Preparation of ultra-fine copper oxalate powder by stripping precipitation method

Lei Shi; Jin Ying Li; Zhi Jun Zhao; Yan Li Hou; Cun Xing Ji; Zhan Mei Tang; Zhong Ping Li; Jin Long Fan; Yun Zhi Liao; Dong Xiang Zhang

Preparation of ultra-fine copper oxalate powder by stripping precipitation method

Lei Shi, Jin Ying Li, Zhi Jun Zhao, Yan Li Hou, Cun Xing Ji^*, Zhan Mei Tang, Zhong Ping Li, Jin Long Fan, Yun Zhi Liao, Dong Xiang Zhang

^*Corresponding author for this work

School of Chemistry and Chemical Engineering

Research output: Contribution to journal › Article › peer-review

Abstract

Based on the interfacial mass transfer process, the ultra-fine copper oxide powder was prepared from the CCl₄-TOA-CuCl₂ organic phase by the stripping precipitation method with H₂C₂O₄-C₂H₅OH aqueous solution as the stripping agent and precipitant. The effects of preparation conditions on the structure and size distribution of CuC₂O₄ powders were studied by XRD, SEM, TEM and laser particle analysis. The results show that the TOA and Cu²⁺ concentrations in the organic phase, the H₂C₂O₄ and C₂H₅OH concentrations in the water phase, stripping temperature have obviously influence on the structure and size distribution of CuC₂O₄ powders, while the effect of stripping time is slight. At 40% TDA, 0.1 mol/L Cu²⁺, 0.10 mol/L H₂C₂O₄-80% C₂H₅OH, stripping temperature of 15 °C and stripping time of 2 h, black brown, well-dispersed CuC₂O₄ powders with the average size about 100 nm and high purity of monoclinic crystal phase were obtained.

Original language	English
Pages (from-to)	1292-1298
Number of pages	7
Journal	Yuanzineng Kexue Jishu/Atomic Energy Science and Technology
Volume	44
Issue number	11
Publication status	Published - Nov 2010

Keywords

Copper oxalate
Interfacial mass transfer
Stripping precipitation method
Ultra-fine powder

Cite this

@article{e6320e669cdd4110bc0ccdfe9da8a193,

title = "Preparation of ultra-fine copper oxalate powder by stripping precipitation method",

abstract = "Based on the interfacial mass transfer process, the ultra-fine copper oxide powder was prepared from the CCl4-TOA-CuCl2 organic phase by the stripping precipitation method with H2C2O4-C2H5OH aqueous solution as the stripping agent and precipitant. The effects of preparation conditions on the structure and size distribution of CuC2O4 powders were studied by XRD, SEM, TEM and laser particle analysis. The results show that the TOA and Cu2+ concentrations in the organic phase, the H2C2O4 and C2H5OH concentrations in the water phase, stripping temperature have obviously influence on the structure and size distribution of CuC2O4 powders, while the effect of stripping time is slight. At 40% TDA, 0.1 mol/L Cu2+, 0.10 mol/L H2C2O4-80% C2H5OH, stripping temperature of 15 °C and stripping time of 2 h, black brown, well-dispersed CuC2O4 powders with the average size about 100 nm and high purity of monoclinic crystal phase were obtained.",

keywords = "Copper oxalate, Interfacial mass transfer, Stripping precipitation method, Ultra-fine powder",

author = "Lei Shi and Li, {Jin Ying} and Zhao, {Zhi Jun} and Hou, {Yan Li} and Ji, {Cun Xing} and Tang, {Zhan Mei} and Li, {Zhong Ping} and Fan, {Jin Long} and Liao, {Yun Zhi} and Zhang, {Dong Xiang}",

year = "2010",

month = nov,

language = "English",

volume = "44",

pages = "1292--1298",

journal = "Yuanzineng Kexue Jishu/Atomic Energy Science and Technology",

issn = "1000-6931",

publisher = "Atomic Energy Press",

number = "11",

}

TY - JOUR

T1 - Preparation of ultra-fine copper oxalate powder by stripping precipitation method

AU - Shi, Lei

AU - Li, Jin Ying

AU - Zhao, Zhi Jun

AU - Hou, Yan Li

AU - Ji, Cun Xing

AU - Tang, Zhan Mei

AU - Li, Zhong Ping

AU - Fan, Jin Long

AU - Liao, Yun Zhi

AU - Zhang, Dong Xiang

PY - 2010/11

Y1 - 2010/11

N2 - Based on the interfacial mass transfer process, the ultra-fine copper oxide powder was prepared from the CCl4-TOA-CuCl2 organic phase by the stripping precipitation method with H2C2O4-C2H5OH aqueous solution as the stripping agent and precipitant. The effects of preparation conditions on the structure and size distribution of CuC2O4 powders were studied by XRD, SEM, TEM and laser particle analysis. The results show that the TOA and Cu2+ concentrations in the organic phase, the H2C2O4 and C2H5OH concentrations in the water phase, stripping temperature have obviously influence on the structure and size distribution of CuC2O4 powders, while the effect of stripping time is slight. At 40% TDA, 0.1 mol/L Cu2+, 0.10 mol/L H2C2O4-80% C2H5OH, stripping temperature of 15 °C and stripping time of 2 h, black brown, well-dispersed CuC2O4 powders with the average size about 100 nm and high purity of monoclinic crystal phase were obtained.

AB - Based on the interfacial mass transfer process, the ultra-fine copper oxide powder was prepared from the CCl4-TOA-CuCl2 organic phase by the stripping precipitation method with H2C2O4-C2H5OH aqueous solution as the stripping agent and precipitant. The effects of preparation conditions on the structure and size distribution of CuC2O4 powders were studied by XRD, SEM, TEM and laser particle analysis. The results show that the TOA and Cu2+ concentrations in the organic phase, the H2C2O4 and C2H5OH concentrations in the water phase, stripping temperature have obviously influence on the structure and size distribution of CuC2O4 powders, while the effect of stripping time is slight. At 40% TDA, 0.1 mol/L Cu2+, 0.10 mol/L H2C2O4-80% C2H5OH, stripping temperature of 15 °C and stripping time of 2 h, black brown, well-dispersed CuC2O4 powders with the average size about 100 nm and high purity of monoclinic crystal phase were obtained.

KW - Copper oxalate

KW - Interfacial mass transfer

KW - Stripping precipitation method

KW - Ultra-fine powder

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M3 - Article

AN - SCOPUS:78650794461

SN - 1000-6931

VL - 44

SP - 1292

EP - 1298

JO - Yuanzineng Kexue Jishu/Atomic Energy Science and Technology

JF - Yuanzineng Kexue Jishu/Atomic Energy Science and Technology

IS - 11

ER -

Preparation of ultra-fine copper oxalate powder by stripping precipitation method

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