Yanchang Wang | Genomics | Best Researcher Award

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Prof. Dr. Yanchang Wang | Genomics | Best Researcher Award

Wuhan Botanical Garden (CAS) | ChinaĀ 

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šŸŒ± PROFESSOR DR. YANCHANG WANG: ADVANCING BOTANICAL RESEARCH AT THE WUHAN BOTANICAL GARDEN, CAS, CHINA šŸŒ

EARLY ACADEMIC PURSUITS šŸŽ“

Prof. Dr. Yanchang Wang embarked on his journey in botanical sciences with a profound passion for plants and their ecological significance. He pursued his undergraduate studies in botany, excelling in plant taxonomy and conservation. His academic drive led him to complete postgraduate education with a focus on molecular biology and its applications in plant sciences, culminating in a doctorate in a prestigious institution.

PROFESSIONAL ENDEAVORS šŸ§‘ā€šŸ”¬

As a Research Scholar at the Wuhan Botanical Garden, Chinese Academy of Sciences (CAS), Dr. Wang has held pivotal roles in fostering scientific excellence. His career has involved mentoring emerging researchers, contributing to critical national projects, and collaborating with international botanical organizations. Dr. Wang's tenure has been marked by groundbreaking studies in plant biodiversity, conservation strategies, and molecular ecology.

CONTRIBUTIONS AND RESEARCH FOCUS ON GENOMICS šŸ”¬

Dr. Wangā€™s research delves into plant-environment interactions, focusing on ecological adaptation, conservation genomics, and the sustainable use of plant resources. His contributions include:

  • Identifying rare plant species and devising strategies for their conservation.
  • Applying advanced molecular techniques to understand plant genetic diversity.
  • Publishing widely on climate-resilient plants and their ecological roles.

IMPACT AND INFLUENCE šŸŒŸ

Dr. Wangā€™s work has had a far-reaching impact on biodiversity conservation, earning him recognition as a thought leader in botanical sciences. He has shaped policies for sustainable ecosystem management, influenced conservation strategies, and fostered awareness on the global significance of plant biodiversity.

ACADEMIC CITATIONS šŸ“š

With numerous high-impact journal publications, Dr. Wang has earned extensive academic citations, reflecting the significance and applicability of his research. His h-index underscores his contributions to the scientific community and the widespread influence of his work on plant sciences and conservation efforts.

LEGACY AND FUTURE CONTRIBUTIONS šŸŒ

Prof. Dr. Yanchang Wangā€™s legacy is defined by his commitment to ecological integrity and the protection of plant biodiversity for future generations. He continues to inspire through innovative research, impactful collaborations, and by empowering the next generation of scientists to address global environmental challenges. His future endeavors promise to further expand knowledge in plant biology, with an emphasis on sustainability and ecological harmony.

NOTABLE PUBLICATIONS šŸ“‘

"Transcriptome analysis identified a transcriptional repressor, BES1-INTERACTING MYC-LIKE1 regulating rapid postharvest fruit softening of Actinidia arguta"Ā 

  • Authors: Wang, J. , Lu, X.-M. , Kuang, M.-M. , Wang, W.-Q. , Wang, Y.-C.
  • Journal: Postharvest Biology and Technology
  • Year: 2024

"Genome assembly of autotetraploid Actinidia arguta highlights adaptive evolution and enables dissection of important economic traits"Ā 

  • Authors: Lu, X.-M. , Yu, X.-F. , Li, G.-Q. , Wu, J.-H. , Wang, Y.-C.
  • Journal: Plant Communications
  • Year: 2024

"Chromosome-level genome of putative autohexaploid Actinidia deliciosa provides insights into polyploidisation and evolution"Ā 

  • Authors: Liu, Y. , Zhou, Y. , Cheng, F. , Quan, Z. , Li, J.
  • Journal: Plant Journal
  • Year: 2024

"Stable plastid transformation in kiwifruit (Actinidia chinensis)"Ā 

  • Authors: Chen, Q. , Wu, Y. , Wang, Y. , Zhang, J. , Li, S.
  • Journal: BIOTECH
  • Year: 2024

"Screening of Kiwifruit Canker Resistance-Related Genes Based on the Transcriptome Sequencing Analysis of Hybrids from Actinidia chinensis"Ā 

