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Journal Publications
张文超
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Distinguished Professor
Supervisor of Doctorate Candidates
Journal Publications
Br doped porous bismuth oxychloride micro-sheets with rich oxygen vacancies and dominating {0 0 1} facets for enhanced nitrogen photo-fixation performances.Journal of colloid and interface science, 2019, 556 (15) : 111-119.
Hollow Carbon-Templated Few-Layered V5S8 Nanosheets Enabling Ultra-Fast Potassium Storage and Long-Term Cycling.ACS nano, 2019, 13 (7) : 7939-7948.
Constructing CoO/Co3S4 Heterostructures Embedded in N‐doped Carbon Frameworks for High‐Performance Sodium‐Ion Batteries.Advanced Functional Materials, 2019, 29 (29) : 1901925.
Approaching high-performance potassium-ion batteries via advanced design strategies and engineering.Science Advances, 2019, 5 (5)
In situ incorporation of nanostructured antimony in an N-doped carbon matrix for advanced sodium-ion batteries.Journal of Materials Chemistry A, 2019, 7 (20) : 12842-12850.
One-Step In Situ Preparation of Polymeric Selenium Sulfide Composite as a Cathode Material for Enhanced Sodium/Potassium Storage.ACS applied materials & interfaces, 2019, 11 (3) : 29807-29813.
Single-crystal-like ZnO mesoporous spheres derived from metal organic framework delivering high electron mobility for enhanced energy conversion and storage performances.Electrochimica Acta, 2019, 305 (10) : 474-483.
Bi-functional Nitrogen-doped Carbon Protective layer on Three-dimensional RGO/SnO2 Composites with Enhanced Electron Transport and Structural Stability for High-performance Lithium-ion Batteries.Journal of colloid and interface science, 2019, 542 (15) : 81-90.
Hierarchical mesoporous MoSe2@ CoSe/N-doped carbon nanocomposite for sodium ion batteries and hydrogen evolution reaction applications.Energy Storage Materials, 2018, 21: 97-106.
Unraveling the effect of salt chemistry on long-durability high-phosphorus-concentration anode for potassium ion batteries.Nano energy, 2018, 53: 967-974.
Heterostructure Manipulation via in Situ Localized Phase Transformation for High-Rate and Highly Durable Lithium Ion Storage.ACS nano, 2018, 12 (10) : 10430–10438.
Understanding high-energy-density Sn4P3 anodes for potassium-ion batteries.Joule, 2018, 2 (8) : 1534-1547.
Advances in Polar Materials for Lithium–Sulfur Batteries.Advanced Functional Materials, 2018, 28 (38) : 1707520.
Creating fast ion conducting composites via in-situ introduction of titanium as oxygen getter.Nano energy, 2018, 49: 549-554.
Research progress on vanadium-based cathode materials for sodium ion batteries.Journal of Materials Chemistry A, 2018, 6 (19) : 8815-8838.
In Situ Construction of 3D Interconnected FeS@ Fe3C@ Graphitic Carbon Networks for High‐Performance Sodium‐Ion Batteries.Advanced Functional Materials, 2017, 27 (41) : 1703390.
Unique Structural Design and Strategies for Germanium‐Based Anode Materials Toward Enhanced Lithium Storage.Advanced Energy Materials, 2017, 7 (23) : 1700488.
Large-scale synthesis of ternary Sn5SbP3/C composite by ball milling for superior stable sodium-ion battery anode.Electrochimica Acta, 2017, 235: 107-113.
Phosphorus-Based Alloy Materials for Advanced Potassium-Ion Battery Anode.Journal of the American Chemical Society, 2017, 139 (9) : 3316-3319.
A Strategy for Configuration of an Integrated Flexible Sulfur Cathode for High‐Performance Lithium–Sulfur Batteries.Angewandte Chemie International Edition, 2016, 55 (12) : 3992-3996.
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