systems. His achievements, leadership, and dedication to the field make him a valuable asset to both research institutions and the livestock industry.

Feng-Lei Zhu | Neuroscience | Best Researcher Award

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Mr. Feng-Lei Zhu | Neuroscience | Best Researcher Award 

Feng-Lei Zhu, M.Med., is an attending physician and researcher at the Child Developmental and Behavioral Center of The Third Affiliated Hospital, Sun Yat-sen University. Specializing in autism spectrum disorder, Zhu integrates clinical expertise with advanced research in diagnostic innovation, cognitive assessment, and AI-assisted early screening.

Mr. Feng-Lei Zhu | Children Developmental and Behavioral Center, Third Affiliated Hospital of Sun Yat-sen University | China

Profile

SCOPUS

Education

  • Feng-Lei Zhu holds a Master of Medicine degree from Sun Yat-sen University in Guangzhou, China. This advanced medical education provided a strong foundation in pediatric developmental and behavioral health, enabling expertise in both clinical diagnosis and research related to child neurodevelopmental disorders.

Experience

  • Feng-Lei Zhu serves as an attending physician and researcher at the Child Developmental and Behavioral Center of The Third Affiliated Hospital, Sun Yat-sen University. In this role, the work integrates patient care with clinical research, focusing on early detection, accurate diagnosis, and comprehensive management of autism spectrum disorder and related developmental conditions in children.

Awards and Recognition

  • Feng-Lei Zhu has earned competitive funding support from major national and municipal science programs, including the National Natural Science Foundation of China and the Science and Technology Program of Guangzhou. These grants highlight the significance and innovation of the research contributions in the field of child developmental and behavioral medicine.

Skills and Expertise

  • The professional expertise includes advanced clinical diagnostic skills using DSM-5 criteria, ADI-R, and ADOS assessments, along with proficiency in WISC-IV cognitive evaluations. Analytical strengths cover Cox regression, machine learning applications, and multivariate statistical analysis, with extensive experience working with Chinese autism spectrum disorder cohorts ranging from toddlers to adolescents.

Research Focus 

  • Feng-Lei Zhu’s research centers on autism spectrum disorder in children, with a particular emphasis on diagnostic delay, multimodal machine learning tools for early screening, sex differences in symptom presentation, and the relationship between core symptoms and cognitive functioning. The work combines large-scale cohort studies, innovative AI-assisted evaluation methods, and in-depth statistical modeling to advance early diagnosis and improve clinical outcomes for children with autism in China.

Research Projects

  • Feng-Lei Zhu’s research centers on autism spectrum disorder in children, with a particular emphasis on diagnostic delay, multimodal machine learning tools for early screening, sex differences in symptom presentation, and the relationship between core symptoms and cognitive functioning. The work combines large-scale cohort studies, innovative AI-assisted evaluation methods, and in-depth statistical modeling to advance early diagnosis and improve clinical outcomes for children with autism in China.

Publications

Current situation and influencing factors of Chinese children’s diagnosis delay in autism
Authors: Zhu FL, Ji Y, Wang L, et al.
Journal: Journal of Neurodevelopmental Disorders

A multimodal machine learning system in early screening for toddlers with autism spectrum disorders
Authors: Zhu FL, Wang SH, Liu WB, et al.
Journal: Frontiers in Psychiatry

Examine sex differences in ASD in school-aged children with fluent language
Authors: Ji Y, Ji Y, Zhu FL*, et al. 
Journal: Frontiers in Psychiatry

Relationship between core symptoms and IQ in verbally fluent ASD children
Authors: Ji Y, Ji Y, Xu M, Zhu FL*.
Journal: Chinese Journal of Practical Pediatrics

 

Conclusion

  • Feng-Lei Zhu’s integrated approach to clinical care and research has significantly advanced understanding of autism spectrum disorder in Chinese children, bridging gaps between diagnosis, technology, and individualized intervention. By combining rigorous clinical expertise with innovative analytical methods, the work not only addresses critical challenges in early identification but also contributes to shaping evidence-based practices that can improve long-term outcomes for children and their families.

