Photocatalytic hydrogen evolution over monolayer H1.07Ti1.73O4 center dot H2O nanosheets: Roles of metal defects and greatly enhanced performances

Song Yujie; Wang Hao; Xiong Jinhua; Guo Binbin; Liang Shijing; Wu Ling

首页> 外文期刊>Applied Catalysis, B. Environmental: An International Journal Devoted to Catalytic Science and Its Applications >Photocatalytic hydrogen evolution over monolayer H1.07Ti1.73O4 center dot H2O nanosheets: Roles of metal defects and greatly enhanced performances

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Photocatalytic hydrogen evolution over monolayer H1.07Ti1.73O4 center dot H2O nanosheets: Roles of metal defects and greatly enhanced performances

机译：在Monolayer H1.07Ti1.73O4中央点H2O纳米液中的光催化氢进化：金属缺陷的作用以及大大提高性能

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Monolayer H1.07Ti1.73O4 center dot H2O nanosheets with the thickness about 0.67 nm were prepared and developed as an efficient photocatalyst for hydrogen evolution. The prepared sample exhibits greatly improved photocatalytic activity with more 10.5 times higher than its layered counterpart. The morphologies, microstructures, superficial properties and electronic structures of the sample were characterized by XRD, TEM, AFM, BET, and UV-vis DRS in detail. Moreover, EXAFS, FTIR, XPS and in-suit FTIR of D2O absorption results suggested that Ti vacancies result in the formation of abundant active O species around vacancies sites, which can be exposed fully in the monolayer nanosheets and bind with water molecules in the formation of surface coordination via hydrogen bonds. An efficient electron transition from nanosheets to surficial coordinated H2O molecules takes place. Finally, a synergistic effect between titanium vacancies and ultrathin 2D structure was proposed to elucidate that the enhanced photocatalytic performance over metal defects may be attributed to efficient exposure of active species and transition of photo-electrons from surface to H2O molecules.

机译：制备厚度约0.67nm的厚度H1.07Ti1.73O4中心点H2O纳米胸部作为氢气进化的有效光催化剂。制备的样品大大改善了光催化活性，比其层对应物高的10.5倍。通过XRD，TEM，AFM，BET和UV-VIS DRS详细表征样品的形态，微观结构，浅表性质和电子结构。此外，EXAFS，FTIR，XPS和In-Suit的D2O吸收结果的FTIR表明，Ti空位导致障碍位点周围形成丰富的活性O物种，其可以在单层纳米片中充分暴露并与地层中的水分子结合通过氢键的表面配位。从纳米胸部到曲面曲面协调的H2O分子的有效电子转变。最后，提出了钛空位和超薄2D结构之间的协同效应，以阐明对金属缺陷的增强的光催化性能可能归因于有效地暴露活性物质和从表面到H2O分子的光电过渡。

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来源
《Applied Catalysis, B. Environmental: An International Journal Devoted to Catalytic Science and Its Applications》 |2018年第2018期|共9页
作者
Song Yujie; Wang Hao; Xiong Jinhua; Guo Binbin; Liang Shijing; Wu Ling;
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作者单位

Fuzhou Univ State Key Lab Photocatalysis Energy &

Environm Fuzhou 350002 Fujian Peoples R China;

Fuzhou Univ State Key Lab Photocatalysis Energy &

Environm Fuzhou 350002 Fujian Peoples R China;

Fuzhou Univ State Key Lab Photocatalysis Energy &

Environm Fuzhou 350002 Fujian Peoples R China;

Fuzhou Univ State Key Lab Photocatalysis Energy &

Environm Fuzhou 350002 Fujian Peoples R China;

Fuzhou Univ State Key Lab Photocatalysis Energy &

Environm Fuzhou 350002 Fujian Peoples R China;

Fuzhou Univ State Key Lab Photocatalysis Energy &

Environm Fuzhou 350002 Fujian Peoples R China;

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正文语种 eng
中图分类催化;
关键词
Monolayer nanosheets; Ti vacancies; Surface coordination; Photacatalysis; Hydrogen evolution;

机译：单层纳米片;TI职位;表面协调;光处理;氢气进化;

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1. Photocatalytic hydrogen evolution over monolayer H1.07Ti1.73O4 center dot H2O nanosheets: Roles of metal defects and greatly enhanced performances [J] . Song Yujie, Wang Hao, Xiong Jinhua, Applied Catalysis, B. Environmental: An International Journal Devoted to Catalytic Science and Its Applications . 2018,第期

机译：在Monolayer H1.07Ti1.73O4中央点H2O纳米液中的光催化氢进化：金属缺陷的作用以及大大提高性能
2. Construction of novel Sr0.4H1.2Nb2O6 center dot H2O/g-C3N4 heterojunction with enhanced visible light photocatalytic activity for hydrogen evolution [J] . Ma Wanxia, Li Di, Wen Baowei, Journal of Colloid and Interface Science . 2018,第期

机译：新型SR0.4H1.2NB2O6中心点H2O / G-C3N4异质结具有增强的可见光光催化活性的氢气进化
3. Role of the alkali metal ion and hydrogen bonds in M[VO(O-2)(2)bpy] center dot nH(2)O (M = Li+, Na+, K+ and Rb+) and Cs[VO(O-2)(2)bpy] center dot H2O2 complexes: The X-ray crystal structures and spectroscopic properties [J] . Przybylski W, Grybos R, Rehder D, Polyhedron: The International Journal for Inorganic and Organometallic Chemistry . 2009,第8期

机译：碱金属离子和氢键在M [VO（O-2）（2）bpy]中心点nH（2）O（M = Li +，Na +，K +和Rb +）和Cs [VO（O-2）（2）[bpy]中心点过氧化氢配合物：X射线晶体结构和光谱性质
4. Defects Engineering of Ru/MoS2-x and Its Enhanced Photocatalytic/Electrocatalytic Hydrogen Evolution Activity [C] . Yuxiao Zhang, Yasutaka Kuwahara, Kohsuke Mori 日本化学会春季年会講演予稿集 . 2018

机译：Ru / MOS2-X的缺陷工程及其增强的光催化/电催化氢气进化活性
5. Electrocatalysts as Co-Catalysts for Enhanced Photocatalytic Hydrogen Evolution [D] . Tong, Rui. 2020

机译：电催化剂作为增强光催化氢气进化的助催化剂
6. Enhanced photocatalytic performance of a Ti-based metal-organic framework for hydrogen production: Hybridization with ZnCr-LDH nanosheets [O] . Muhammad Sohail, Hyunuk Kim, Tae Woo Kim -1

机译：钛基金属有机骨架用于制氢的增强的光催化性能：与ZnCr-LDH纳米片的杂交
7. Defect-Rich MoS2 Ultrathin Nanosheets-Coated Nitrogen-Doped ZnO Nanorod Heterostructures: An Insight into in-Situ-Generated ZnS for Enhanced Photocatalytic Hydrogen Evolution [O] . -1

机译：富含缺陷的MOS2超薄纳米蛋白酶涂覆的氮掺杂ZnO纳米OD异质结构：对原位产生的ZnS的洞察，用于增强的光催化氢进化

Photocatalytic hydrogen evolution over monolayer H1.07Ti1.73O4 center dot H2O nanosheets: Roles of metal defects and greatly enhanced performances

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