Promoted water splitting by efficient electron transfer between Au nanoparticles and hematite nanoplates: a theoretical and experimental study

Lei Fengcai; Liu Huimin; Yu Jing; Tang Zhao; Xie Junfeng; Hao Pin; Cui Guanwei; Tang Bo

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Promoted water splitting by efficient electron transfer between Au nanoparticles and hematite nanoplates: a theoretical and experimental study

机译：Au纳米粒子和赤铁矿纳米板之间有效电子转移的促进水分裂：理论和实验研究

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An ideal interface model combining a hematite nanoplate-based photoanode with Au nanoparticles (NPs) is proposed for elucidating the specific role of Au NPs in photoelectrochemical performances. The theoretical and experimental results reveal that Au/Fe2O3 nanoplates can lead to an enhanced localized electric field at the metal-semiconductor interface upon the formation of surface plasmon resonance and hot electrons, which can be injected into the conduction band of the semiconductor, thus improving the efficiency of the generation and separation of electron-hole pairs. As expected, the Au/Fe2O3 nanoplate-based photoelectrode possessed a higher carrier density and a photocurrent of 1.7 mA cm(-2) and 3.8 mA cm(-2) at 1.23 V and 1.5 V vs. RHE, which are nearly 5 times and 30 times larger than that of the Au/Fe2O3 nanocrystals and pristine Fe2O3 nanoplate-based photoelectrodes, respectively.

机译：提出了一种与Au纳米粒子（NPS）组合的基于赤铁矿纳米层的光电码的理想界面模型，以阐明Au nps在光电化学性能中的特定作用。理论和实验结果表明，在形成表面等离子体谐振和热电子的形成时，Au / Fe2O3纳米板可以导致金属半导体界面处的增强局部电场，其可以注入半导体的导通带中，从而改善电子孔对的产生和分离的效率。如所预期的，基于Au / Fe 2 O 3纳米片的光电电极具有较高的载流子密度和1.7mAcm（-2）和3.8 mA cm（-2）的光电流，1.5V和1.5V与RHE有近5倍分别大于Au / Fe2O3纳米晶体和原始Fe 2 O 3纳米层的光电图30倍。

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《Physical chemistry chemical physics: PCCP》 |2019年第3期|共6页
作者
Lei Fengcai; Liu Huimin; Yu Jing; Tang Zhao; Xie Junfeng; Hao Pin; Cui Guanwei; Tang Bo;
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Shandong Normal Univ Coll Chem Chem Engn &

Mat Sci Minist Educ Key Lab Mol &

Nano Probes Inst Biomed Sci Collaborat Innovat Ctr Functionalized Probes Chem Jinan 250014 Shandong Peoples R China;

Shandong Normal Univ Coll Chem Chem Engn &

Mat Sci Minist Educ Key Lab Mol &

Nano Probes Inst Biomed Sci Collaborat Innovat Ctr Functionalized Probes Chem Jinan 250014 Shandong Peoples R China;

Shandong Normal Univ Sch Phys &

Elect Inst Mat &

Clean Energy Jinan 250014 Shandong Peoples R China;

Shandong Normal Univ Coll Chem Chem Engn &

Mat Sci Minist Educ Key Lab Mol &

Nano Probes Inst Biomed Sci Collaborat Innovat Ctr Functionalized Probes Chem Jinan 250014 Shandong Peoples R China;

Shandong Normal Univ Coll Chem Chem Engn &

Mat Sci Minist Educ Key Lab Mol &

Nano Probes Inst Biomed Sci Collaborat Innovat Ctr Functionalized Probes Chem Jinan 250014 Shandong Peoples R China;

Shandong Normal Univ Coll Chem Chem Engn &

Mat Sci Minist Educ Key Lab Mol &

Nano Probes Inst Biomed Sci Collaborat Innovat Ctr Functionalized Probes Chem Jinan 250014 Shandong Peoples R China;

Shandong Normal Univ Coll Chem Chem Engn &

Mat Sci Minist Educ Key Lab Mol &

Nano Probes Inst Biomed Sci Collaborat Innovat Ctr Functionalized Probes Chem Jinan 250014 Shandong Peoples R China;

Shandong Normal Univ Coll Chem Chem Engn &

Mat Sci Minist Educ Key Lab Mol &

Nano Probes Inst Biomed Sci Collaborat Innovat Ctr Functionalized Probes Chem Jinan 250014 Shandong Peoples R China;

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1. Promoted water splitting by efficient electron transfer between Au nanoparticles and hematite nanoplates: a theoretical and experimental study [J] . Lei Fengcai, Liu Huimin, Yu Jing, Physical chemistry chemical physics: PCCP . 2019,第3期

机译：Au纳米粒子和赤铁矿纳米板之间有效电子转移的促进水分裂：理论和实验研究
2. Eutectic solvent-mediated selective synthesis of Cu–Sb–S-based nanocrystals: combined experimental and theoretical studies toward highly efficient water splitting [J] . Uma V. Ghorpade, Mahesh P. Suryawanshi, Seung Wook Shin, Journal of Materials Chemistry, A. Materials for energy and sustainability . 2018,第40期

机译：共晶溶剂介导的Cu-SB-S基纳米晶体的选择性合成：高效水分裂的组合实验和理论研究
3. The importance of accurate adiabatic interaction potentials for the correct description of electronically nonadiabatic vibrational energy transfer: A combined experimental and theoretical study of NO(v = 3) collisions with a Au(111) surface [J] . Kai Golibrzuch, Pranav R. Shirhatti, Igor Rahinov, The Journal of Chemical Physics . 2014,第4期

机译：准确绝热相互作用势对正确描述电子非绝热振动能量转移的重要性：NO（v = 3）与Au（111）表面碰撞的组合实验和理论研究
4. Synthesis and Characterization of Hematite Nanoparticles as Active Photocatalyst for Water Splitting Application [C] . CHIN Sze Mei, SURIATI Sufian, Jeefferie Abdul Razak International Conference on Advanced Materials Engineering and Technology . 2014

机译：赤铁矿纳米粒子作为水分裂施用活性光催化剂的合成与表征
5. Experimental study of electrons from heavy flavor hadrons decays in Au+Au collisions at 200, 62.4 and 39 GeV in the STAR experiment at RHIC. [D] . Mustafa, Mustafa. 2013

机译：在RHIC的STAR实验中，来自重味强子的电子在200、62.4和39 GeV的Au + Au碰撞中衰减的实验研究。
6. Au@CdS Core–Shell Nanoparticles‐Modified ZnO Nanowires Photoanode for Efficient Photoelectrochemical Water Splitting [O] . Chun Xian Guo, Jiale Xie, Hongbin Yang, 2015

机译：Au @ CdS核壳纳米粒子修饰的ZnO纳米线光电阳极用于高效光电化学水分解
7. The importance of accurate adiabatic interaction potentials for the correct description of electronically nonadiabatic vibrational energy transfer: A combined experimental and theoretical study of NO(v=3) collisions with a Au(111) surface. [O] . Golibrzuch, K., Shirhatti, P., Rahinov, I., 2014

机译：精确绝热相互作用势对于电子非绝热振动能量转移的正确描述的重要性：NO（v = 3）与au（111）表面碰撞的组合实验和理论研究。

Promoted water splitting by efficient electron transfer between Au nanoparticles and hematite nanoplates: a theoretical and experimental study

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