Lina Yu | Materials Science | Best Researcher Award

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Assoc. Prof. Dr. Lina Yu | Materials Science | Best Researcher Award

Ph.D. at The University of Osaka, Japan

Dr. Lina Yu is an accomplished materials science and engineering expert whose work bridges advanced welding technologies with practical industrial applications. Currently serving as an Associate Professor (Specially Appointed) at Osaka University, she specializes in welding and joining engineering, maintenology techniques, microstructure control, and the development of high-performance structural and functional materials. Her research integrates innovative methods such as temper bead welding, residual stress improvement, and stress corrosion cracking prevention with predictive modeling using neural networks. Over her career, she has contributed significantly to nuclear power plant safety, advanced manufacturing, and metallurgy. She has published widely in high-impact journals, presented at international conferences, and earned prestigious awards for her contributions. In addition to academic excellence, Dr. Yu is an active mentor, collaborator, and community contributor, fostering cross-cultural scientific engagement. Her multidisciplinary approach and proven leadership make her a key figure in advancing global research in materials engineering.

Professional Profile 

Scopus Profile | ORCID Profile 

Education

Dr. Yu completed her undergraduate, master’s, and doctoral studies in materials science and engineering at Shandong University, China. During her academic training, she focused on materials processing engineering, with a particular emphasis on light metals technology and the behavior of submicron intermetallic particles in molten aluminum alloys. Her graduate research laid a strong foundation for her later work in welding and joining technologies, as it provided deep insight into material properties, microstructural evolution, and fabrication processes. She developed a strong theoretical base in metallurgy, combined with practical experimental skills, enabling her to conduct research applicable to industrial needs. This academic path not only honed her expertise in materials science fundamentals but also nurtured her capacity for problem-solving, interdisciplinary integration, and innovative thinking. The comprehensive training she received has been instrumental in her subsequent research achievements and her ability to lead complex engineering projects on an international scale.

Experience

Dr. Yu’s professional career spans academic research, international collaboration, and advanced materials engineering applications. She began as a post-doctoral researcher at Osaka University, where she explored cutting-edge welding methods such as fiber laser welding, friction stir welding, and hybrid welding techniques. Progressing to Assistant Professor and later Associate Professor (Specially Appointed), she expanded her research into nuclear power plant safety, studying temper bead welding, stress corrosion cracking mitigation, and long-term residual stress stability. She has successfully led multiple large-scale research projects, collaborating with teams in Japan, China, and beyond, and her work has influenced industrial standards for metallic material fabrication and maintenance. In addition to research, she plays an active role in mentoring students, guiding experimental projects, and fostering cross-disciplinary knowledge exchange. Her combined academic and applied engineering experience demonstrates a rare ability to translate theoretical advances into industrially relevant, globally impactful solutions in materials science and manufacturing engineering.

Research Interest

Dr. Yu’s research interests lie at the intersection of advanced welding technology, material behavior analysis, and structural performance enhancement. She focuses on welding and joining engineering, including temper bead welding, friction stir welding, and laser welding techniques, with the goal of improving the reliability and longevity of structural materials. She is particularly interested in stress corrosion cracking in stainless steel welds, residual stress improvement methods for Ni-based alloys, and predictive modeling of mechanical properties using artificial intelligence and neural networks. Her work integrates experimental analysis with simulation-based approaches to optimize material fabrication and microstructure control. In addition, she explores maintenology techniques aimed at ensuring the safety and performance of critical industrial components, especially in energy and nuclear sectors. By combining metallurgical science with manufacturing innovation, her research aims to develop high-performance materials and processes that meet the evolving demands of modern engineering applications across multiple industries.

Awards and Honors

Dr. Yu has received multiple prestigious awards recognizing her research excellence, academic contributions, and professional achievements. Among her honors is the Best Paper Award from the Japan Society of Maintenology, acknowledging her impactful work in material performance improvement. She has also earned international recognition through awards at global conferences such as WSE and CAWE, highlighting her contributions to welding and materials science. In addition to academic accolades, she has been recognized for outstanding presentations, reflecting her ability to communicate complex scientific concepts effectively. Her early academic excellence was marked by several scholarships and merit-based honors during her university years, which reinforced her commitment to research excellence. Beyond her professional work, she has demonstrated leadership and team spirit through competitive sports achievements, winning championships in badminton at both city and regional levels. These combined accomplishments illustrate her dedication, versatility, and ability to excel across professional, academic, and community domains.

