Leaf-like MXene nanosheets intercalated TiO_2 nanorod array photoelectrode with enhanced photoelectrochemical performance

Zhang Sainan; Liu Ying; Feng Min; Zhang Bowen; Yu Tongtong; Xu Shiwei; Sun Guoyun; Wang Daoai

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Leaf-like MXene nanosheets intercalated TiO_2 nanorod array photoelectrode with enhanced photoelectrochemical performance

机译：叶状MXENE纳米液晶插入TiO_2 Nanorod阵列光电极，具有增强的光电化学性能

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摘要

In this study, a new photoelectmchemical material is fabricated by loading two-dimensional leaf-like Ti3C2 MXene nanosheets into the TiO2 nanomd array to form Ti3C2 nanosheets/TiO2 nanomd (Ti3C2/TiO2 NR) composite photoanode materials. The unique two-dimensional/one-dimensional (2D/1D) composite photocatalytic materials enhance the photoelectrochemical water splitting performance under simulated solar light (100 mW cm(-2)) and yield a high photocurrent density of 1.41 mA cm(-2) at 1.23 V vs. reversible hydrogen electrode (V-vs.( RHE)) and photoconversion efficiency of 0.46% at 0.78 V-vs.( RHE), which are almost 3.13 and 5.82 times higher, respectively, than those of the pure rutile TiO2 NRs. The enhanced photoelectmchemical performances are attributed to the photogenerated electrons produced by TiO2 NR which could be quickly transported by Ti3C2 nanosheets due to their good electrical conductivity and increased specific surface area, which improve the separation efficiency of electrons and holes. These Ti3C2/TiO2 NR, as new photocatalytic materials, have promising potential applications in the fields of photoelectrochemical water splitting, solar cells, and other photocatalytic devices.

机译：在该研究中，通过将二维叶状Ti3c2 mxosheS加载到TiO2纳米阵列中，以形成Ti3C2纳米片/ TiO2纳米（Ti3C2 / TiO 2 NR）复合光电材料，通过将二维叶状Ti3C2 mxOneS纳米片制成新的光弹电图。独特的二维/一维（2D / 1D）复合光催化材料增强了模拟太阳灯（100mW cm（-2））下的光电化学水分裂性能，并产生1.41 mA cm（-2）的高光电流密度在1.23V与可逆氢电极（V-Vs））和光电转换效率为0.78 V-Vs的0.46％。（RHE），分别比纯金红石的近3.13和5.82倍。 TiO2 NRS。增强型光弹电图性能归因于由TiO2 NR产生的光发化电子由于它们的良好导电性和增加的比表面积而通过Ti3C2纳米片迅速运输，这提高了电子和孔的分离效率。作为新的光催化材料，这些Ti3C2 / TiO2 NR在光电化学水分解，太阳能电池和其他光催化装置的领域中具有有希望的潜在应用。

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来源
《Journal of power sources》 |2021年第1期|229236.1-229236.8|共8页
作者
Zhang Sainan; Liu Ying; Feng Min; Zhang Bowen; Yu Tongtong; Xu Shiwei; Sun Guoyun; Wang Daoai;
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作者单位

Ocean Univ China Inst Mat Sci & Engn Qingdao 266100 Peoples R China|Qingdao Ctr Resource Chem & New Mat Qingdao 266100 Peoples R China;

Ocean Univ China Inst Mat Sci & Engn Qingdao 266100 Peoples R China;

Chinese Acad Sci Lanzhou Inst Chem Phys State Key Lab Solid Lubricat Lanzhou 730000 Peoples R China|Qingdao Ctr Resource Chem & New Mat Qingdao 266100 Peoples R China;

Henan Univ Henan Key Lab Photovolta Mat Kaifeng 475001 Peoples R China;

Chinese Acad Sci Lanzhou Inst Chem Phys State Key Lab Solid Lubricat Lanzhou 730000 Peoples R China|Qingdao Ctr Resource Chem & New Mat Qingdao 266100 Peoples R China;

Ocean Univ China Inst Mat Sci & Engn Qingdao 266100 Peoples R China|Qingdao Ctr Resource Chem & New Mat Qingdao 266100 Peoples R China;

Ocean Univ China Inst Mat Sci & Engn Qingdao 266100 Peoples R China|Qingdao Ctr Resource Chem & New Mat Qingdao 266100 Peoples R China;

Chinese Acad Sci Lanzhou Inst Chem Phys State Key Lab Solid Lubricat Lanzhou 730000 Peoples R China|Qingdao Ctr Resource Chem & New Mat Qingdao 266100 Peoples R China;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
原文格式 PDF
正文语种 eng
中图分类
关键词
MXene nanosheets; TiO2 NRs; 2D/1D composite structure; Photoelectrochemical; Water splitting;

机译：MXENE NANOSHEERS;TIO2 NRS;2D / 1D复合结构;光电化学;水分裂;
入库时间 2022-08-19 00:56:24

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机译：用于改善光电化学性能的3D Bi2S3柳叶状纳米片/ TiO2纳米棒支化异质结构阵列
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机译：Fe_2O_3纳米棒/ TiO_2纳米片的异质结构：生长机理，增强的可见光光催化和光电化学性能
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5. High Performance Glad Nanorod CuInxGa(1-x) Se2 Arrays with Enhanced Carrier Collection and Light Trapping for Photodetector Applications [D] . Brozak, Matthew. 2018

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6. Highly Enhanced Visible-Light-Driven Photoelectrochemical Performance of ZnO-Modified In2S3 Nanosheet Arrays by Atomic Layer Deposition [O] . Ming Li, Xinglong Tu, Yunhui Wang, -1

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机译：氮掺杂TiO_2纳米线阵列增强的可见光光电化学性能

Leaf-like MXene nanosheets intercalated TiO_2 nanorod array photoelectrode with enhanced photoelectrochemical performance

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