Jiabing Ran | Materials Science | Best Researcher Award

Best Researcher Award

Jiabing Ran
China Three Gorges University, China
Jiabing Ran
Affiliation China Three Gorges University
Country China
Scopus ID 56012790200
Documents 60
Citations 1887
h-index 25
Subject Area Materials Science
Event International Phenomenological Research Awards
ORCID 0000-0002-8474-7368
Google Scholar pOJg4moAAAAJ

Jiabing Ran is a researcher in biomedical materials science and regenerative medicine affiliated with China Three Gorges University. His academic work focuses on smart responsive hydrogels, tissue engineering, implant integration, and advanced drug delivery systems. His research integrates biomaterials engineering with translational medical applications, particularly in bone regeneration, anti-inflammatory therapeutics, and hydrogel-mediated biomedical interventions.[1]

Abstract

Jiabing Ran has contributed to the development of multifunctional biomaterials and hydrogel-based therapeutic systems for regenerative medicine and biomedical engineering. His research emphasizes smart responsive hydrogel platforms, macrophage regulation, implant osseointegration, antibacterial therapy, and tissue repair applications. Through interdisciplinary integration of materials science and biological engineering, his studies address translational challenges in bone defect repair, ophthalmic therapeutics, tendinitis treatment, and drug delivery systems. His publication record and patent portfolio indicate sustained contributions to advanced biomaterials research and clinical translation.[2]

Keywords

Tissue engineering, supramolecular hydrogel, metal organic framework, regenerative medicine, biomaterials, smart drug delivery, injectable hydrogel, macrophage polarization, osseointegration, antibacterial biomaterials.

Introduction

Jiabing Ran earned a Doctor of Engineering degree in Materials Physical Chemistry from Wuhan University in 2018 and completed postdoctoral research at Karolinska Institutet. He currently focuses on biomaterials, biomedical hydrogels, regenerative medicine, and translational therapeutic development at China Three Gorges University.[1]

His academic output includes more than sixty peer-reviewed scientific publications and multiple authorized patents related to hydrogel technologies, implant coatings, ophthalmic therapeutics, and injectable biomaterials. His work has appeared in internationally recognized journals within biomaterials science and biomedical engineering.[3]

Research Profile

Jiabing Ran’s research focuses on responsive biomaterials and multifunctional hydrogels for biomedical applications. His studies investigate controlled drug delivery, tissue regeneration, and hydrogel-based therapies for bone defects, osteoarthritis, keratitis, diabetic injuries, and tendon disorders.[4]

His completed and ongoing research projects include studies funded by the Hubei Provincial Natural Science Foundation of China and regional science and technology initiatives. These projects focus on macrophage polarization, antibacterial hydrogel coatings, injectable therapeutic systems, and biomaterial-assisted osseointegration mechanisms.[2]

  • Sequential macrophage polarization on titanium surfaces for osseointegration enhancement.
  • Injectable ellagic acid hydrogel systems for osteoarthritis treatment.
  • Hydrogel-coated antibacterial urinary catheter development.
  • Glucose-responsive injectable hydrogels for diabetic bone repair.

Research Contributions

Jiabing Ran has contributed to catechol-like natural product delivery systems based on phenylboronic ester chemistry for controlled drug release and regenerative medicine. His research on hydrogel-mediated macrophage polarization advances understanding of biomaterial–immune interactions during tissue healing and regeneration.[4]

His studies also address multifunctional hydrogel systems capable of simultaneously targeting bacterial infection, inflammation, and tissue regeneration. Such biomaterials have applications in orthopedic engineering, implant coatings, ophthalmology, and wound healing technologies.[5]

  • Development of injectable hydrogels for infected bone defect repair.
  • Hydrogel-coated titanium implant surfaces for enhanced osseointegration.
  • Microneedle-based sustained drug delivery systems for tendinopathy therapy.
  • Sustained ophthalmic delivery systems for keratitis and glaucoma therapy.
  • Supramolecular pH-responsive hydrogel engineering for biomedical applications.

Publications

Jiabing Ran has published more than sixty peer-reviewed scientific articles in internationally recognized journals, including Journal of Controlled Release, Acta Biomaterialia, Chemical Engineering Journal, and Materials & Design. His publications primarily focus on biomaterials, injectable hydrogels, macrophage regulation, regenerative medicine, smart drug delivery, and tissue engineering applications.