Research Skills

Dr. Yu possesses a broad range of research skills spanning experimental, analytical, and computational domains. She is proficient in advanced welding techniques such as fiber laser welding, friction stir welding, TIG welding, and hybrid welding systems, enabling her to engineer high-performance joints and structures. Her expertise extends to microstructural characterization, metallurgical analysis, and residual stress evaluation using cutting-edge equipment and methods. She is skilled in predictive modeling of material properties using neural networks and simulation tools, integrating data-driven approaches with empirical research. Her project management skills include planning and executing large-scale, multidisciplinary research initiatives, often involving cross-border collaborations. She is adept at interpreting experimental results, optimizing fabrication processes, and translating findings into practical industrial applications. In addition, she demonstrates strong technical writing, publication, and presentation skills, contributing to knowledge dissemination in reputable journals and international conferences. This combination of technical expertise and collaborative ability defines her as a highly effective researcher.

Publications Top Notes

Title: A study on annealing temperature in FEM simulation of residual stress in SUS316 weld
Year: 2025
Journal: International Journal of Pressure Vessels and Piping

Title: A Phenomenon of Low-Temperature Precipitation Hardening in Heat-Affected Zone of Austenitic Stainless Steel Welds
Year: 2025
Journal: Metallurgical and Materials Transactions A Physical Metallurgy and Materials Science

Conclusion

Dr. Lina Yu’s outstanding career trajectory, marked by innovative welding technologies, long-term materials performance studies, and strong cross-border collaborations, makes her a compelling candidate for the Best Researcher Award. Her work has contributed directly to industrial safety, advanced manufacturing processes, and the development of next-generation structural materials. With her proven leadership, dedication to research excellence, and commitment to mentoring young scientists, Dr. Yu not only exemplifies technical expertise but also has the vision and capability to make future breakthroughs in materials science and engineering on a global scale.

 

Jihao Li | Materials Science | Best Researcher Award

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Dr. Jihao Li | Materials Science | Best Researcher Award

Associate Researcher at Shanghai Institute of Applied Physics, Chinese Academy of Sciences, China

Dr. Jihao Li is an Associate Researcher at the Shanghai Institute of Applied Physics, Chinese Academy of Sciences, specializing in radiation chemistry and irradiation technology for material modification. He earned his Ph.D. from the University of Chinese Academy of Sciences in 2014 and has since led groundbreaking research in environmental applications, including solar-driven desalination and wastewater treatment. With over 60 SCI-indexed publications, 1,900 citations, and 12 Chinese invention patents, his work has made significant scientific and practical contributions. He serves as a guest editor for Gels, a reviewer for Advanced Materials and Materials Letters, and is actively involved in professional committees. Recognized with multiple awards, he has delivered invited talks at international conferences. His expertise and leadership in innovative material applications position him as a strong contender for the Best Researcher Award, with potential for further impact through enhanced industry collaborations and expanded research outreach.

Professional Profile 

Education

Dr. Jihao Li earned his Ph.D. from the University of Chinese Academy of Sciences in 2014, specializing in radiation chemistry and material modification. His academic journey provided him with a strong foundation in applied physics and chemical engineering, equipping him with expertise in advanced irradiation technologies. Throughout his education, he focused on the intersection of chemistry and material science, leading to significant contributions in environmental remediation and nanomaterial applications. His doctoral research laid the groundwork for his current studies in solar-driven desalination, photocatalysis, and radiation-induced material modifications. Since completing his Ph.D., he has continued to expand his knowledge through interdisciplinary collaborations and professional development. His educational background, combined with extensive research experience, has positioned him as a leading expert in his field, contributing to numerous high-impact scientific publications, patents, and innovations that address critical global challenges such as water purification and environmental sustainability.

Professional Experience

Dr. Jihao Li has been an Associate Researcher at the Shanghai Institute of Applied Physics, Chinese Academy of Sciences, since 2014, where he leads the Radiation Chemistry and Applications group. With over a decade of professional experience, he has focused on the application of radiation chemistry and irradiation technology in material preparation and modification. His research has resulted in over 60 SCI-indexed publications, 12 Chinese invention patents, and numerous international collaborations. He serves as a guest editor for Gels and a reviewer for Advanced Materials and Materials Letters, highlighting his influence in the scientific community. Additionally, he is a council member of the China Nuclear Society’s Radiation Research and Application Branch and an active contributor to national standards for insulation materials. His expertise in photothermal desalination and wastewater treatment has led to significant advancements in environmental sustainability, making him a recognized leader in his field.

