T
Tuzhi Xiong
Researcher at Hunan University
Publications - 29
Citations - 1599
Tuzhi Xiong is an academic researcher from Hunan University. The author has contributed to research in topics: Overpotential & Chemistry. The author has an hindex of 12, co-authored 21 publications receiving 603 citations.
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Journal ArticleDOI
Adsorption energy engineering of nickel oxide hybrid nanosheets for high areal capacity flexible lithium-ion batteries
Yongchao Huang,Hao Yang,Tuzhi Xiong,David Adekoya,Weitao Qiu,Zhongmin Wang,Shanqing Zhang,M.-Sadeeq Balogun +7 more
TL;DR: In this paper, the position of the p-orbital energy level was modulated by using porous N-doped carbon fiber and carbon quantum dots (CDs) to enhance the performance of the NiO hybrid nanosheets.
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Nitrogen treatment generates tunable nanohybridization of Ni5P4 nanosheets with nickel hydr(oxy)oxides for efficient hydrogen production in alkaline, seawater and acidic media
Yongchao Huang,Lei Hu,Ran Liu,Yuwen Hu,Tuzhi Xiong,Weitao Qiu,M.-Sadeeq Balogun,Anlian Pan,Yexiang Tong +8 more
TL;DR: In this paper, a simple nitrogen treatment strategy was proposed to controllably hybridize Ni5P4 porous nanosheets with amorphous nickel hydr(oxy)oxide [Ni2+δOδ(OH)2−δ] layer and utilize as efficient electrocatalyst for hydrogen evolution reaction (HER) in neutral (real seawater), alkaline and acidic media.
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All-carbon-frameworks enabled thick electrode with exceptional high-areal-capacity for Li-Ion storage
Guo Li,Ting Ouyang,Tuzhi Xiong,Zhao Jiang,David Adekoya,Yang Wu,Yongchao Huang,M.-Sadeeq Balogun +7 more
TL;DR: In this article, the concept of thick electrode is utilized to design a-17 mm three-dimensional (3D) all-carbon frameworks with remarkable structural stability as high-areal-capacity anode for lithium-ion batteries.
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Nanostructured transition metal compounds coated 3D porous core-shell carbon fiber as monolith water splitting electrocatalysts: A general strategy
Fang Yang,Tuzhi Xiong,Peng Huang,Shuhui Zhou,Qirong Tan,Hao Yang,Yongchao Huang,M.-Sadeeq Balogun,M.-Sadeeq Balogun +8 more
TL;DR: In this paper, the authors developed a general strategy to boost the hydrogen and oxygen evolution reactions (HER and OER) performance of transition metal compounds (TMCs) by designing monolith electrocatalyst architectures.
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Efficient Hydrogen Evolution Activity and Overall Water Splitting of Metallic Co4N Nanowires through Tunable d-Orbitals with Ultrafast Incorporation of FeOOH
TL;DR: Experimental analyses and theoretical assessments display that the hybridization of Co4N with FeOOH is beneficiary for optimizing and promoting the free energy of H adsorption due to the tuning of d-orbital, which shows a new strategy for designing a high-performance water-splitting device based on cobalt-based electrocatalysts.