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Deliang Ba
Researcher at Huazhong University of Science and Technology
Publications - 12
Citations - 510
Deliang Ba is an academic researcher from Huazhong University of Science and Technology. The author has contributed to research in topics: Anode & Cathode. The author has an hindex of 6, co-authored 9 publications receiving 156 citations.
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Journal ArticleDOI
Designing Polymer-in-Salt Electrolyte and Fully Infiltrated 3D Electrode for Integrated Solid-State Lithium Batteries.
Wenyi Liu,Chengjun Yi,Linpo Li,Shuailei Liu,Qiuyue Gui,Deliang Ba,Yuanyuan Li,Dongliang Peng,Jinping Liu +8 more
TL;DR: A poly(vinylidene fluoride-co-hexafluoropropylene)-based polymer-in-salt solid electrolyte (PISSE) with high room-temperature ionic conductivity presents high performance close to that with liquid electrolyte, which also exhibits robust flexibility and brilliant safety under abuse tests.
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Noninterference Revealing of “Layered to Layered” Zinc Storage Mechanism of δ-MnO2 toward Neutral Zn–Mn Batteries with Superior Performance
TL;DR: Here, a binder‐free δ‐MnO2 cathode is designed and a favorable “layered to layered” Zn2+ storage mechanism is revealed systematically using such a “noninterferencing” electrode platform in combination with ab initio calculation.
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Synergistic Coupling of Ether Electrolyte and 3D Electrode Enables Titanates with Extraordinary Coulombic Efficiency and Rate Performance for Sodium-Ion Capacitors
Qiuyue Gui,Deliang Ba,Zhenshuai Zhao,Yanfang Mao,Weihua Zhu,Tianyu Lei,Jianfeng Tan,Bohua Deng,Liang Xiao,Yuanyuan Li,Jinping Liu +10 more
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Electrolyte Concentration Regulation Boosting Zinc Storage Stability of High-Capacity K0.486V2O5 Cathode for Bendable Quasi-Solid-State Zinc Ion Batteries
Linpo Li,Shuailei Liu,Liu Wencong,Deliang Ba,Wenyi Liu,Qiuyue Gui,Chen Yao,Zuoqi Hu,Yuanyuan Li,Jinping Liu +9 more
TL;DR: In this article, a vanadate K0.486V2O5 (KVO) cathode with large interlayer spacing and high capacity was used for assembling a quasi-solid-state Zn ion battery.
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Directly grown nanostructured electrodes for high-power and high-stability alkaline nickel/bismuth batteries
TL;DR: In this paper, the use of directly grown Bi2O3 nanoflake film with kinetic advantages as the anode for Ni/Bi batteries was presented, where glucose-derived carbon is integrated onto the surfaces of nanoflakes, which not only enhances the electron transfer but also buffers the conversion-reaction induced volume expansion of the Bi 2O3, helping maintaining the cycling stability of the film.