Hua Fan | Medicine | Best Researcher Award

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Mrs. Hua Fan | Medicine | Best Researcher Award 

Fan Hua is an Associate Professor and Head of the Department of Health Statistics at Shandong First Medical University. Holding a Master of Medicine, she has over two decades of experience in teaching and research in preventive medicine and health statistics. She specializes in medical statistics, health data analysis, and epidemiological research, with a focus on chronic non-communicable diseases and congenital malformations. An accomplished educator, she has guided students to success in national and international competitions and has earned multiple awards for teaching excellence and scientific research. She has contributed to key textbooks, led provincial research projects, and remains committed to advancing public health through data-driven approaches.

Mrs. Hua Fan | Shandong First Medical University | China

Profile

SCOPUS

Education

  • Fan Hua holds a Master of Medicine degree and has built a strong academic foundation in preventive medicine and health statistics. This educational background has equipped her with deep expertise in statistical methods, epidemiology, and disease prevention, enabling her to bridge theoretical knowledge with practical application in medical research and teaching.

Experience

  • Fan Hua has served at Shandong First Medical University, formerly Taishan Medical College, for more than two decades. She has been dedicated to teaching and research in preventive medicine and health statistics, instructing undergraduate, postgraduate, doctoral, and international students. Her teaching portfolio includes medical statistics, health statistics, SPSS software, and advanced statistical methods in medicine. She consistently maintains an extensive annual teaching workload, demonstrating her commitment to education and mentorship. Beyond teaching, she has also contributed to curriculum development, guided student research, and promoted the application of statistical tools in healthcare studies.

Awards and Recognition

  • Fan Hua has earned multiple prestigious awards recognizing her excellence in teaching, research, and student mentorship. Her achievements include top honors in national and university-level teaching competitions, as well as recognition for guiding students to success in international academic contests. She has also been honored with provincial and institutional science and technology awards for her contributions to epidemiological research, public health advancement, and medical education. Her work has been acknowledged for both its scientific value and its educational impact.

Skills and Expertise

  • Fan Hua’s core skills span medical statistics, health data analysis, epidemiological research, and statistical software application, particularly SPSS. She is proficient in designing and implementing advanced statistical methods in medical research and is experienced in teaching diverse student groups, including international cohorts. Her ability to integrate theoretical instruction with practical data analysis has made her a respected figure in her field. Additionally, she has strong capabilities in research project management, scientific writing, and academic publication.

Research Focus 

  • Her research primarily centers on epidemiology, particularly the study of chronic non-communicable diseases and congenital malformations. She has explored statistical modeling for health data, genetic and environmental factors influencing disease, and strategies for disease prevention and intervention. Her work also addresses the application of biostatistical methods to medical research and the integration of modern statistical tools into preventive medicine.

Publications

  • Global Evolution and Transmission Dynamics of Enterovirus D68
    Authors: Mengyi Xiao, Zhenzhi Han, …, Fan Hua (Correspondence), et al.
    Journal: Journal of Medical Virology

  • Establishment and application of a highly sensitive universal Real-time RT-PCR detection method for the prevalent genotype of enterovirus D68
    Authors: Xiao Mengyi, Han Zhenzhi, …, Fan Hua (Correspondence), et al.
    Journal: Acta Virologica Sinica

  • The role of cox-2 gene polymorphism and Hp infection in the occurrence and development of esophageal cancer
    Authors: Fan Hua, Li Dong, Zhang Qinfeng
    Journal: Chinese Journal of Preventive Medicine of the PLA

  • The interaction between cox-2 765 gene polymorphism and environmental factors in the pathogenesis of esophageal squamous cell carcinoma
    Authors: Wang Weiwei, Zhang Qinfeng, Xiao Lixia, Fan Hua (Corresponding)
    Journal: Chinese Oncology

  • The application of the flipped teaching method in Health Statistics teaching
    Authors: Zhang Qinfeng, Fan Hua, et al.
    Journal: Chinese Journal of Health Statistics

Conclusion

  • Fan Hua is a dedicated educator, accomplished researcher, and influential academic leader in preventive medicine and health statistics. Her long-standing commitment to teaching excellence, coupled with significant research contributions, reflects her passion for advancing public health through data-driven insights. With her combination of academic expertise, leadership, and mentorship, she continues to play a vital role in shaping the future of health statistics education and research.