Research Interest

Dr. Jihao Li’s research interests lie at the intersection of radiation chemistry, material science, and environmental sustainability. His work primarily focuses on the application of irradiation technology for material preparation and modification, with a particular emphasis on developing innovative solutions for water purification and desalination. He explores solar-driven evaporation systems, photothermal catalysis, and nanomaterial-based wastewater treatment to address global water scarcity and pollution challenges. His recent research integrates reduced graphene oxide (rGO) and Ti₃C₂ MXene-based hydrogels to enhance solar evaporation efficiency and degrade organic pollutants. Additionally, he investigates radiation-induced structural modifications in polymers and composites for advanced industrial applications. His expertise extends to thermal shrinkage materials, nuclear radiation shielding, and functional coatings, demonstrating his commitment to both fundamental and applied research. Through interdisciplinary collaboration and technological innovation, Dr. Li aims to develop sustainable materials that contribute to environmental protection and resource management.

Award and Honor

Dr. Jihao Li has received multiple awards and honors in recognition of his significant contributions to radiation chemistry, material science, and environmental research. His innovative work in solar-driven desalination, photocatalysis, and wastewater treatment has earned him two prestigious research awards, highlighting his impact in both academic and applied fields. As an invited speaker at 10 international conferences, he has shared his expertise on radiation-induced material modification and sustainable water purification technologies. Additionally, his role as a council member of the China Nuclear Society’s Radiation Research and Application Branch and a committee member for national insulation materials standards underscores his leadership in scientific research and policy development. His editorial appointments in renowned journals such as Gels, along with his role as a reviewer for Advanced Materials and Materials Letters, further validate his standing as a respected scientist. His growing recognition showcases his influence in the global scientific community.

Research Skill

Dr. Jihao Li possesses strong research skills in radiation chemistry, material science, and environmental applications, with expertise in developing irradiation-based material modifications for practical use. His proficiency in nanomaterial synthesis, photothermal catalysis, and polymer engineering enables him to create advanced functional materials for water purification, desalination, and pollutant degradation. He is skilled in radiation-induced structural modifications, which he applies to enhance material properties for industrial and environmental applications. His analytical skills include spectroscopic analysis, electron microscopy, and thermal characterization techniques, allowing him to investigate material behaviors at the molecular level. Additionally, he excels in experimental design, project management, and interdisciplinary collaboration, contributing to the success of numerous research projects. With over 60 SCI publications, 12 patents, and extensive peer-review experience, Dr. Li demonstrates a high level of scientific rigor, innovation, and problem-solving ability, making him a leading researcher in applied chemistry and material science.

Conclusion

Dr. Jihao Li has strong research credentials, significant scientific contributions, and practical innovations in applied chemistry and environmental science. His work in solar-driven desalination and wastewater treatment is impactful. While there are areas for further development in industry collaborations and book publications, his achievements make him a highly suitable candidate for the Best Researcher Award.

Publications Top Noted

  • Ion sieving in graphene oxide membranes via cationic control of interlayer spacing

    • Year: 2017
    • Citations: 1,568

  • Salt‐induced fabrication of superhydrophilic and underwater superoleophobic PAA‐g‐PVDF membranes for effective separation of oil‐in‐water emulsions

    • Year: 2014
    • Citations: 765

  • Measurements of Higgs boson properties in the diphoton decay channel with pp collision data at with the ATLAS detector

    • Year: 2018
    • Citations: 605

  • Search for new phenomena in dijet events using pp collision data collected at with the ATLAS detector

    • Year: 2017
    • Citations: 524

  • Ultra-light, compressible and fire-resistant graphene aerogel as a highly efficient and recyclable absorbent for organic liquids

    • Year: 2014
    • Citations: 459

  • Volume I. Introduction to DUNE

    • Year: 2020
    • Citations: 452

  • Measurement of the Ratio of Branching Fractions B (B c+→ J/ψ τ+ ν τ)/B (B c+→ J/ψ μ+ ν μ)

    • Year: 2018
    • Citations: 397

  • A robust polyionized hydrogel with an unprecedented underwater anti‐crude‐oil‐adhesion property

