Li Canhuang | Electrolyte | Best Researcher Award
Dr. Li Canhuang , University of Barcelona , Spain.
Li Canhuang is a dedicated researcher in battery technology, currently pursuing a Ph.D. in Engineering at the University of Barcelona š, under the mentorship of Prof. Joan R. Morante and Prof. Andreu Cabot. His expertise spans alkali metal sulfur-based batteries, zinc-iodine batteries, and high-voltage lithium-ion batteries š. With a Masterās from South China Normal University and a Bachelorās from Hainan University, he has contributed to multiple EU H2020 and Chinese national research projects. A CPC member šØš³, he actively engages in advancing battery technology for sustainable energy solutions š±.
Publication Profile
Orcid
Scopus
Google Scholar
Education & Experience šš¬
-
2021 ā Present: Ph.D. in Engineering, University of Barcelona šŖšø (Expected 2025)
-
Supervisors: Prof. Joan R. Morante š , Prof. Andreu Cabot š¬
-
-
2018 ā 2021: Masterās in Engineering, South China Normal University šØš³
-
2014 ā 2018: Bachelorās in Science, Hainan University šØš³
-
Research Experience:
-
Alkali Metal Sulfur-Based Batteries: Cathode materials, membrane & electrolyte modifications ā”
-
Zinc-Iodine Batteries: Cathode catalyst development, electrolyte enhancement š§Ŗ
-
High-Voltage Lithium-Ion Batteries: Electrolyte modification, lithium metal protection š
-
Summary Suitabilty
Li Canhuang is a highly deserving candidate for the Best Researcher Award due to his groundbreaking work in battery technology and energy storage š. His expertise in alkali metal sulfur-based batteries, zinc-iodine batteries, and high-voltage lithium-ion batteries has significantly contributed to the development of next-generation sustainable batteries š. As a Ph.D. researcher at the University of Barcelona, he has actively participated in major EU H2020 projects such as COBRA (ā¬11.86M) and HELIS (ā¬7.97M), addressing critical challenges in battery efficiency, electrolyte modifications, and cathode material advancements ā”.
Professional Development šš¬
Li Canhuang has been actively involved in high-impact battery research projects at the European and national levels. As part of the COBRA (ā¬11.86M) and HELIS (ā¬7.97M) projects under the EU H2020 initiative šŖšŗ, he has contributed to the development of next-generation sustainable batteries. Additionally, he worked on the 2BoSS project, focusing on silicon, sulfur, and biomass-derived carbon-based batteries š±. His collaborations extend to the National Natural Science Foundation of China and Guangdong Science & Technology Department, where he explored lithium-ion battery failure analysis. His academic contributions include poster presentations at international conferences š¢.
Research Focus šā”
Li Canhuangās research falls under the category of energy storage and battery technology š, focusing on advanced battery materials and electrochemical innovations. His work on alkali metal sulfur-based batteries involves improving cathode materials and electrolyte modifications to enhance efficiency ā”. In zinc-iodine batteries, he develops catalysts for better performance š§Ŗ. Additionally, his studies in high-voltage lithium-ion batteries aim to improve electrolytes and lithium metal protection for long-lasting and sustainable energy storage solutions š. His contributions support the global shift to green energy and next-generation battery technologies š.
Awards & Honors ššļø
-
Ph.D. (2021 ā Present)
-
CSC Government-Sponsored Ph.D. Scholarship ššØš³
-
-
Masterās (2018 ā 2021)
-
National Second-Class Academic Scholarship š
-
Outstanding Student Leader Award (Party Branch Secretary) šļø
-
-
Bachelorās (2014 ā 2018)
-
Outstanding Communist Youth League Member š
-
Active Student Honor in Summer Social Practice š
-
Publication Top Notes
-
š§Ŗ Highly Conductive Quasiā1D Hexagonal Chalcogenide Perovskite SrāTiāSāā with Efficient Polysulfide Regulation in LithiumāSulfur Batteries
Published in Advanced Functional Materials, April 2024.
DOI: 10.1002/adfm.202401577
Cited by: 5 -
š Electronic Spin Alignment within Homologous NiSā/NiSeā Heterostructures to Promote Sulfur Redox Kinetics in LithiumāSulfur Batteries
Published in Advanced Materials, April 3, 2024.
DOI: 10.1002/adma.202400810
Cited by: 3 -
šÆ Three Birds with One Arrow: Multifunctional Single-Atom Catalysts Enable Efficient Lithium-Sulfur Batteries
Published in Energy Storage Materials, February 2024.
DOI: 10.1016/j.ensm.2024.103240
Cited by: 7 -
ā” Combined Defect and Heterojunction Engineering in ZnTe/CoTeā@NC Sulfur Hosts Toward Robust LithiumāSulfur Batteries
Published in Advanced Functional Materials, November 2023.
DOI: 10.1002/adfm.202305624
Cited by: 10 -
šæ Tubular CāNā Nanotubes as Metal-Free Sulfur Hosts Toward Stable LithiumāSulfur Batteries
Published in Energies, June 6, 2023.
DOI: 10.3390/en16124545
Cited by: 15 -
š ļø Surface Strain-Enhanced MoSā as a High-Performance Cathode Catalyst for LithiumāSulfur Batteries
Published in eScience, July 2022.
DOI: 10.1016/j.esci.2022.07.001
Cited by: 20