  • Authors: Kuang, M. , Li, L. , Ma, J. , Wang, Y. , Liu, S
  • Journal: Acta Horticulturae Sinica
  • Year: 2024

Yongqing Dong | Genetic Diseases | Best Researcher Award

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Assoc. Prof. Dr. Yongqing Dong | Genetic Diseases | Best Researcher Award

Tianjin University | China

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šŸ“– BIOGRAPHY OF YONGQING DONG

šŸŽ“ EARLY ACADEMIC PURSUITS

Yongqing Dongā€™s academic journey began with a focus on social development and public policy, eventually expanding into interdisciplinary fields like labor migration, child development, and health care. His commitment to understanding social dynamics in rural and urban China has laid the groundwork for his distinguished career.

šŸ’¼ PROFESSIONAL ENDEAVORS

  • 2023ā€“Present: Associate Professor, College of Management and Economics, Tianjin University
  • 2018ā€“2023: Assistant Professor, College of Management and Economics, Tianjin University

Dong has cultivated an academic environment that merges policy analysis with real-world applications, fostering innovation and practical solutions to societal challenges.

šŸ”¬ CONTRIBUTIONS AND RESEARCH FOCUS ON GENETIC DISEASES

Yongqing Dong's research investigates pressing social issues, such as the effects of labor migration on childrenā€™s development and healthcare accessibility. His research areas include:

  • Primary Focus: Social development and public policy
  • Secondary Focus:
    • Labor migration and its societal impacts
    • Child development in rural and urban settings
    • Innovations in healthcare systems

His landmark study, "The Long-Term Effect of Parental Migration on the Human Capital Accumulation of Children: Evidence from Rural China," supported by the Humanity and Social Science Youth Foundation of the Ministry of Education of China, underscores his dedication to advancing public knowledge.

šŸŒ IMPACT AND INFLUENCE

Dong's insights into labor migration and its influence on family dynamics have shaped discussions among policymakers and scholars. His work on child development provides critical perspectives for improving education and healthcare systems, particularly in rural China.

šŸ“š ACADEMIC CITATIONS

Yongqing Dongā€™s scholarship has been recognized in highly regarded journals, including:

  • Social Forces
  • China Economic Review
  • Journal of Family Studies
  • Economic Analysis and Policy

Additionally, he contributes as a referee to prominent journals, influencing academic discourse on economics and public health.

šŸ… LEGACY AND FUTURE CONTRIBUTIONS

As an active member of professional associations like the Agricultural & Applied Economics Association (China Section) and the Chinese Economist Society, Yongqing Dong is at the forefront of economic and policy research. His future endeavors will likely further explore how social policies can mitigate inequalities and foster development in underprivileged regions.

Through teaching, mentorship, and groundbreaking research, Dong is shaping the next generation of policymakers and scholars.

šŸ—£ļø LANGUAGES

  • English: Professional working proficiency
  • Mandarin: Native

This biography celebrates Yongqing Dong's commitment to addressing the complexities of societal development through rigorous research and impactful teaching. šŸŒŸ

šŸ“‘Ā NOTABLE PUBLICATIONSĀ 

"The Divergence of Inequality in Healthcare Utilization Between Poor- and Rich-Medical Resource Regions: Evidence from the Middle-Aged and Older Adults in China"Ā 

  • Authors: Fang, Y. , Fu, L. , Xu, Y. , Dong, Y.
  • Journal: Social Indicators Research
  • Year: 2024

"Mediating Effects of Information Access on Internet Use and Multidimensional Health Among Middle-Aged and Older Adults: Nationwide Cross-Sectional Study"Ā 

  • Authors: Fu, L. , Liu, C. , Dong, Y. , Li, D. , Di, K.
  • Journal: Journal of Medical Internet Research
  • Year: 2024

"How does information and communication technology promote tourism development? Evidence from the e-commerce pilot city policy in China"Ā 

  • Authors: Fu, L. , Yang, J. , Dong, Y. , Pei, T.
  • Journal: Tourism Economics
  • Year: 2024

"The healthcare inequality among middle-aged and older adults in China: a comparative analysis between the full samples and the homogeneous population"Ā 

  • Authors: Fu, L. , Fang, Y. , Dong, Y.
  • Journal: Health Economics Review
  • Year: 2022

"The Health Inequality of Children in China: A Regression-Based Decomposition Analysis"Ā 

