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INSTITUTE OF APP... [3]
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DAI YUNLU [1]
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Journal article [4]
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2024 [2]
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Advanced Materia... [1]
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High-Lactate-Metabolizing Photosynthetic Bacteria Reprogram Tumor Immune Microenvironment
Journal article
Ma, Yichuan, Hu, Yujing, Liu, Huifang, Li, Xiaoya, Li, Yuanhang, Zhao, Yu, Zhang, Qi, Zhang, Ziyang, Leng, Qingqing, Luo, Li, Li, Lanya, Dai, Yunlu, Chen, Guojun, Zhang, Jinchao, Li, Zhenhua. High-Lactate-Metabolizing Photosynthetic Bacteria Reprogram Tumor Immune Microenvironment[J]. Advanced Materials, 2024, 36(36), 2405930.
Authors:
Ma, Yichuan
;
Hu, Yujing
;
Liu, Huifang
;
Li, Xiaoya
;
Li, Yuanhang
; et al.
Favorite
|
TC[WOS]:
0
TC[Scopus]:
0
IF:
27.4
/
30.2
|
Submit date:2024/08/05
Bacteria
Biomaterials
Cancer
Immunotherapy
Lactate Consumption
Tumor Microenvironment
Band alignment engineering of 2D/3D halide perovskite lateral heterostructures
Journal article
Feng, Mengjia, Kong, Lingkun, Chen, Jinlian, Ma, Huifang, Zha, Chenyang, Zhang, Linghai. Band alignment engineering of 2D/3D halide perovskite lateral heterostructures[J]. Journal of Chemical Physics, 2024, 161(2), 024703.
Authors:
Feng, Mengjia
;
Kong, Lingkun
;
Chen, Jinlian
;
Ma, Huifang
;
Zha, Chenyang
; et al.
Favorite
|
TC[WOS]:
0
TC[Scopus]:
0
IF:
3.1
/
3.6
|
Submit date:2024/08/05
Density Functional Theory
Electronic Band Structure
Heterostructures
Quantum Wells
Optoelectronic Properties
Atomic Structure
Optical Absorption
Perovskites
Charge Transfer
Topological tailoring-induced Dirac cone in ultrathin niobium diboride nanosheets for electrocatalytic sulfur reduction reaction
Journal article
Zhao, Yuwei, Zhang, Linghai, Xiang, Jianglu, Chen, Xinyu, Zhu, Chao, Wang, Kaixi, Li, Junfeng, Ma, Huifang, Song, Xuefen, Wang, Lin, Zha, Chenyang. Topological tailoring-induced Dirac cone in ultrathin niobium diboride nanosheets for electrocatalytic sulfur reduction reaction[J]. Materials Today Physics, 2023, 32, 101029.
Authors:
Zhao, Yuwei
;
Zhang, Linghai
;
Xiang, Jianglu
;
Chen, Xinyu
;
Zhu, Chao
; et al.
Favorite
|
TC[WOS]:
10
TC[Scopus]:
9
IF:
10.0
/
9.8
|
Submit date:2023/04/03
Catalytic Reaction
D-band Center
Dirac Materials
Lithium Sulfur Battery
Weyl Fermions
High electrochemical activity of Li2S2 linking two-dimensional tungsten boride nanosheet enables high-loading and long-lasting lithium-sulfur batteries
Journal article
Zhao, Yuwei, Li, Jing, Xiang, Jianglu, Wu, Rong, Lyu, Chongguang, Ma, Huifang, Song, Xuefen, Zhang, Junran, Wang, Lin, Zha, Chenyang. High electrochemical activity of Li2S2 linking two-dimensional tungsten boride nanosheet enables high-loading and long-lasting lithium-sulfur batteries[J]. Materials Today Energy, 2022, 25, 100970.
Authors:
Zhao, Yuwei
;
Li, Jing
;
Xiang, Jianglu
;
Wu, Rong
;
Lyu, Chongguang
; et al.
Favorite
|
TC[WOS]:
19
TC[Scopus]:
21
IF:
9.0
/
8.4
|
Submit date:2022/05/04
Activation Voltage
High Area Capacity
Li2s2
Long Cycling Performance
Wet Chemistry
