Jing Xu | Nanotechnology | Best Researcher Award

Dr. Jing Xu , Guizhou University, China.

Dr. Jing Xu is an Associate Professor at the College of Materials and Metallurgy, Guizhou University, specializing in carbon materials, nanotechnology, and electrochemical applications. With a Ph.D. from the University of Siegen, Germany, he leads a research team exploring functional carbon materials for energy storage, sensing, and water treatment. Dr. Xu’s work also focuses on environmental technologies like large-scale functional conductive diamond (FCD) for industrial water treatment. He has co-founded Super DiaCoat GmbH to pursue the commercialization of this technology.

Publication profile

Scopus

Education and Experience

Ph.D. in Materials Science (2019) – University of Siegen, Germany
Associate Professor (2020-present) – Guizhou University, China
Researcher (2015-2020) – University of Siegen, Germany
Researcher (2014) – Fraunhofer ISE, Germany
Researcher (2013-2014) – Karlsruhe Institute of Technology, Germany

Suitability For The Award

Dr. Jing Xu is an outstanding candidate for the Best Researcher Award due to his significant contributions to the fields of materials science and nanotechnology, particularly in carbon-based materials and their applications in energy storage and environmental technology. Currently serving as an associate professor at Guizhou University, his academic journey spans prestigious institutions in Germany, including the University of Siegen, Fraunhofer ISE, and Karlsruhe Institute of Technology, reflecting his international expertise and dedication to advancing material and surface technology.

Professional Development

Dr. Jing Xu has been an active contributor to advanced materials research, focusing on carbon nanomaterials, supercapacitors, and environmental water treatment. His academic journey through Germany and China has equipped him with cutting-edge skills in nanotechnology, thin films, and electrochemical analysis. Beyond academia, his startup Super DiaCoat GmbH is paving the way for innovative industrial applications of functional conductive diamond (FCD), offering promising new methods for water treatment and environmental sustainability.

Research Focus

Dr. Xu’s research centers on carbon nanomaterials, supercapacitors, and electrochemical devices. His innovative work explores the synthesis of nanomaterials for high-performance energy storage and their application in environmental technologies. Notably, his research on functional conductive diamond (FCD) opens up new avenues for industrial water treatment, disinfection, and energy storage solutions. Dr. Xu’s interdisciplinary approach bridges the gap between nanotechnology and environmental science, creating impactful solutions for real-world challenges.

Awards and Honors

Outstanding Research Award – University of Siegen
Best Paper Award – Advanced Energy Materials (2019)
Innovation in Water Treatment Award – Super DiaCoat GmbH
Recognition for Excellence in Supercapacitor Research – ChemElectroChem
Top Innovator Award – Fraunhofer ISE

Publications

Cauliflower-like Ni/NiCoP@Boron-doped diamond composite electrodes for high-performance symmetric supercapacitors | Diamond and Related Materials, 2024 | 0 citations
Hierarchical nickel phosphide/carbon nanofibers for high performance pseudocapacitors | Diamond and Related Materials, 2024 | 0 citations
Boron-doped diamond decorated with metal-organic framework-derived compounds for high-voltage aqueous asymmetric supercapacitors | Carbon, 2024 | 0 citations
A low-temperature-tolerant gel polymer electrolyte for long-lasting Zn-ion hybrid supercapacitors and Zn-I2 batteries | Journal of Energy Storage, 2024 | 0 citations
Synthesis of long-chain aliphatic poly(β-thioester)s via thiol-Michael polyaddition and their applications in noble metal recovery and information encryption | European Polymer Journal, 2024 | 0 citations
Construction of strengthened crosslinked polymer coating using liquid-like nanoparticle on polyphenylene sulfide nonwoven as separator: Improved cycling performance in lithium-ion battery | Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2024 | 0 citations
Eutectogel with (NH4)2SO4-Based Deep Eutectic Solvent for Ammonium-Ion Supercapacitors | ACS Sustainable Chemistry and Engineering, 2024 | 6 citations
Gel Polymer Electrolytes Based on Polyvinyl Alcohol for Zinc-Ion Hybrid Supercapacitors | Polymeric Materials Science and Engineering, 2024 | 0 citations