    • Year: 2016
    • Citations: 385

  • Laundering durability of superhydrophobic cotton fabric

    • Year: 2010
    • Citations: 351

  • Layer‐by‐Layer Construction of Cu²⁺/Alginate Multilayer Modified Ultrafiltration Membrane with Bioinspired Superwetting Property for High‐Efficient Crude‐Oil-in-Water Emulsion Separation

    • Year: 2018
    • Citations: 316

  • Self-sensing, ultralight, and conductive 3D graphene/iron oxide aerogel elastomer deformable in a magnetic field

    • Year: 2015
    • Citations: 311

  • Measurement of inclusive and differential cross sections in the H → ZZ * → 4ℓ decay channel in pp collisions at TeV with the ATLAS detector

    • Year: 2017
    • Citations: 283

  • Graphene oxide‐based antibacterial cotton fabrics

    • Year: 2013
    • Citations: 265

Ayesha Mushtaq | Materials Science| Best Researcher Award

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Dr. Ayesha Mushtaq | Materials Science| Best Researcher Award

Research Assistant at University of Gujrat in Pakistan

Dr. Ayesha Mushtaq is a dedicated researcher specializing in nanomaterials, photocatalysis, and environmental sustainability. With a strong academic background and a current role as a Higher Education Research Assistant at the University of Gujrat, Pakistan, Dr. Mushtaq’s work focuses on synthesizing and characterizing advanced nanomaterials for applications in photocatalytic wastewater treatment and energy production. Her MPhil research on MoS2-based nanomaterials highlights her innovative approach to optimizing photocatalytic performance, and her publications reflect significant contributions to the fields of sustainable energy and environmental remediation. Dr. Mushtaq’s expertise extends to UV-Visible Spectroscopy and COMSOL Multiphysics, underscoring her technical proficiency. Her ongoing projects, including a HEC-funded initiative on photocatalytic reactors, and her forthcoming publications, including a book on noble metal nanoparticles, showcase her commitment to advancing scientific knowledge and addressing critical environmental challenges.

Profile

Education

Dr. Ayesha Mushtaq has a distinguished educational background that has significantly contributed to her expertise in nanomaterials and photocatalysis. She is currently pursuing an MPhil in Physics at the University of Gujrat, Pakistan, where she has achieved an impressive final grade of 3.72. Her thesis, titled “Investigation of MoS2-Based Nanomaterials for Efficient Photocatalytic Performance,” reflects her deep engagement with optimizing photocatalytic properties and advancing nanomaterial technology. Prior to her MPhil, Dr. Mushtaq earned her BS Hons in Physics from the University of Central Punjab, Lahore, with a final grade of 3.58. Her academic journey is complemented by her ongoing role as a Research Assistant under the HEC-funded project at the University of Gujrat, further emphasizing her commitment to practical research and technological innovation. This robust educational foundation underpins her significant contributions to the field of nanotechnology and sustainable energy.

Professional experience

Dr. Ayesha Mushtaq is an accomplished researcher with a focus on nanomaterials, photocatalysis, and environmental sustainability. Since July 2023, she has served as a Higher Education Research Assistant at the University of Gujrat, Pakistan, where she has been instrumental in synthesizing and characterizing WO3 and WO3-based nanomaterials. Her role involves designing and manufacturing photocatalytic reactors and applying these materials to treat industrial wastewater. Dr. Mushtaq’s work includes optimizing photocatalytic performance for the degradation of organic pollutants. Prior to this, she earned her MPhil in Physics from the University of Gujrat, where her thesis focused on MoS2-based nanomaterials and their photocatalytic properties. Her professional experience is complemented by her involvement in several high-impact research projects and publications, demonstrating her significant contributions to sustainable technologies and environmental remediation. Her technical expertise and dedication make her a leading figure in her research field.

Research interest

Dr. Ayesha Mushtaq’s research interests are centered on advancing the field of nanomaterials and their applications in environmental and energy technologies. Her work primarily focuses on the synthesis, characterization, and application of various nanomaterials, including photocatalysts and supercapacitor electrode materials. Dr. Mushtaq explores the potential of nanomaterials in photocatalysis for effective degradation of organic pollutants and wastewater treatment. Her research also delves into the development of innovative materials for hydrogen production and energy storage, emphasizing the optimization of their structural and electronic properties. Additionally, she investigates antimicrobial activities of nanomaterials and their impact on sustainability. With a strong background in COMSOL simulation, Dr. Mushtaq integrates computational models with experimental data to enhance the efficiency of these materials. Her interdisciplinary approach aims to address critical environmental challenges and contribute to the advancement of sustainable energy technologies.