Zengchun Hu | Anti-Tumor Therapy | Best Researcher Award

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Prof. Dr. Zengchun Hu | Anti-Tumor Therapy | Best Researcher Award 

Zengchun Hu is a chief neurosurgeon and doctoral supervisor at The Second Affiliated Hospital of Dalian Medical University, specializing in the surgical and comprehensive treatment of gliomas, malignant brain tumors, and cerebrovascular diseases. A doctoral graduate in neurosurgery from Dalian Medical University, he further trained at Beijing Tian Tan Hospital to refine advanced surgical skills. He has contributed extensively to national research projects, published in leading SCI journals, and authored a neurosurgical textbook. His research explores lipid and sugar metabolism, ferroptosis, and targeted therapies in glioma and lung cancer, aiming to develop innovative treatment strategies that improve patient outcomes.

Prof. Dr. Zengchun Hu | The Second Affiliated Hospital of Dalian Medical University | China

Profile

SCOPUS

Education

  • Zengchun Hu earned his doctoral degree in neurosurgery from Dalian Medical University, establishing a strong foundation in surgical techniques and clinical neurology. He further enhanced his expertise through subspecialization training in neurosurgery at Beijing Tian Tan Hospital, where he refined advanced skills in managing complex neurological conditions. His academic journey combined rigorous research engagement with extensive clinical exposure, preparing him for a career at the forefront of neurosurgical innovation.

Experience

  • Currently serving as a chief neurosurgeon and doctoral supervisor at The Second Affiliated Hospital of Dalian Medical University, Zengchun Hu has built a reputation for his precision and dedication in neurosurgical care. He is highly experienced in performing surgeries for gliomas, malignant brain tumors, and cerebrovascular diseases. His surgical proficiency allows him to independently handle a large number of brain tumor operations annually. In addition to his clinical work, he has contributed to multiple national-level research projects and has authored numerous peer-reviewed articles in high-impact scientific journals.

Awards and Recognition

  • Zengchun Hu’s leadership in neurosurgery and his academic contributions have earned him recognition within both clinical and research communities. As the editor-in-chief of a specialized neurosurgical textbook published by Jilin Science and Technology Press, he has contributed to shaping the educational landscape for upcoming neurosurgeons. His appointment as an editorial board member for the Translational Medicine Electronic Journal and his role as a young editor further reflect his standing as a respected thought leader in his field.

Skills and Expertise

  • Zengchun Hu possesses exceptional skills in brain tumor surgery, cerebrovascular disease management, and advanced neurosurgical techniques. His expertise extends to integrating traditional and modern medical approaches in neurosurgical care. He is adept at leading multidisciplinary teams, mentoring doctoral candidates, and translating cutting-edge research findings into practical therapeutic strategies. His academic and clinical synergy ensures comprehensive patient care while advancing neurosurgical science.

Research Focus 

  • Zengchun Hu’s research is centered on the surgical and comprehensive treatment of gliomas and other malignant tumors. He investigates the mechanisms of lipid and sugar metabolism as well as ferroptosis in the development of gliomas and lung cancer. His studies have highlighted the therapeutic potential of targeting SVIP in glioblastoma progression and have revealed the anti-cancer effects of CPP through Nrf2 degradation and ferroptosis sensitization in non-small cell lung cancer. His work aims to develop novel therapeutic strategies that combine surgery with targeted molecular treatments to improve survival and quality of life for cancer patients.

