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Out-of-Substrate Ag–Ag2O Nanoplates:Surfactantless Photochemical Synthesis Structural Evolution andMechanistic Study

机译：衬底外Ag–Ag2O纳米板：无表面活性剂的光化学合成结构演变和力学研究

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摘要

Two types of out-of-substrate Ag–Ag2O nanoplates were grown on a ZnO substrate through a surfactantless photochemical method. First, the in situ photochemically synthesized Ag–Ag2O nanoparticles further crystallized into nanoplate-like superstructures with rough surfaces and ragged edges. The nanoparticle-mediated crystallization process was governed by a layer-by-layer crystallization mechanism. Our study should help fundamentally understand the formation mechanism of hierarchical nanoparticle superstructures. Under continuous UV illumination, the hundreds of nanometer-sized rough nanoplates (i.e., the nanoplate-like superstructures of nanoparticles) can be transformed into large smooth nanoplates with sizes of up to several micrometers. The out-of-substrate Ag–Ag2O nanoplates/ZnO heterostructures are potentially promising for photocatalytic applications.

机译：通过无表面活性剂光化学方法，两种类型的基底外Ag-Ag2O纳米板均在ZnO基底上生长。首先，原位光化学合成的Ag-Ag2O纳米颗粒进一步结晶成具有粗糙表面和参差不齐的纳米板状超结构。纳米粒子介导的结晶过程由逐层结晶机制控制。我们的研究应有助于从根本上理解分层纳米颗粒超结构的形成机理。在连续的紫外线照射下，可以将数百个纳米尺寸的粗糙纳米板（即纳米颗粒的纳米板状超结构）转变为尺寸高达几微米的大型光滑纳米板。衬底外的Ag–Ag2O纳米板/ ZnO异质结构在光催化应用中具有潜在的前景。

著录项

期刊名称 ACS Omega
作者
Meng Yin Li; ∥; Yao Quan Mao; ∥; Su Ke Yang; Ting Ting Dai; Hua Yang; Feng Feng; Tao Wu; Muzi Chen; Guo Qin Xu; *; Ji Hong Wu; *;
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年(卷),期 2016(1),4
年度 2016
页码 696–705
总页数 10
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1. Ag2O机械活化和热还原合成Ag的等温动力学 [J] . Gholam Reza KHAYATI, Kamal JANGHORBAN, Mohamad Hosein SHARIAT 中国有色金属学报（英文版） . 2012,第004期
2. Out-of-Substrate Ag–Ag₂O Nanoplates: Surfactantless Photochemical Synthesis, Structural Evolution, and Mechanistic Study [J] . Meng Yin Li, Yao Quan Mao, Su Ke Yang, ACS Omega . 2016,第4期

机译：基底外Ag–Ag _{2 O纳米板：无表面活性剂的光化学合成，结构演变和机理研究}
3. Synthesis of Out-of-Substrate Au-Ag Nanoplates with Enhanced Stability for Catalysis [J] . Yugang Sun, Changhui Lei Angewandte Chemie . 2009,第37期

机译：具有增强的催化稳定性的基底外Au-Ag纳米板的合成
4. Surfactantless synthesis of silver nanoplates and their application in SERS [J] . Sun YG, Wiederrecht GP Small . 2007,第11期

机译：银表面无表面活性剂的合成及其在SERS中的应用
5. Study on 248nm Laser-induced Photochemical Synthesis of MOFs and their structural variations [C] . Seong-Poong Lee, Hong-Ki Chang, Houng -Ha Jeon, The 8th Asian Hydrogen Energy Conference . 2005

机译：248nm激光诱导MOF的光化学合成及其结构变化的研究
6. Synthesis, photochemical properties and DNA binding studies of dna cleaving agents based on chiral dipyridine dihydrodioxins salts. [D] . Shamaev, Alexei. 2015

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7. Dielectric Barrier Discharge (DBD) Plasma Assisted Synthesis of Ag2O Nanomaterials and Ag2O/RuO2 Nanocomposites [O] . Antony Ananth, Young Sun Mok 2016

机译：介电阻挡放电（DBD）等离子体辅助合成Ag2O纳米材料和Ag2O / RuO2纳米复合材料
8. Out-of-Substrate Ag–Ag2O Nanoplates: Surfactantless Photochemical Synthesis, Structural Evolution, and Mechanistic Study [O] . Meng Yin Li, Yao Quan Mao, Su Ke Yang, 2016

机译：基质外ag-ag2O纳米片：无表面活性剂光化学合成，结构演变和机理研究
9. Stoichiometric Determination of Chlorophyll a-Water Aggregates and Photosynthesis. Symbiotic Roles of the Magnesium Atom and the Ring V Cyclopentanone Group in the Structural and Photochemical Properties of Chlorophyll a Monohydrate and Dihydrate. [R] . Brace, J. G., Fong, F. K., Karweik, D. H., 1977

机译：化学计量测定叶绿素a-水聚集体和光合作用。镁原子和环V环戊酮基团在叶绿素a一水合物和二水合物结构和光化学性质中的共生作用。

Out-of-Substrate Ag–Ag2O Nanoplates:Surfactantless Photochemical Synthesis Structural Evolution andMechanistic Study

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