Research skill

Dr. Ayesha Mushtaq has demonstrated exceptional research skills throughout her academic and professional career. Her expertise in synthesizing and characterizing advanced nanomaterials, particularly for photocatalytic applications, reflects her strong command of both theoretical and experimental techniques. Dr. Mushtaq’s proficiency in designing and manufacturing photocatalytic reactors underscores her capability in practical research implementation, bridging the gap between laboratory findings and real-world applications. Her technical skills are further highlighted by her adept use of advanced tools such as UV-Visible Spectroscopy and COMSOL Multiphysics for detailed material analysis and simulation. Her published work, including innovative studies on MoS2-based nanocomposites and sustainable energy technologies, showcases her ability to contribute significantly to her field. Dr. Mushtaq’s research is marked by a rigorous approach to optimization and a commitment to addressing pressing environmental challenges through novel solutions.

Award and recognition

Dr. Ayesha Mushtaq has garnered significant recognition for her pioneering contributions to the fields of nanomaterials and photocatalysis. Her innovative research on MoS2-based nanomaterials and photocatalytic applications has been widely acknowledged, reflected in multiple high-impact publications and ongoing projects. Dr. Mushtaq’s dedication to advancing sustainable technologies and wastewater treatment has earned her accolades within the scientific community. Her role in designing and implementing advanced photocatalytic reactors, alongside her expertise in UV-Visible Spectroscopy and COMSOL Multiphysics, underscores her technical proficiency and research excellence. The prestigious Research for Best Researcher Award is a testament to her outstanding achievements and her commitment to addressing pressing environmental and energy challenges. Her work not only advances scientific knowledge but also contributes significantly to practical solutions, marking her as a leading researcher in her field.

Conclusion

Ayesha Mushtaq is an exceptional candidate for the Research for Best Researcher Award due to her innovative contributions to nanomaterials and photocatalysis. Her robust publication record, technical expertise, and commitment to addressing critical environmental and energy challenges position her as a leading researcher in her field. With some strategic enhancements in collaboration and visibility, Ayesha is well on her way to making a significant impact on both academic research and practical applications.

Publication top notes

Title: Enhancing apple shelf life: A comparative analysis of photocatalytic activity in pure and manganese-doped ZnO nanoparticles
Authors: T. Iqbal, M. Afzal, B. A. Al-Asbahi, S. Afsheen, I. Maryam, A. Mushtaq, S. Kausar, …
Journal: Materials Science in Semiconductor Processing
Volume: 173
Article Number: 108152
Year: 2024
Citations: 9

Jilong Wang | Material Science | Best Researcher Award

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Assoc. Prof. Dr. Jilong Wang | Material Science | Best Researcher Award

Associate Professor of Wenzhou Institute of Science and Technology, China

Dr. Jilong Wang 👨‍🔬 is an Associate Professor at the Wenzhou Institute, University of Chinese Academy of Sciences, in Wenzhou, China 🇨🇳. With a Ph.D. from the School of Life Sciences at the University of Science and Technology of China (USTC) and a B.S. in Biomedical Engineering from Tianjin Medical University, Dr. Wang has a robust background in biomedical sciences 🎓. He completed his postdoctoral research at the South China University of Technology (SCUT), focusing on biodegradable nanomaterial-based drug delivery systems. His research aims to develop innovative therapies for malignant, infectious, and immune-related diseases, emphasizing tumor vaccine immunotherapy, cancer stem cell-targeted therapy, and anti-infective treatments 💉.

Professional profile
Education🎓

Dr. Jilong Wang’s educational journey 👨‍🎓 is marked by significant achievements and dedication to the field of biomedical sciences. He earned his Ph.D. from the School of Life Sciences at the University of Science and Technology of China (USTC) in 2018 🎓. Prior to that, he completed his B.S. in Biomedical Engineering at Tianjin Medical University in 2013 🎓. During his postdoctoral research fellowship at the School of Biomedical Sciences and Engineering, South China University of Technology (SCUT) from 2018 to 2020 🧪, he further honed his expertise in biodegradable nanomaterial-based drug delivery systems. Dr. Wang’s academic background has laid a solid foundation for his pioneering research in targeted therapies for malignant, infectious, and immune-related diseases 📚.