Publications

  • Periplocin potentiates ferroptotic cell death in non-small cell lung cancer by inducing the degradation of Nrf2
    Authors: Jinhao Wang, Yue Zhu, Jialiang Song, Fengping Yang, Peng Wang, Ziyi Zhang, Yuxuan Li, Minghe Dai, Yinuo Wang, Waleed Yousuf, Jiayu Li, Dian Yang, Shaoxuan Cheng, Shuyan Liu, Zhaoxia Dai, Xun Qiu, Yingqiu Zhang, Zengchun Hu
    Journal: Cancer Cell International

  • Mechanism of microRNA-152-3p-Mediated Regulation of Autophagy and Sensitivity in Paclitaxel-Resistant Ovarian Cancer Cells
    Authors: Di Wu, Yang Zhang, Luna Zhang, Wanying Xia, Bingkun Cai, Feihong Dong, Ke Wu, Lichun Cheng, Mingkun Shao, Hui Ma, Zengchun Hu, Huiyi Lu
    Journal: OncoTargets and Therapy

  • SVIP reduces IGFBP-2 expression and inhibits glioblastoma progression via stabilizing PTEN
    Authors: Zixuan Wang, Xiaolong Qiao, Yinan Chen, Nan Peng, Chaoshi Niu, Yang Wang, Cong Li, Zengchun Hu, Caihua Zhang, Chuandong Cheng
    Journal: Cell Death Discovery

  • Pharmacological inhibition of the ubiquitin-specific protease 8 effectively suppresses glioblastoma cell growth
    Authors: Yu Long, Zengchun Hu, Dian Yang, Fuqiang Wang, Chen’ge Zhao, Yang Zhang, Yingqiu Zhang, Hui Ma, Huiyi Lv
    Journal: Open Life Sciences

  • Tanshinone IIA Microemulsion Protects against Cerebral Ischemia Reperfusion Injury via Regulating H3K18ac and H4K8ac In Vivo and In Vitro
    Authors: Hui Ma, Zeng-Chun Hu, Yu Long, Li-Chun Cheng, Chen-Yang Zhao, Ming-Kun Shao
    Journal: American Journal of Chinese Medicine

Conclusion

  • Through his combined roles as a surgeon, educator, and researcher, Zengchun Hu has established himself as a prominent figure in neurosurgery. His work reflects a dedication to improving surgical outcomes, advancing research in cancer treatment, and mentoring the next generation of neurosurgical specialists. By aligning clinical practice with scientific discovery, he continues to make a significant impact in both patient care and medical research.

Shasha Wang | Environmental Science | Best Researcher Award

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Mr. Shasha Wang | Environmental Science | Best Researcher Award 

Shasha Wang is a marine scientist at the Key Laboratory of Marine Biogenetic Resources, Third Institute of Oceanography, Ministry of Natural Resources of China. He holds a PhD in chemical engineering and technology from Huaqiao University and a master’s degree in fishery resources from the Ocean University of China. His research focuses on the energy metabolism, regulation, and survival strategies of dominant chemoautotrophic microorganisms in deep-sea hydrothermal vent ecosystems. He has led and contributed to national research projects, published in leading journals, and is skilled in molecular biology, genomics, and microbial metabolic pathway analysis.

Mr. Shasha Wang | The Third Institute of Oceanography, Ministry of Natural Resources | China

Profile

SCOPUS

Education

  • Shasha Wang built a strong academic background in marine science and chemical engineering. He earned a doctoral degree in chemical engineering and technology from Huaqiao University in China. Before that, he obtained a master’s degree in fishery resources from the Ocean University of China. His academic training provided him with deep knowledge in marine biology, environmental microbiology, and biochemical processes, preparing him for advanced research in extreme marine environments.

Experience

  • Shasha Wang joined the Key Laboratory of Marine Biogenetic Resources at the Third Institute of Oceanography, Ministry of Natural Resources of China, as a postdoctoral researcher. Since then, he has been actively engaged in investigating the energy metabolism and regulatory mechanisms of dominant chemoautotrophic microorganisms in deep-sea hydrothermal vents. He has taken on leadership roles in funded research projects, coordinated multidisciplinary studies, and collaborated with both national and international research teams in marine biotechnology.