Jiabing Ran has published extensively in high-impact journals indexed in SCI and Scopus databases. His publications focus on biomaterials, hydrogels, immunomodulation, tissue engineering, and controlled drug delivery technologies.[3]

  1. “Inducing in situ M2 macrophage polarization to promote the repair of bone defects via scaffold-mediated sustained delivery of luteolin.” Journal of Controlled Release, 2024. DOI: https://doi.org/10.1016/j.jconrel.2023.11.015
  2. “A multifunctional self-reinforced injectable hydrogel for enhancing repair of infected bone defects by simultaneously targeting macrophages, bacteria, and bone marrow stromal cells.” Acta Biomaterialia, 2024. DOI: https://doi.org/10.1016/j.actbio.2024.10.014
  3. “Enhancing Bone-Titanium Integration through Hydrogel Coating Mediated Sequential M1/M2 Polarization.” Chemical Engineering Journal, 2024. DOI: https://doi.org/10.1016/j.cej.2024.157088
  4. “Inducing In Situ M2 Macrophage Polarization for Tendinopathy Therapy through Microneedle Patch-Mediated Delivery.” Biomaterials Research, 2025. DOI: https://doi.org/10.1186/s40824-025-0264-0
  5. “Rational Design of a Supramolecular Hydrogel with Customizable pH-Responsiveness.” Soft Matter, 2022. DOI: https://pubs.rsc.org/en/content/articlelanding/2022/sm/d1sm01589c/unauth

Research Impact

Jiabing Ran’s research demonstrates measurable scientific impact through citation performance, translational biomaterials development, and collaborative medical applications. His h-index and citation metrics reflect continued scholarly visibility within materials science and biomedical engineering communities.[1]

His collaborations with hospitals and clinical institutes have facilitated translational research pathways for hydrogel technologies and regenerative therapeutic systems. His patents and industrial projects further indicate practical applications of his research in medical devices and biomaterial manufacturing.[5]

Award Suitability

Jiabing Ran is well recognized for his contributions to biomaterials innovation, hydrogel systems, and regenerative medicine. His interdisciplinary research integrates materials chemistry with biomedical applications, addressing important challenges in tissue repair and therapeutic delivery.[2]

The breadth of his scientific publications, funded projects, patents, and collaborative activities reflects sustained academic productivity and research leadership in emerging biomedical technologies. His work contributes to the advancement of intelligent biomaterials and therapeutic engineering strategies within modern materials science.[4]

Conclusion

Jiabing Ran has established a notable academic profile in biomedical materials science through sustained research on hydrogel technologies, smart drug delivery systems, and regenerative medicine applications. His interdisciplinary contributions to biomaterials engineering, translational therapeutic systems, and tissue regeneration continue to support innovation in modern biomedical research and clinical material science.[3]

References

  1. Elsevier. (n.d.). Scopus author details: Jiabing Ran, Author ID 56012790200. Scopus. https://www.scopus.com/authid/detail.uri?authorId=56012790200
  2. China Three Gorges University. (2026). Academic and professional profile of Jiabing Ran and funded biomedical hydrogel research projects. https://orcid.org/0000-0002-8474-7368
  3. Ran, J. et al. (2024). Recent progress in Fenton/Fenton-like reactions for the removal of antibiotics in aqueous environments. Ecotoxicology and Environmental Safety. https://doi.org/10.1016/j.ecoenv.2022.113464
  4. Ran, J. et al. (2024). Enhancing Bone-Titanium integration through hydrogel coating mediated sequential M1/M2 polarization of interfacial macrophages. Chemical Engineering Journal. https://doi.org/10.1016/j.cej.2024.157088
  5. Ran, J. et al. (2025). Inducing In Situ M2 Macrophage Polarization for Tendinopathy Therapy through Microneedle Patch-Mediated Instant/Sustained Delivery of Rosmarinic Acid. Biomaterials Research. https://doi.org/10.1186/s40824-025-0264-0

Azim Khan | Materials Science | Research Excellence Award

Assoc. Prof. Dr. Azim Khan | Materials Science | Research Excellence Award 

Associate Researcher at University of Electronic Science and Technology of China. | China