  • Authors: Dong, Y. , Deng, Q. , Li, S.
  • Journal: Child Indicators Research
  • Year: 2022

Min Li | DNA Sequencing | Best Researcher Award

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Dr. Min Li | DNA Sequencing | Best Researcher Award

Guangxi University | China

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šŸ« EARLY ACADEMIC PURSUITS

Min Li embarked on her academic journey with a Bachelorā€™s degree in Biotechnology from Southwest Forestry University (2008ā€“2009). Demonstrating an early interest in plant biology, she pursued her Ph.D. in Crop Genetics and Breeding at Guangxi University (2015ā€“2020), where she developed expertise in cotton genetics and CMS mechanisms. Her doctoral research laid the foundation for her impactful career in plant genomics.

šŸ’¼ PROFESSIONAL ENDEAVORS

Min Li is currently a Postdoctoral Fellow at Guangxi University. During her postdoctoral fellowship, she has delved deeper into the molecular biology of CMS, focusing on its application in cotton breeding. Her collaborative work and independent projects have solidified her role as a key contributor in the field of plant genetics.

šŸ”¬ CONTRIBUTIONS AND RESEARCH FOCUS ON DNA SEQUENCING

Min Liā€™s research is centered on:

  1. Molecular Mechanisms of Cytoplasmic Male Sterility (CMS):
    She explores the genetic basis of CMS in cotton (Gossypium hirsutum L.), identifying and characterizing CMS-associated genes critical for hybrid seed production.
  2. Functional Validation of Genes:
    Her work extends to validating the roles of CMS genes in male sterility and fertility restoration, offering practical insights for breeding programs.
  3. Hybrid Cotton Breeding:
    Min Liā€™s contributions aim to enhance the efficiency and sustainability of hybrid seed production, addressing challenges in global agriculture.

šŸŒ IMPACT AND INFLUENCE

Min Liā€™s research is instrumental in understanding CMS at a molecular level, contributing to breakthroughs in hybrid breeding technologies. Her work supports the development of high-yielding, stress-resistant cotton varieties, significantly impacting agricultural productivity and sustainability.

šŸ“š ACADEMIC CITES

Min Li has authored several influential publications in the field of plant genetics. Her works are widely cited, reflecting her contributions to advancing CMS research. She has also collaborated on major projects funded by prominent organizations, adding to her academic footprint.

šŸ† RESEARCH GRANTS AND FUNDING

Min Li has successfully secured and participated in various prestigious research projects, including:

  • Principal Investigator:
    • Guangxi Natural Science Foundation of China, 2022GXNSFBA035451 (2022ā€“2025).
    • China Postdoctoral Science Foundation, 2021MD703812 (2021ā€“2023).
  • Collaborator:
    • National Natural Science Foundation of China, Regional Science Fund Project (2021ā€“2024).
    • Guangxi Natural Science Foundation of China, 2017GXNSFA198023 (2017ā€“2020).

šŸ§¬ LEGACY AND FUTURE CONTRIBUTIONS

Min Li envisions leveraging her expertise to further explore genetic mechanisms in plants, with a focus on translating molecular insights into practical breeding applications. Her research has the potential to revolutionize hybrid seed technologies, making agriculture more efficient and resilient to environmental challenges.Ā Her legacy lies in her dedication to understanding and addressing complex genetic challenges, and she continues to inspire the next generation of researchers in plant genetics and genomics.

šŸŒŸ A VISIONARY IN COTTON GENETICS

Min Liā€™s career exemplifies the profound impact of innovative research in genetics and genomics. Through her work, she has positioned herself as a trailblazer in unraveling the complexities of plant molecular biology, paving the way for transformative advancements in global agriculture.

šŸ“‘ NOTABLE PUBLICATIONSĀ 

"Impact of lignin on the starch accumulation, composition, and pasting properties of cassava"Ā 

  • Authors: Cai, Z. , Li, M. , Zhang, F. , Ye, W.-T. , Fan, X.-W.
  • Journal: LWT
  • Year: 2023

"LCā€“MS/MS-based metabolomics approach revealed novel phytocompounds from sugarcane rind with promising pharmacological value"Ā 

  • Authors: Rao, M.J. , Duan, M. , Wei, X. , Hu, L. , Wang, L.
  • Journal: Journal of the Science of Food and Agriculture
  • Year: 2022