Awards and Recognition

  • Shasha Wang has been honored through prestigious research funding, including support from the China Postdoctoral Science Foundation. His ability to secure competitive grants and contribute significantly to national research initiatives highlights his strong research capabilities and respected standing in the field of marine microbiology.

Skills and Expertise

  • He is skilled in microbial cultivation, biochemical assays, and molecular biology methodologies. His expertise includes transcriptome analysis, comparative genomics, and detailed investigations of microbial metabolic pathways. He is adept at designing experiments to explore microbial survival strategies in extreme environments and at interpreting complex biological data.

Research Focus 

  • Shasha Wang’s research is centered on understanding the metabolic regulation and survival strategies of dominant chemolithoautotrophic microorganisms in deep-sea hydrothermal vent ecosystems. His studies explore multi-energy co-utilization mechanisms, desulfurization processes, and microbial adaptation to extreme marine conditions. This work contributes valuable insights to the fields of marine microbiology, environmental biotechnology, and deep-sea ecosystem science.

Publications

Enhanced Autotrophic Denitrification under Salinity Stress by Bioaugmentation of Sulfurimonas: Performance Evaluation, Microbial Community and Response Mechanisms

Authors: Liang Cui, Shasha Wang, Xiaxing Cao, Shicheng Chen, Jiannan Wang, Zhen Chen, Lijing Jiang, Xuezhe Wen, Wanpeng Wang, Qianqian Wang, Zhou Zhou, Suping Yang, Xuesong Yi, Yong Wang, Zongze Shao

Journal: Bioresource Technology

Ultrastructural Variation and Key ER Chaperones Response Induced by Heat Stress in Intestinal Cells of Sea Cucumber Apostichopus japonicus

Authors: Shasha Wang, Yingqiu Zheng, Muyan Chen, Kenneth B Storey

Journal: Journal of Oceanology and Limnology

Elemental Sulfur Reduction by a Deep-Sea Hydrothermal Vent Campylobacterium Sulfurimonas sp. NW10

Authors: Shasha Wang, Lijing Jiang, Qitao Hu, Xuewen Liu, Suping Yang, Zongze Shao

Journal: Environmental Microbiology

Disproportionation of Inorganic Sulfur Compounds by Mesophilic Chemolithoautotrophic Campylobacterota

Authors: Shasha Wang, Lijing Jiang, Shaobin Xie, Karine Alain, Zhaodi Wang, Jun Wang, Delin Liu, Zongze Shao

Journal: mSystems

Transcriptome Analysis of Cyclooctasulfur Oxidation and Reduction by the Neutrophilic Chemolithoautotrophic Sulfurovum indicum from Deep-Sea Hydrothermal Ecosystems

Authors: Shasha Wang, Lijing Jiang, Liang Cui, Karine Alain, Shaobin Xie, Zongze Shao

Journal: Antioxidants

Conclusion

  • With a strong educational foundation, extensive postdoctoral research experience, and proven leadership in funded projects, Shasha Wang has established himself as a capable and dedicated marine scientist. His expertise in microbial metabolism and adaptation in deep-sea environments not only advances scientific understanding but also provides potential applications for environmental management and marine resource utilization.

Keke Nie | Oncology | Best Researcher Award

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Prof. Dr. Keke Nie | Oncology | Best Researcher Award 

Dr. Keke Nie is a dedicated medical oncologist specializing in thoracic radio-oncology. She currently serves as the Director of Oncology at Qingdao Central Hospital, University of Health and Rehabilitation Sciences. With extensive clinical experience in lung and gastrointestinal cancers, she has led numerous research initiatives focused on improving cancer treatment outcomes. Dr. Nie holds an MD from Weifang Medical University and an MS from Qingdao University Medical School. Her expertise spans clinical trial design, surgical procedures, and medical research, making her a key figure in advancing oncology care in China.