Assoc. Prof. Dr. Azim Khan is a dedicated materials scientist whose work spans advanced metallic systems, nanomaterials, and high-temperature coating technologies. With a strong academic foundation in physics, solid-state physics, and materials science and engineering, he has built an interdisciplinary profile bridging fundamental research and applied innovation. His academic journey includes extensive research training in metal oxide dispersions, grain refinement, high-temperature oxidation, and the development of advanced aluminide coatings. As an active researcher and educator, he has served in university-level teaching roles covering solid-state physics, quantum mechanics, thermodynamics, electrodynamics, magnetism, atomic and molecular physics, and general physics, while also contributing to departmental committees related to examinations, research, laboratory safety, discipline, and academic scheduling. His professional appointments include roles as lecturer, postdoctoral researcher, assistant professor, and associate researcher across reputable institutions in China, where he has taught at both undergraduate and postgraduate levels and supervised experimental work in materials synthesis and characterization. His research interests focus on nickel-based superalloys, high-entropy alloys, oxidation- and corrosion-resistant coatings, carbon-based nanomaterials, and catalyst synthesis using methods such as electroplating, diffusion coatings, solid-solution processing, co-precipitation, and hydrothermal synthesis. He has significant expertise in utilizing CVD and PECVD systems for synthesizing carbon nanotubes, nanocoils, and hybrid nanostructures, as well as operating advanced characterization tools including SEM, TEM, Raman spectroscopy, TGA, and electrochemical testing systems. His scientific contributions include numerous peer-reviewed publications covering oxidation kinetics, phase transformation, nanostructured coatings, composite materials, and catalysis, along with participation in multiple international conferences and collaborative projects. As principal investigator and team member in various funded research initiatives, he has contributed to advancements in coating performance, high-temperature materials behavior, and environmentally beneficial catalyst systems. Throughout his academic and professional career, Assoc. Prof. Dr. Azim Khan has demonstrated continuous growth, leadership, and commitment to scientific excellence. He remains focused on advancing materials science research, fostering collaborations, and contributing impactful innovations to the broader scientific community.

Profile: Scopus | Orcid 

Featured Publications:

  • Khan, A., Rauf, A., Ullah, S., Jan, H. U., Aziz, T., Zhang, S. H., & Song, G. S. (2023). ZrO₂-nanoparticle assisted phase transformation and oxidation kinetics of thermally grown alumina on nickel aluminide coatings. Surface and Coatings Technology, 470.

  • Khan, A., Ihsan Ullah, S. S. A., Shah, S. S. A., Aziz, T., Zhang, S. H., & Song, G. S. (2022). Effect of Cr nanoparticle dispersions with various contents on the oxidation and phase transformation of alumina scale formation on Ni₂Al₃ coating. Surface and Coatings Technology, 394, 125861.

  • Khan, A., Ihsan Ullah, … (2021). Thermally grown oxide formation on Ni₂Al₃ aluminide coating: the effect of nanocrystalline nickel film on oxide scale adhesion. Vacuum, 197, 110843. (as listed among his works)

  • Khan, A., … (2020). Accelerated phase transformation of thermally grown alumina on Ni₂Al₃: effect of dispersion of hcp-oxides with various content and particle size and chemistry. Surface and Coatings Technology, 394, 125861.

  • Khan, A., … (2022). The effect of grain refinement on the oxidation and phase transformation of alumina scale on Ni₂Al₃ coating. Intermetallics.

  • Khan, A., … (2019). Effect of Cr₂O₃ nanoparticle dispersions on oxidation kinetics and phase transformation of thermally grown alumina on a nickel aluminide coating. Corrosion Science, 150, 91–99.

  • Khan, A., … (2023). (Same as #1 but see variant) — ZrO₂-nanoparticle assisted phase transformation and oxidation kinetics … Surface and Coatings Technology, 470, 129852.

  • Khan, A., … (2022). Effect of Cr nanoparticle dispersions with various contents on the oxidation and phase transformation of alumina scale formation on Ni₂Al₃ coating. Surface and Coatings Technology, 394, 125861.

  • Khan, A., … (2023). ZrO₂-nanoparticle assisted phase transformation and oxidation kinetics of thermally grown alumina on nickel aluminide coatings. Surface and Coatings Technology, 470, 129852.

  • Khan, A., … (2022). The effect of grain refinement on the oxidation and phase transformation of alumina scale on Ni₂Al₃ coating. Intermetallics.