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1. Fabrication and investigation of a new copper-doped screen-printable carbon paste's conductive mechanism by AFM EI SCIE SCOPUS 期刊论文 认领

作者:Zhang, J;Liang, ZB;Hreid, T;Guo, W;Yuan, ZB

作者全称:Zhang, Jun;Liang, Zhenbing;Hreid, Tubshin;Guo, Wei;Yuan, Zhuobin

作者机构:[Zhang, Jun; Liang, Zhenbing; Hreid, Tubshin] Inner Mongolia Univ, Sch Chem & Chem Engn, Hohhot 010021, Peoples R China.; [Guo, Wei] Inner Mongolia 更多

第一署名单位:[Zhang, Jun; Liang, Zhenbing; Hreid, Tubshin] Inner Mongolia Univ, Sch Chem & Chem Engn, Hohhot 010021, Peoples R China.

第一作者:Zhang, Jun

通讯作者:Zhang, J.(zhangjundoc@sina.com)

通讯作者地址:Zhang, J (reprint author), Inner Mongolia Univ, Sch Chem & Chem Engn, Hohhot 010021, Peoples R China.

来源:RSC ADVANCES,2012,Vol.2,Issue.11

基金:National Natural Science Foundation of China [40861018, 20965004,; 21165011]; Ministry of Education [Z2007-1-01039]; Natural Science; Foundation of the Inner Mongolia Autonomous Region [200607010210,; 20080404MS0611, 2011BS0202]

JCR分区:CHEMISTRY, MULTIDISCIPLINARY为Q2

中科院分区:大类化学2区;小类化学综合3区

(JCR)当年影响因子:2.936

(JCR)5年影响因子:3.096

WOS被引频次:1

SCOPUS被引频次:1

ESI学科:CHEMISTRY

摘要:This paper presents a new low-cost water-based carbon/copper screen printing conductive paste, with commercial micron-grade graphite, nanometer acetyl 更多

更新时间:Mar 28, 2019
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