Sulfidation of rock-salt-type transition metal oxide nanoparticles as an example of a solid state reaction in colloidal nanoparticles

Chen C.-J.; Chiang R.-K.

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Sulfidation of rock-salt-type transition metal oxide nanoparticles as an example of a solid state reaction in colloidal nanoparticles

机译：岩盐型过渡金属氧化物纳米粒子的硫化作为胶体纳米粒子中固态反应的一个例子

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The sulfidation of colloidal rock-salt-type MO (M = Fe, Mn and Co) nanocrystals was performed in organic solvents using dissolved elemental sulfur at moderate temperatures. The vacancy defects in these rock-salt-type structures clearly promote complete oxide-sulfide conversion. The conversion products were hollow metal sulfide (pyrrhotite (Fe1 - xS), Co1 - xS and α-MnS) nanoparticles. These conversions by sulfidation proceed rapidly, making difficult the isolation of intermediates. The sulfidation intermediates, when the supply of sulfur was insufficient, had interesting structures, in which the metal oxide cores were surrounded by metal sulfide shells or had surfaces that were decorated with metal sulfide islands. Based on the above results, a mechanism of surface nucleation, shell formation, and void formation by diffusion processes is proposed.

机译：胶体岩盐型MO（M = Fe，Mn和Co）纳米晶体的硫化是在有机溶剂中使用溶解的元素硫在中等温度下进行的。这些岩盐型结构中的空位缺陷明显促进了氧化物-硫化物的完全转化。转化产物为空心金属硫化物（硫铁矿（Fe1-xS），Co1-xS和α-MnS）纳米颗粒。这些通过硫化的转化迅速进行，使得中间体的分离变得困难。当硫的供应不足时，硫化中间体具有令人感兴趣的结构，其中金属氧化物核被金属硫化物壳包围或表面装饰有金属硫化物岛。基于以上结果，提出了通过扩散过程的表面成核，壳形成和空隙形成的机理。

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《Dalton transactions: An international journal of inorganic chemistry》 |2011年第4期|共6页
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Chen C.-J.; Chiang R.-K.;
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中图分类化学;
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1. Sulfidation of rock-salt-type transition metal oxide nanoparticles as an example of a solid state reaction in colloidal nanoparticles [J] . Chen C.-J., Chiang R.-K. Dalton transactions: An international journal of inorganic chemistry . 2011,第4期

机译：岩盐型过渡金属氧化物纳米粒子的硫化作为胶体纳米粒子中固态反应的一个例子
2. Preparation of semiconductor and transition metal nanoparticles on colloidal solid supports [J] . Dekany I., Szucs A., Kiraly Z., Colloids and Surfaces, A. Physicochemical and Engineering Aspects . 1998,第3期

机译：胶体固体载体上半导体和过渡金属纳米粒子的制备
3. Nonaqueous synthesis of metal oxide nanoparticles: Short review and doped titanium dioxide as case study for the preparation of transition metal-doped oxide nanoparticles [J] . Djerdj I, Arcon D, Jaglicic Z, Journal of Solid State Chemistry . 2008,第7期

机译：金属氧化物纳米粒子的非水合成：简述和掺杂二氧化钛作为制备过渡金属掺杂氧化物纳米粒子的案例研究
4. Tuning of D-Band Center of Platinum Nanoparticles By Changing Transition Metal Oxide Support Materials for Enhancement of Oxygen Reduction Reaction (2) [C] . Fuma Ando, Takao Gunji, Takeo Ohsaka, Pacific Rim Meeting on Electrochemical and Solid-State Science . 2020

机译：通过改变过渡金属氧化物载体载体增强氧还原反应的氧化金属氧化物载体（2）调整铂纳米粒子的D频带中心（2）
5. Impacts of Oxygen Vacancies in Titanium Dioxide-Supported Metal Nanoparticles in the Oxygen Reduction Reaction and the Carbon Electrooxidation Reaction [D] . Sweeney, Samantha. 2018

机译：氧气空位在氧还原反应中二氧化钛支撑的金属纳米颗粒中的影响及碳电氧化反应
6. Transition metal trifluoroacetates (M = Fe Co Mn) as precursors for uniform colloidal metal difluoride and phosphide nanoparticles [O] . Christoph P. Guntlin, Kostiantyn V. Kravchyk, Rolf Erni, -1

机译：过渡金属三氟乙酸盐（M = FeCoMn）作为均匀的胶体金属二氟化物和磷化物纳米粒子的前体
7. Effects of natural organic matter (NOM), metal-to-sulfide ratio and Mn2+on cadmium sulfide nanoparticle growth and colloidal stability [O] . Kevin Hoffmann, Iso Christl, Ralf Kaegi, 2020

机译：天然有机物（NOM），金属对硫化物比和Mn2 +对硫化镉纳米粒子生长和胶体稳定性的影响

Sulfidation of rock-salt-type transition metal oxide nanoparticles as an example of a solid state reaction in colloidal nanoparticles

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