Professional Experience🏛️

Dr. Jilong Wang’s professional experience spans significant roles in prestigious institutions 🏛️. Since April 2020, he has been serving as an Associate Professor at the Wenzhou Institute, University of Chinese Academy of Sciences 🧑‍🏫. Prior to this, he was a Postdoctoral Research Fellow at the School of Biomedical Sciences and Engineering, South China University of Technology (SCUT) from June 2018 to April 2020 🔬. Dr. Wang’s professional journey is characterized by his commitment to advancing research in biodegradable nanomaterial-based drug delivery systems, with a focus on developing targeted therapies for malignant, infectious, and immune-related diseases 🧪. His roles have enabled him to contribute significantly to the field, driving innovation and research excellence 🌟.

Research Interest🌐

Dr. Jilong Wang’s research interests are centered around developing innovative biodegradable nanomaterial-based drug delivery systems 🎯. His work primarily focuses on targeted therapies for malignant, infectious, and immune-related diseases. He is particularly interested in tumor vaccine immunotherapy, cancer stem cell (CSC)-targeted therapy, and anti-infective therapy 💉. Dr. Wang aims to design nanoparticle systems for drug delivery to tumor-associated cells and tumor-initiating cells by leveraging their sensitivity to tumor microenvironments 🦠. Additionally, he explores intelligent polymeric nanoparticles for differential drug delivery and novel degradable polymers as nanomedicines for biomedical applications 🌐. His research is driven by the goal of creating effective and precise treatments for complex diseases, enhancing the efficacy and safety of therapeutic interventions 🌟.

Awards and Honors🏆

Dr. Jilong Wang has been recognized for his significant contributions to biomedical research with several prestigious awards and honors 🏆. He received the General Project of China Postdoctoral Science Foundation (2018.11-2020.05) 🎓, and the General Project of Natural Science Foundation of Guangdong Province (2019.10-2022.09) 🌟. His innovative work also earned him the Wenzhou Basic Scientific Research Project grant (2020.07-2021.12) 🌐 and the Major Project of Wenzhou Research Institute, University of Chinese Academy of Sciences (2020.10-2023.03) 🥇. Furthermore, Dr. Wang was honored with funding from the Zhejiang Key Laboratory of New Techniques for Diagnosis and Treatment of Pancreatic and Liver Critical Diseases

Research skill🔬

Dr. Jilong Wang possesses a robust set of research skills that make him a leading figure in the field of biomedical engineering 🧪. He is highly proficient in developing biodegradable nanomaterial-based drug delivery systems 🎯, specifically designed for targeted therapies against malignant, infectious, and immune-related diseases 🧬. His expertise extends to creating nanoparticle systems for drug delivery to tumor-associated cells and tumor-initiating cells, with a focus on their sensitivity to tumor microenvironments 🔬. Dr. Wang is also adept at designing intelligent polymeric nanoparticles for differential drug delivery 📦, and innovating novel degradable polymers as nanomedicines for various biomedical applications 💊. His technical skills are complemented by his ability to secure significant research funding and collaborate on major projects, demonstrating his leadership and impact in advancing medical science 🌟.

