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
    📜💊🧪

Hongchun Zhu | Metallurgy | Best Researcher Award

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🌟Assoc Prof Dr. Hongchun Zhu, Metallurgy, Best Researcher Award 🏆

  Associate Professor at Northeastern University, China

Hongchun Zhu is an Associate Professor specializing in materials science with a focus on metallurgy at Northeastern University. Holding Bachelor’s degrees in Metallurgical Engineering and Logistics Management, he completed his Ph.D. in Iron and Steel Metallurgy in 2018. With extensive experience as a postdoctoral researcher and lecturer, Zhu currently leads research at the Green Intelligent Special Steel Metallurgy Research Center, contributing significantly to the field through publications, patents, and academic mentorship.

Author Metrics:

Zhu’s scholarly impact is evident through his publication record, which includes over 70 papers and more than 50 patents applied for. With over 30 patents granted and 2 specialized books authored, Zhu’s work demonstrates both quantity and quality in terms of academic output and intellectual contributions.

Scopus Profile

Hongchun Zhu, affiliated with the School of Metallurgy at Northeastern University in Shenyang, China, holds an ORCID profile with ID 0000-0001-7594-5867. With an impressive citation count of 1,013 from 611 documents, Zhu’s research has garnered significant attention within the academic community. He has authored 70 documents, demonstrating a breadth of scholarly contributions in the field. Furthermore, Zhu has achieved an h-index of 18, reflecting the impact and influence of his research output. While further metrics are not available in the preview mode, Zhu’s profile underscores his standing as a respected researcher in the field of metallurgy.

Education:

Hongchun Zhu graduated from Northeastern University with Bachelor’s degrees in Metallurgical Engineering and Logistics Management in 2010. He furthered his academic pursuits with a Ph.D. in Iron and Steel Metallurgy, completing his doctoral studies in 2018. Zhu also underwent joint training at McGill University in Canada, enhancing his expertise in metallurgical engineering.

Research Focus:

Zhu’s research primarily focuses on green and intelligent special steel metallurgy. His work involves addressing technological bottlenecks in the preparation of high-end materials for major equipment, aiming to achieve both scientific advancements and significant economic and social benefits.

Professional Journey:

Zhu’s professional journey includes roles as a postdoctoral researcher at the Institute of Power Engineering and Engineering Thermophysics and as a lecturer at the Institute of Special Steel Metallurgy, both at Northeastern University. Currently, he serves as an Associate Professor at the Green Intelligent Special Steel Metallurgy Research Center within the School of Metallurgy at Northeastern University.

Honors & Awards:

Zhu has received numerous honors and awards for his contributions to the field of metallurgy. His achievements have been recognized at both national and international levels, reflecting his dedication and excellence in research and academia.

Publications Top Noted & Contributions:

Zhu has made significant contributions to academia through over 70 publications, with more than 60 appearing in SCI-indexed journals. His research addresses key challenges in metallurgy, with a particular focus on green and intelligent special steel metallurgy, contributing to the advancement of scientific knowledge in the field.

Insights into the mechanism of Mo protecting CoCrFeNi HEA from pitting corrosion—A quantitative modelling study on passivation and repassivation processes

  • Authors: Dai, J., Feng, H., Li, H.-B., Jiang, Z.-H., Zhang, T.
  • Journal: Journal of Materials Science and Technology, 2024, 182, pp. 152–164
  • Summary: This article likely explores how molybdenum (Mo) contributes to protecting a specific alloy (CoCrFeNi High Entropy Alloy) from pitting corrosion. The study employs quantitative modeling to understand the passivation and repassivation processes involved in corrosion resistance.

Elucidating the promoting mechanism of nitrogen in the columnar-to-equiaxed transition of steel ingot

  • Authors: Ni, Z.-W., Zhu, H.-C., Li, H.-B., Zhang, S.-C., Jiang, Z.-H.
  • Journal: International Journal of Heat and Mass Transfer, 2024, 220, 125014
  • Summary: This article likely investigates the role of nitrogen in the columnar-to-equiaxed transition of steel ingots. Understanding this transition is essential for controlling the microstructure and properties of cast steel.

Revealing the Removal Mechanism of Vanadium Addition on Nitrogen Pores in 30Cr15Mo1N High-Nitrogen Steel Ingot

  • Authors: Zhu, H.-C., Ni, Z.-W., Li, H.-B., Feng, H., Jiang, Z.-H.
  • Journal: Steel Research International, 2024, 95(2), 2300550
  • Summary: This article likely discusses the mechanism by which vanadium addition influences the removal of nitrogen pores in high-nitrogen steel ingots. Controlling nitrogen pores is crucial for improving the quality and performance of steel products.

Motion Behavior of Ce-Containing Inclusions in 8Cr4Mo4V-Bearing Steel during Vacuum Arc Remelting

  • Authors: Pan, T., Zhu, H.-C., Jiang, Z.-H., He, Z.-Y., Ni, Z.-W.
  • Journal: Steel Research International, 2024
  • Summary: This article likely investigates the motion behavior of cerium-containing inclusions during vacuum arc remelting of a specific steel alloy. Understanding inclusion behavior is important for refining steel and enhancing its mechanical properties.

