Shape Control of Cobalt Carbonate Particles by a Hydrothermal Process in a Mixed Solvent: An Efficient Precursor to Nanoporous Cobalt Oxide Architectures and Their Sensing Property

Cong HP; Yu SH

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Shape Control of Cobalt Carbonate Particles by a Hydrothermal Process in a Mixed Solvent: An Efficient Precursor to Nanoporous Cobalt Oxide Architectures and Their Sensing Property

机译：混合溶剂中水热法对碳酸钴颗粒的形状控制：纳米多孔氧化钴结构的有效前驱体及其传感特性

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Shape-controlled synthesis of CoCO3 crystals has been achieved by a hydrothermal process in a mixed solvent of water and ethanol (or glycerol). Uniform CoCO3 crystals with novel structures can be fabricated by tuning the volume ratio of water and ethanol (or glycerol). The results demonstrated that the as-prepared CoCO3 crystal can act as an efficient precursor for production of nanoporous Co3O4 particles with pore sizes of 2.5 and 60 nm by calcination at 500 degrees C. The nanoporous Co3O4 Particles show sensitive response and reversibility in sensing performance.

机译：通过在水和乙醇（或甘油）的混合溶剂中进行水热工艺，可以实现CoCO3晶体形状控制的合成。可以通过调节水和乙醇（或甘油）的体积比来制造具有新颖结构的均匀CoCO3晶体。结果表明，所制备的CoCO3晶体可作为通过在500摄氏度下煅烧生产孔径分别为2.5和60 nm的纳米多孔Co3O4颗粒的有效前体。纳米多孔Co3O4颗粒在传感性能上显示出敏感的响应和可逆性。

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《Crystal growth & design 》 |2009年第1期| 共8页
作者
Cong HP; Yu SH;
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正文语种 eng
中图分类晶体学 ;
关键词
FIELD-EMISSION PROPERTIES; HIGH-YIELD SYNTHESIS; MAGNETIC-PROPERTIES; SOLVOTHERMAL SYNTHESIS; MORPHOLOGY CONTROL; CALCIUM-CARBONATE; ORIENTED ATTACHMENT; MNCO3 NANOCRYSTALS; DENATURED COLLAGEN; GOLD NANOPARTICLES;

机译：场发射特性;高产合成;磁性材料;溶剂热合成;形态学控制;碳酸钙;定向附着;MNCO3纳米晶;变性胶原;金纳米粒子;

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1. Shape Control of Cobalt Carbonate Particles by a Hydrothermal Process in a Mixed Solvent: An Efficient Precursor to Nanoporous Cobalt Oxide Architectures and Their Sensing Property [J] . Cong HP, Yu SH Crystal growth & design . 2009 ,第1期

机译：混合溶剂中水热法对碳酸钴颗粒的形状控制：纳米多孔氧化钴结构的有效前驱体及其传感特性
2. Microwave hydrothermal synthesis of nanoporous cobalt oxides and their gassensing properties [J] . Liying Man, Ben Niu, Hongyan Xu, Materials Research Bulletin . 2011 ,第7期

机译：微波水热法合成纳米多孔氧化钴及其气敏特性
3. Nanotubular Iridium-Cobalt Mixed Oxide Crystalline Architectures Inherited from Cobalt Oxide for Highly Efficient Oxygen Evolution Reaction Catalysis [J] . Yu Areum, Lee Chongmok, Kim Myung Hwa, ACS applied materials & interfaces . 2017 ,第40期

机译：从钴氧化物继承的纳米管铱 - 钴混合氧化物晶体架构用于高效氧气进化反应催化
4. SOLVENT EXTRACTION STUDIES FOR COBALT AND NICKEL SEPARATION FROM THE PROCESSING OF AMMONIUM CARBONATE MIXED SULFIDES [C] . E Garcia Liranza, AM Moreno Daudinot, R Viera Martinez, International solvent extraction conference . 2001

机译：碳酸铵混合硫化物加工钴和镍分离的溶剂萃取研究
5. Studies of volatile-bearing silicate minerals: chlorine-cobalt(3) scapolite solution properties and hydrothermal oxidation of synthetic iron biotite. [D] . Rebbert, Carolyn Rose. 1995

机译：含挥发性硅酸盐矿物的研究：氯钴（3）方沸石的溶液性质和合成铁黑云母的水热氧化。
6. Controllable fabrication and magnetic properties of double-shell cobalt oxides hollow particles [O] . Dan Zhang, Jianyu Zhu, Ning Zhang, -1

机译：双壳氧化钴空心颗粒的可控制备及磁性能
7. Cobalt-catalyzed oxidation of terpenes: Co-MCM-41 as an efficient shape-selective heterogeneous catalyst for aerobic oxidation of isolongifolene under solvent-free conditions [O] . Patricia A. Robles-Dutenhefner, Kelly A. da Silva Rocha, Edésia M.B. Sousa, 2009

机译：钴催化的萜烯氧化：Co-MCM-41作为在无溶剂条件下的用于异源性的有氧氧化的有效形状的选择性异质催化剂
8. Investigation of Processing Microstructures and Properties of Oxide Dispersion Strengthened Cobalt Alloy Extruded Shapes. [R] . grierson, r. 1977

机译：氧化物弥散强化钴合金挤压形状加工组织与性能研究。

Shape Control of Cobalt Carbonate Particles by a Hydrothermal Process in a Mixed Solvent: An Efficient Precursor to Nanoporous Cobalt Oxide Architectures and Their Sensing Property

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