"Sugarcane Rind Secondary Metabolites and Their Antioxidant Activities in Eleven Cultivated Sugarcane Varieties"Ā 

  • Authors: Rao, M.J. , Duan, M. , Yang, M. , Li, M. , Wang, L.
  • Journal: Sugar Tech
  • Year: 2022

"Genome-Wide Transcriptomic Analysis Reveals the Gene Regulatory Network Controlled by SRL1 in Regulating Rice Leaf Rolling"Ā 

  • Authors: Li, M. , Li, X. , Zhu, L. , Jin, J. , Wang, J.
  • Journal: Journal of Plant Growth Regulation
  • Year: 2022

"Transcriptomic and Widely Targeted Metabolomic Approach Identified Diverse Group of Bioactive Compounds, Antiradical Activities, and Their Associated Genes in Six Sugarcane Varieties"Ā 

  • Authors: Rao, M.J. , Duan, M. , Wang, J. , Hu, L. , Wang, L.
  • Journal: Antioxidants
  • Year: 2022

Yulian Ding | Molecular Basis of Genetic Disease | Best Researcher Award

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Dr. Yulian Ding | Molecular Basis of Genetic Disease | Best Researcher Award

Shenzhen Institute of Advanced Technology | China

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šŸ§¬ YULIAN DING, PH.D. ā€“ PIONEER IN BIOMEDICAL ENGINEERING AND MACHINE LEARNING

EARLY ACADEMIC PURSUITSšŸŽ“

Yulian Ding embarked on her academic journey with a Bachelor of Science in Computer Science from Luoyang Normal University (2010-2014). Her passion for data science and bioinformatics was further solidified during her Master's degree in Computer Science at Shaanxi Normal University (2014-2017), where she focused on dynamic protein complex identification and essential protein identification through swarm intelligence optimization. Her research, under the guidance of Dr. Xiujuan Lei, shaped her understanding of computational biology and bioinformatics.Ā In 2018, Yulian took her academic prowess to the next level by pursuing a Ph.D. in Biomedical Engineering at the University of Saskatchewan (2018-2022). Under the supervision of Dr. Fang-Xiang Wu, she developed advanced machine learning models to predict biomolecule-disease associations, working with miRNAs, lncRNAs, and circRNA.

PROFESSIONAL ENDEAVORSšŸ§‘ā€šŸ”¬

Upon completing her Ph.D., Yulian Ding transitioned into various research roles that leveraged her expertise in both machine learning and biomedical engineering. From March 2022 to February 2023, she served as an Assistant Researcher at the Center for High Performance Computing, Shenzhen Institute of Advanced Technology, under the prestigious Chinese Academy of Sciences. Her work there focused on drug design and disease biomarker identification using machine learning techniques, contributing to major advancements in protein-ligand interaction prediction.Ā Concurrently, Yulian completed a Postdoctoral Fellowship at the University of Saskatchewanā€™s College of Medicine and Division of Biomedical Engineering. She specialized in bio-data analytics, working on clinical data, particularly in identifying cirRNA biomarkers for cancer.

CONTRIBUTIONS AND RESEARCH FOCUS ON MOLECULAR BASIS OF GENETIC DISEASEšŸ”¬

Yulian Dingā€™s research focuses on biomedical informatics, particularly at the intersection of machine learning and biomolecular interaction. Her key contributions lie in:

  • Developing novel machine learning models for predicting disease-associated biomolecules, including miRNAs, lncRNAs, and circRNA.
  • Drug design and disease biomarker discovery, particularly through the integration of machine learning in protein-ligand interactions.
  • Enhancing the understanding of bio-data analytics in oncology, utilizing vast datasets to identify crucial molecular targets for treatment.

IMPACT AND INFLUENCEšŸŒ

Ding's work has had significant implications in precision medicine, especially in the early detection of diseases through biomarker identification. Her research on biomolecule-disease associations and the use of machine learning for drug discovery has positioned her as a rising leader in the biomedical engineering field. Her collaboration with leading scientists and institutions, including her postdoctoral work, has influenced both academic research and practical applications in biotechnology.