Achievements🏅
  • Secured the General Project of China Postdoctoral Science Foundation (2018.11-2020.05) 🎓📜
  • Awarded the General Project of Natural Science Foundation of Guangdong Province (2019.10-2022.09) 🏆📚
  • Received funding for the Wenzhou Basic Scientific Research Project (2020.07-2021.12) 🔬💡
  • Led the Major Project of Wenzhou Research Institute, University of Chinese Academy of Sciences (2020.10-2023.03) 🎓🏛️
  • Contributed to the Zhejiang Key Laboratory of New Techniques for Diagnosis and Treatment of Pancreatic and Liver Critical Diseases, Open Foundation (2021.01-2023.12) 🧪🔍
  • Acquired the prestigious National Natural Science Foundation of China grant (2022.01-2024.12) 🏅🇨🇳
Projects📜
  • General Project of China Postdoctoral Science Foundation (2018.11-2020.05) 🎓📜
    • Focus: Developing innovative biomedical solutions 🔬💡
  • General Project of Natural Science Foundation of Guangdong Province (2019.10-2022.09) 🏆📚
    • Focus: Advanced research in biomedical engineering and drug delivery systems 🧪📈
  • Wenzhou Basic Scientific Research Project (2020.07-2021.12) 🔬💡
    • Focus: Foundational research in novel biomedical applications 🌱🔍
  • Major Project of Wenzhou Research Institute, University of Chinese Academy of Sciences (2020.10-2023.03) 🎓🏛️
    • Focus: Cutting-edge research in nanomedicine and targeted therapies 🌐✨
  • Zhejiang Key Laboratory of New Techniques for Diagnosis and Treatment of Pancreatic and Liver Critical Diseases, Open Foundation (2021.01-2023.12) 🧪🔍
    • Focus: Innovative diagnostic and treatment techniques for critical diseases 🩺🔬
  • National Natural Science Foundation of China (2022.01-2024.12) 🏅🇨🇳
    • Focus: Pioneering research in biodegradable nanomaterials for drug delivery systems 🌟📜
Publications📜
  • Ji-Long Wang, Yun-Ju Gan, Shoailb Iqbal, Wei Jiang, You-Yong Yuan, Jun Wang
    Title: Delivery of tacrolimus with cationic lipid-assisted nanoparticles for ulcerative colitis therapy
    Journal: Biomaterials Science, 2018
    Citation: 6, 1916-1922
    📜💊🔬
  • Ji-Long Wang, Xiao-Jiao Du, Jin-Xian Yang, Song Shen, Hong-Jun Li, Ying-Li Luo, Shoailb Iqbal, Cong-Fei Xu, Xiao-Dong Ye, Jie Cao, Jun Wang
    Title: The effect of surface poly(ethylene glycol) length on in vivo drug delivery behaviors of polymeric nanoparticles
    Journal: Biomaterials, 2018
    Citation: 182, 104-113
    📜🧪🧬
  • Xiao-Jiao Du, Ji-Long Wang, Shoailb Iqbal, Hong-Jun Li, Zhi-Ting Cao, Yu-Cai Wang, Jin-Zhi Du, Jun Wang
    Title: The effect of surface charge on oral absorption of polymeric nanoparticles
    Journal: Biomaterials Science, 2018
    Citation: 6, 642-650
    📜🧪💊
  • Wei Jiang, Ji-Long Wang, Jin-Bin Yang, Zhi-Wei He, Zhen-Hui Hou, Ying-Li Luo, Li Wang, Yang-Yang Zhao, Xue-Chang Zhou, Li-Feng Yan, Xian-Zhu Yang, Yu-Cai Wang, Jun Wang
    Title: Acidity-triggered TAT-presenting nanocarriers augment tumor retention and nuclear translocation of drugs
    Journal: Nano Research, 2017
    Citation: 11, 1-19
    📜🧬🔬
  • Chun-Guang Dai, Ji-Long Wang, Ying-Long Fu, Hong-Ping Zhou, Qin-Hua Song
    Title: Selective and real-time detection of nitric oxide by a two-photon fluorescent probe in live cells and tissue slices
    Journal: Analytical Chemistry, 2017
    Citation: 19, 10511-10519
    📜🔬💡
  • Shoailb Iqbal, Xiao-Jiao Du, Ji-Long Wang, Hong-Jun Li, You-Yong Yuan, Jun Wang
    Title: Surface charge tunable nanoparticles for TNF-α siRNA oral delivery for treating ulcerative colitis
    Journal: Nano Research, 2017
    Citation: 11, 1998-0124
    📜💊🧪
  • Chun-Guang Dai, Ji-Long Wang, Qin-Hua Song
    Title: Red fluorescent probes based on a bodipy analogue for selective and sensitive detection of selenols in solutions and in living systems
    Journal: Journal of Materials Chemistry B, 2016
    Citation: 4, 6726-6733
    📜🧬🔬
  • Xiao-Jiao Du, Ji-Long Wang (co-first author), Wei-Wei Liu, Jin-Xian Yang, Chun-Yang Sun, Rong Sun, Hong-Jun Li, Song Shen, Ying-Li Luo, Xiao-Dong Ye, Xian-Zhu Yang, Jun Wang
    Title: Regulating the surface poly(ethylene glycol) density of polymeric nanoparticles and evaluating its role in drug delivery in vivo
    Journal: Biomaterials, 2015
    Citation: 69, 1-11
    📜💊🧪