Prof. Dr. Keke Nie | Qingdao Central Hospital | China

Profile

SCOPUS

ORCID

Education

  • Dr. Keke Nie pursued her foundational medical training at Weifang Medical University in China, where she earned her medical degree. She continued her academic journey at Qingdao University Medical School, where she completed a master’s program in clinical medicine. Her formal education laid a strong foundation for her clinical practice and research in the fields of thoracic radio-oncology and medical oncology.

Experience

  • Dr. Nie currently serves as the Director of Oncology at Qingdao Central Hospital, affiliated with the University of Health and Rehabilitation Sciences. In this leadership role, she is actively involved in designing and implementing clinical research studies, particularly in lung cancer and gastrointestinal cancer. Prior to this, she worked for over a decade at Qingdao Cancer Hospital and Institute as an attending physician. There, she was responsible for patient care and clinical investigation, with a focus on lung, colon, breast, and ovarian cancers, especially in the post-surgical context. Her career reflects a continuous dedication to cancer treatment and patient-centered care.

Awards and Recognition

  • Dr. Nie’s appointment as Director of Oncology and her long-standing contributions to leading institutions in Qingdao reflect recognition of her clinical excellence and research capability. Her leadership in designing clinical studies indicates the trust placed in her expertise by the medical and scientific community.

Skills and Expertise

  • Dr. Nie is proficient in various software tools essential for medical research and documentation, including Microsoft Office, Sigmaplot, and Photoshop. She has practical knowledge of clinical trial protocols, including the preparation of new drug studies and the development of novel treatment techniques. In addition, she possesses hands-on surgical experience, particularly in general surgery, which supports her work in oncology care.

Research Focus 

  • Dr. Nie’s primary research interests lie in thoracic radio-oncology and medical oncology. She is especially focused on developing clinical research protocols and conducting studies that enhance treatment outcomes for lung and gastrointestinal cancers. Her experience bridges both clinical practice and laboratory-based research, providing her with a comprehensive understanding of cancer therapeutics.

Publications

Guidelines for the use and interpretation of assays for monitoring autophagy (4th edition)
Authors: DJ Klionsky, AK Abdel-Aziz, S Abdelfatah, M Abdellatif, A Abdoli, S Abel, M Shen
Journal: Autophagy

Protective mechanism of FSH against oxidative damage in mouse ovarian granulosa cells by repressing autophagy
Authors: M Shen, Y Jiang, Z Guan, Y Cao, L Li, H Liu, S Sun
Journal: Autophagy

Involvement of the up-regulated FoxO1 expression in follicular granulosa cell apoptosis induced by oxidative stress
Authors: M Shen, F Lin, J Zhang, Y Tang, WK Chen, H Liu
Journal: Journal of Biological Chemistry

miR-26b Promotes Granulosa Cell Apoptosis by Targeting ATM during Follicular Atresia in Porcine Ovary
Authors: F Lin, R Li, ZX Pan, B Zhou, DB Yu, XG Wang, XS Ma, J Han, M Shen
Journal: PLoS One

Melatonin protects mouse granulosa cells against oxidative damage by inhibiting FOXO1-mediated autophagy: Implication of an antioxidation-independent mechanism
Authors: M Shen, Y Cao, Y Jiang, Y Wei, H Liu
Journal: Redox Biology

Conclusion

  • Dr. Keke Nie is a self-motivated and diligent medical professional with extensive experience in thoracic radio-oncology and medical oncology. Her clinical insight, combined with a strong foundation in research and technical skills, makes her a valuable contributor to cancer treatment advancements. With a career marked by commitment to patient care and scientific rigor, she continues to play a pivotal role in shaping clinical oncology research and practice in China.

Ming Shen | Animal Reproduction | Best Researcher Award

Published on by China Scientist

Assoc. Prof. Dr. Ming Shen | Animal Reproduction | Best Researcher Award 

Ming Shen is an Associate Professor at Nanjing Agricultural University specializing in animal reproduction. His research focuses on enhancing pig fertility and growth through innovative strategies targeting oxidative stress, follicular development, and epigenetic regulation. He has led national and provincial projects, authored  SCI papers, and developed patented antioxidant technologies adopted by major livestock enterprises. With number of citations, editorial roles in leading journals, and multiple national science awards, he is recognized for advancing reproductive biology and sustainable livestock production.