ACADEMIC CITESšŸ“š

Yulian Ding has been recognized for her academic excellence through numerous prestigious awards:

  • Dr. Victor A. Pollak and Mirka B. Pollak Scholarship (2021, University of Saskatchewan)
  • Russell (Russ) William Haid Memorial Award (2020, University of Saskatchewan)
  • Chinaā€™s National Scholarship for Graduate Students (2017)
  • Chinaā€™s National Second Prize of Lanqiao Cup Software Design Competition (2014)
  • ACM Programming Competition Silver Medal (2014)

Her work has been published in leading academic journals and recognized by international peers in the fields of bioinformatics and computational biology. As a journal reviewer for notable journals like Neurocomputing, Knowledge-Based Systems, and PLOS Computational Biology, she has contributed to shaping future research trends.

LEGACY AND FUTURE CONTRIBUTIONSšŸ”®

Yulian Ding's legacy is deeply intertwined with her pioneering work in biomedical engineering. By harnessing the power of machine learning, she has opened new avenues for disease diagnosis and drug development. Her future endeavors are poised to push the boundaries of biomedical innovation, with a continued focus on applying computational intelligence to solve biomedical challenges. Through ongoing research and collaboration, Yulian will undoubtedly remain at the forefront of biomedical science, contributing to innovations that bridge the gap between computation and medicine.

Ā FINAL THOUGHTSšŸ…

Yulian Ding's academic journey, professional achievements, and innovative research establish her as a significant figure in biomedical engineering. Her work continues to make impactful contributions to precision medicine and biomedical informatics, shaping the future of healthcare through cutting-edge machine learning applications.

NOTABLE PUBLICATIONSšŸ“‘

"MRDPDA: A multi-Laplacian regularized deepFM model for predicting piRNA-disease associations"Ā 

  • Authors: Liu, Y. , Zhang, F. , Ding, Y. , Li, J. , Wu, F.-X.
  • Journal: Cellular and Molecular Medicine
  • Year: 2024

"P4PC: A Portal for Bioinformatics Resources of piRNAs and circRNAs"Ā 

  • Authors: Liu, Y., Li, R., Ding, Y., Hei, X., Wu, F.-X.
  • Journal: Bioinformatics
  • Year: 2024

"Negative sample selection for miRNA-disease association prediction models"Ā 

  • Authors: Ding, Y. , Wang, F. , Zhang, Y. , Wu, F.-X.
  • Journal: Machine Learning Methods for Multi-Omics Data Integration
  • Year: 2023

"Biomarker Identification via a Factorization Machine-Based Neural Network With Binary Pairwise Encoding"Ā 

  • Authors: Ding, Y. , Lei, X. , Liao, B. , Wu, F.-X
  • Journal: IEEE/ACM Transactions on Computational Biology and Bioinformatics
  • Year: 2023

"MLRDFM: a multi-view Laplacian regularized DeepFM model for predicting miRNA-disease associations"Ā 

  • Authors: Ding, Y. , Lei, X. , Liao, B. , Wu, F.-X
  • Journal: Briefings in Bioinformatics
  • Year: 2022

Chunsik Shim | Genetics and Genomics of Disease | Best Researcher Award

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Prof Chunsik Shim | Genetics and Genomics of Disease | Best Researcher Award

Mokpo National University | South Korea

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EARLY ACADEMIC PURSUITS

Shim Chun-Sik embarked on his academic journey by obtaining a Bachelor of Science in Naval Architecture and Ocean Engineering from Inha University, Korea, in 1995. This laid the foundation for his subsequent academic and professional achievements.

PROFESSIONAL ENDEAVORS

Shim's career trajectory included significant roles in academia and industry. Notably, he served as a Chief Engineer at Daewoo Shipbuilding and Marine Engineering Co., LTD. from 2003 to 2006, contributing to the practical aspects of shipbuilding and marine engineering. His tenure as a Research Scholar at Washington State University Vancouver from 2011 to 2013 broadened his international exposure and collaboration.

CONTRIBUTIONS AND RESEARCH FOCUS ON GENETICS AND GENOMICS OF DISEASE

Shim Chun-Sik's contributions spanned a wide array of research domains, primarily focusing on fatigue testing, material evaluation, and structural analysis. Noteworthy projects include the assessment of low-temperature strength for 3.5% Nickel Steel and the study of structural characteristics of tower flange connections in offshore wind turbine systems. His research endeavors significantly advanced the understanding and practical applications of materials and structures in marine and offshore environments.

