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课题组

研究内容

研究内容和方向

研究内容和方向:

本课题组主要从事高比能电池新型电解质和电极材料的设计与构筑,以及电极反应机理探究等方面的研究工作。围绕现有电化学储能器件能量密度、循环稳定性和安全性等方面的问题,从电极电化学反应的原理和本质出发,通过促进反应过程的物质传输和电子传递,提升电子和离子的传输效率和速率,显著提升电化学反应过程的速率和稳定性,构建高效能电化学储能器件。

主要研究方向:

(1) 基于化学物质氧化还原反应的新型电池

(2) 锂金属电池电极和电解质材料

(3) 其它金属基电池电解质材料





    A Liquid/Liquid Electrolyte Interface Inhibiting Corrosion and Dendrite Growth of Lithium in Lithium-Metal Batteries,

Angew. Chem. Int. Ed., 2020, 59, 6397-6405.

Inhibiting Shuttle Effect by Artificial Membranes with High Lithium-ion Content for Enhancing the Stability of Lithium Anode,

J. Mater. Chem. A, 2020, 8, 14062-14070


1001B

Inhibition of Discharge Side Reaction by Promoting Solution-Mediated Oxygen Reduction Reaction with Quinone Molecules in Li-O2 Batteries

ACS Appl. Mater. & Inter., 2020, 12, 10607-10615


Promoting Surface-mediated Oxygen Reduction Reaction of Solid Catalysts in Metal-O2 batteries by Capturing Superoxide Species,

J. Am. Chem. Soc., 2019, 141, 6263.


                                                              3589C

Functional and stability orientation synthesis of materials and structures in aprotic Li–O2 batteries,

Chem. Soc. Rev., 2018, 47, 2921-3004

                                                           

Superaerophobic Electrode with Metal@Metal-Oxide Powder Catalyst for Oxygen Evolution Reaction,

Adv. Funct. Mater., 2016, 26, 5998-6004



Surface and morphology structure evolution of metal phosphide for designing overall water splitting electrocatalyst,

J. Catal., 2019, 374, 51.


Bimetallic Oxide Fe1.89Mo4.11O7 Electrocatalyst with Highly Efficient Hydrogen Evolution Reaction Activity in Alkaline and Acidic Media,

Chem. Sci.,  2018, 9, 5640


                                                             

Tailoring Carbon Materials Substrate to Modify the Electronic Structure of Platinum for Boosting Its’ Electrocatalytic Activity,

J. Electrochem. Soc., 2018, 165, F247

                                                             

Efficient oxygen reduction reaction electrocatalysts synthesized from an ironcoordinated aromatic polymer framework,

J. Mater. Chem. A, 2016, 4, 3858–3864

                                                              undefined

In Situ CO2‑Emission Assisted Synthesis of Molybdenum Carbonitride Nanomaterial as Hydrogen Evolution Electrocatalyst,

J. Am. Chem. Soc., 2015, 137, 110−113

                                                               

Nitrogen-doped carbon nanomaterials as non-metal electrocatalysts for water oxidation,

Nat. Commun., 2013, 4, 2390

                                                         

Hydrogen Evolution by Tungsten Carbonitride Nanoelectrocatalysts Synthesized by the Formation of a Tungsten Acid/Polymer Hybrid In Situ,

Angew. Chem. Int. Ed., 2013, 52, 13638-13641


                                                           

Self-Supporting Oxygen Reduction Electrocatalysts Made from a Nitrogen-Rich Network Polymer,

J. Am. Chem. Soc., 2012, 134, 19528-19531


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