Assoc. Prof. Dr. Ming Shen | Nanjing agricultural university | China

Profile

SCOPUS

GOOGLE  SCHOLAR

Education

  • Ming Shen holds a Ph.D. in animal reproduction and developmental biology. His advanced academic training equipped him with a deep understanding of reproductive physiology, molecular biology, and epigenetics, laying the groundwork for his innovative research in livestock fertility and productivity. His education has been fundamental in shaping his interdisciplinary approach that integrates molecular mechanisms with applied animal science.

Experience

  • As an Associate Professor at Nanjing Agricultural University, Ming Shen leads a dynamic research program centered on pig fertility, ovarian biology, and skeletal muscle development. He has secured and executed national and provincial research grants, including prestigious funding from the National Natural Science Foundation and collaborations with industry partners. His long-term cooperation with the Wens Group exemplifies his ability to bridge scientific inquiry with commercial applications, especially in enhancing sow reproductive performance.

Awards and Recognition

  • Ming Shen has received numerous prestigious national science awards recognizing his outstanding contributions to reproductive biology and livestock production. His achievements in the development of patented ovarian antioxidant technology and the formulation of hypoxia-driven follicular atresia theory have been celebrated by academic and industry communities alike. His work has earned widespread citations and elevated him to editorial positions on multiple international journals.

Skills and Expertise

  • Ming Shen’s core expertise lies in animal reproductive physiology, oxidative stress modeling, follicular dynamics, and epigenetic regulation. He is adept in developing translational research platforms, applying advanced molecular techniques to real-world livestock problems. His editorial leadership in journals like Scientific Reports and Frontiers in Cell and Developmental Biology highlights his proficiency in scientific communication, peer review, and publication ethics. His collaborations reflect his skill in interdisciplinary coordination and industry application.

Research Focus 

  • Ming Shen’s research primarily targets animal reproduction, with special emphasis on follicular development, ovarian oxidative stress, and epigenetic regulation of growth. His studies on hypoxia-induced follicular atresia and histone lactylation in skeletal muscle have opened new directions in both reproductive biology and meat science. His “model-mechanism-intervention” framework, particularly involving antioxidant interventions like proanthocyanidin, has transformed productivity practices in swine production.

Publications

Guidelines for the use and interpretation of assays for monitoring autophagy (4th edition)
Authors: DJ Klionsky, AK Abdel-Aziz, S Abdelfatah, M Abdellatif, A Abdoli, S Abel, M Shen
Journal: Autophagy

Protective mechanism of FSH against oxidative damage in mouse ovarian granulosa cells by repressing autophagy
Authors: M Shen, Y Jiang, Z Guan, Y Cao, L Li, H Liu, S Sun
Journal: Autophagy

Involvement of the up-regulated FoxO1 expression in follicular granulosa cell apoptosis induced by oxidative stress
Authors: M Shen, F Lin, J Zhang, Y Tang, WK Chen, H Liu
Journal: Journal of Biological Chemistry

miR-26b Promotes Granulosa Cell Apoptosis by Targeting ATM during Follicular Atresia in Porcine Ovary
Authors: F Lin, R Li, ZX Pan, B Zhou, DB Yu, XG Wang, XS Ma, J Han, M Shen
Journal: PLoS One

Melatonin protects mouse granulosa cells against oxidative damage by inhibiting FOXO1-mediated autophagy: Implication of an antioxidation-independent mechanism
Authors: M Shen, Y Cao, Y Jiang, Y Wei, H Liu
Journal: Redox Biology

Conclusion

  • Ming Shen stands out as a pioneering scientist whose work seamlessly integrates theoretical innovation with practical livestock solutions. His research enhances reproductive efficiency and meat quality while supporting environmental sustainability. With a strong foundation in molecular reproductive biology and a visionary approach to animal science, he is an invaluable contributor to the fields of veterinary medicine and agricultural biotechnology.