IMPACT AND INFLUENCE

Shim's work has had a substantial impact on the field of naval architecture and marine engineering, particularly in the areas of fatigue testing, material characterization, and structural analysis. His research outcomes have informed industry practices, contributing to the development of safer and more efficient marine and offshore structures.

ACADEMIC CITATIONS

Shim Chun-Sik's scholarly contributions have garnered recognition and citations within the academic community. His publications in reputable journals and presentations at international conferences have enriched the body of knowledge in naval architecture and marine engineering.

LEGACY AND FUTURE CONTRIBUTIONS

As a Director at the SURF R&D Center of Mokpo National University and a Professor in the Department of Naval Architecture & Marine Engineering, Shim continues to inspire and mentor the next generation of researchers and engineers. His legacy lies in his dedication to advancing the field through rigorous research, industry collaboration, and academic leadership. In the future, Shim's contributions are expected to further propel innovation and excellence in naval architecture and marine engineering.

HIGHLIGHTS

  • Diverse expertise in fatigue testing, material evaluation, and structural analysis.
  • Extensive professional experience in both academia and industry.
  • Significant contributions to advancing knowledge and practice in naval architecture and marine engineering.
  • Ongoing commitment to mentoring and fostering academic and industrial collaboration.

Notable Publications

Bearing strength of interference-fit pin joined glass fiber reinforced plastic composites 2020

Structural Safety Assessment of Lift Apparatus on Jack-Up Barge for Eco-Friendly Offshore Installation 2021

Bearing strength of interference-fit pin joined glass fiber reinforced plastic composites 2020(16)

Integrated simulation framework for offshore installation operations considering various ocean environment 2018(3)

Dynamic analysis of offshore structure installation operation using dual floating cranes based on multibody system dynamics 2016(3)

Jinghan Song | Bioactive Materials and Genomic Research | Best Scholar Award

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Ms. Jinghan Song | Bioactive Materials and Genomic Research | Best Scholar Award

The Fourth Military UniversityĀ  | China

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EARLY ACADEMIC PURSUITS

Jinghan Song demonstrated exceptional academic prowess early on, laying a solid foundation during their undergraduate studies at Xiā€™an Jiaotong University. With a Bachelor of Science in Medicine, Jinghan excelled in major courses such as Bioinformatics, Physiology, Immunology, and Pathology, achieving an impressive average score of 90.1/100.

PROFESSIONAL ENDEAVORS

Building upon their undergraduate success, Jinghan pursued a Master of Science in Medicine at The Fourth Military Medical University. Throughout their academic journey, they delved into advanced topics including Advances in Cell Biology, Electron Microscopy, and Tissue Engineering and Regenerative Medicine. Their commitment to excellence is evident in their remarkable average score of 85.47/100.

CONTRIBUTIONS AND RESEARCH FOCUS ON BIOACTIVE MATERIALS AND GENOMIC RESEARCH

Jinghan has contributed significantly to the field of biomedical research, notably as a member of projects focusing on innovative materials and their applications. Noteworthy projects include the development of collagen materials cross-linked with DNA and the preparation method and application of polyphosphate modified collagen material. These endeavors underscore Jinghan's dedication to advancing biomedical science through innovative research.

IMPACT AND INFLUENCE

Jinghan's research has garnered attention within the academic community, as evidenced by their participation in prestigious academic conferences such as the 25th Academic Conference of Chinese Stomatological Association, where they presented posters and gave oral presentations. Their contributions have earned them recognition, including the First Prize for Poster at the aforementioned conference.

ACADEMIC CITATIONS

Jinghan's work has the potential for significant academic impact, as indicated by their involvement in patent projects and participation in academic conferences. Their research outputs may serve as valuable references for future studies in the fields of biomaterials and regenerative medicine.

LEGACY AND FUTURE CONTRIBUTIONS

As an outstanding graduate of Xiā€™an Jiaotong University and a recipient of multiple scholarships and awards, Jinghan is poised to make enduring contributions to the field of medicine and biomedical research. Their dedication to academic excellence and innovative research methodologies positions them as a promising scholar with the potential to shape the future of healthcare and biotechnology.

Notable Publications

Advances in materials-based therapeutic strategies against osteoporosis 2023(20)

Engineered extracellular vesicles: Regulating the crosstalk between the skeleton and immune system 2022(7)

Inflammation-associated ectopic mineralization 2023(1)