Softening Behavior and Hardness Prediction of H13 Hot-Work Die Steel during Isothermal Tempering

  • Authors: Feng, H., Wang, H.-J., Li, H.-B., Zhang, S.-C., Jiang, Z.-H.
  • Journal: Steel Research International, 2024, 95(1), 2300251
  • Summary: This article likely explores the softening behavior and hardness prediction of H13 hot-work die steel during isothermal tempering. Tempering processes are crucial for adjusting the mechanical properties of steels for specific applications.

Research Timeline:

Zhu’s research timeline spans from his undergraduate studies in metallurgical engineering and logistics management to his current role as an Associate Professor specializing in materials science with a focus on metallurgy at Northeastern University. Throughout his academic and professional journey, Zhu has consistently pursued research excellence, addressing critical challenges in the field and making significant contributions to both academia and industry.

Zhuowen Ni | Metallurgy | Best Researcher Award

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🌟Dr. Zhuowen Ni, Metallurgy, Best Researcher Award 🏆

 Doctorate at Northeastern University China

Zhuowen Ni is a male researcher currently pursuing his Ph.D. in Metallurgical Engineering at Northeastern University. With a specialization in Materials Science, particularly in Metallurgy, he has demonstrated a strong commitment to advancing the field through his research contributions. Zhuowen Ni’s academic journey began in 2017, and since then, he has made significant strides in his field, accumulating numerous publications and accolades.

Author Metrics:

Zhuowen Ni’s publications have received notable attention, with high citation rates and impact factors reflecting the significance of his research contributions within the scientific community.

Scopus Profile

Ni, Zhuowen, affiliated with the School of Metallurgy at Northeastern University in Shenyang, China. This author has an Scopus Author Identifier with the ID 57226241532. They have been associated with 10 documents and have received 35 citations from 23 different documents, resulting in an h-index of 4.

Education:

Zhuowen Ni commenced his academic journey at Northeastern University in 2017, undertaking a Ph.D. in Metallurgical Engineering. His educational background has equipped him with a strong foundation in materials science, particularly in metallurgy.

Research Focus:

Zhuowen Ni’s research primarily focuses on metallurgy, thermodynamics, and materials processing. He is dedicated to advancing knowledge in these areas and has made significant contributions through his publications in esteemed journals.

Professional Journey:

Throughout his academic career, Zhuowen Ni has remained affiliated with the School of Metallurgy at Northeastern University. He has progressed from a Ph.D. candidate to a promising researcher, demonstrating a continuous commitment to academic excellence.

Honors & Awards:

Zhuowen Ni has garnered recognition for his contributions to the field, receiving honors and awards that attest to his academic prowess and research impact.

Publications Top Noted & Contributions:

Zhuowen Ni has published extensively in reputable journals such as “Metallurgical and Materials Transactions B” and “Steel Research International.” His contributions span a range of topics within metallurgy, thermodynamics, and materials processing, showcasing his expertise and dedication to advancing knowledge in these domains.

Publication: “Elucidating the promoting mechanism of nitrogen in the columnar-to-equiaxed transition of steel ingot” in the International Journal of Heat and Mass Transfer, 2024.

  • Authors: Ni, Z.-W.; Zhu, H.-C.; Li, H.-B.; Zhang, S.-C.; Jiang, Z.-H.
  • Topic: Investigating the role of nitrogen in the transition from columnar to equiaxed grain structure in steel ingots.

Publication: “Revealing the Removal Mechanism of Vanadium Addition on Nitrogen Pores in 30Cr15Mo1N High-Nitrogen Steel Ingot” in Steel Research International, 2024.

  • Authors: Zhu, H.-C.; Ni, Z.-W.; Li, H.-B.; Feng, H.; Jiang, Z.-H.
  • Topic: Exploring how vanadium addition affects the removal of nitrogen pores in a specific high-nitrogen steel composition.

Publication: “Motion Behavior of Ce-Containing Inclusions in 8Cr4Mo4V-Bearing Steel during Vacuum Arc Remelting” in Steel Research International, 2024.

  • Authors: Pan, T.; Zhu, H.-C.; Jiang, Z.-H.; He, Z.-Y.; Ni, Z.-W.
  • Topic: Investigating the behavior of cerium-containing inclusions during the vacuum arc remelting process of a specific steel alloy.

Publication: “Investigation on Porosity Formation With Pressure Drop Between Dendrite Tip and Root During Pressurized Solidification of 30Cr15Mo1N Ingot” in Metallurgical and Materials Transactions B: Process Metallurgy and Materials Processing Science, 2023.

  • Authors: He, Z.-Y.; Li, H.-B.; Zhu, H.-C.; Feng, H.; Zhang, S.-C.
  • Topic: Studying the formation of porosity during the pressurized solidification of a specific high-nitrogen steel ingot.

Publication: “Elimination Mechanism of Shrinkage Porosity During Pressurized Solidification Process of 19Cr14Mn4Mo1N High-Nitrogen Steel Ingot” in Metallurgical and Materials Transactions B: Process Metallurgy and Materials Processing Science, 2023.

  • Authors: Li, H.-B.; Ni, Z.-W.; Zhu, H.-C.; Jiang, Z.-H.; Wang, Y.
  • Topic: Investigating mechanisms to eliminate shrinkage porosity during the solidification process of another high-nitrogen steel composition.

Research Timeline:

Since embarking on his Ph.D. journey in 2017, Zhuowen Ni has steadily expanded his research portfolio, delving into various aspects of metallurgy, thermodynamics, and materials processing. His timeline illustrates a progression from foundational research to more specialized investigations, culminating in significant contributions to the field.