曹 忠,理学博士,二级教授/博导,副院长,化学一级硕士点负责人,教育部新世纪优秀人才,日本学术振兴会(JSPS)学者
Tel/Fax: 0731-85258733, 85258736;
Email:zhongcao2004@163.com
学术兼职:
中国科学院亚热带农业生态研究所客座教授;
电力与交通材料保护湖南省重点实验室主任;
湖南省化学化工学会副理事长;
湖南省精密仪器测试学会理事,兼波谱专业委员会委员、副主任;
湖南省室内节能与绿色环保标准化技术委员会副主任委员;
中国仪器仪表学会分析仪器分会化学传感器专业委员会委员;
中国仪器仪表学会微纳器件与系统技术学会高级会员;
日本学术振兴会(JSPS)会员,中国化学会、中国电机工程学会、中国腐蚀与防护学会会员;
科技部国际科技合作计划项目、国家自然科学基金项目和湖南省等多省市科技奖与项目评审专家;
国际期刊《Analytical Chemistry》、《Langmuir》、《Biosensors and Bioelectronics》等的特邀审稿人;
2009年第四届IEEE-NEMS国际学术会议的“Microfluidics: Nanomaterials Synthesis”分会副主席;
2010年ICMEA国际学术会议的“Material Science and Technology in Manufacturing”分会主席;
2011年CEAM国际学术会议大会共同主席,并作大会主旨报告。
荣誉称号:
日本通商产业省工业技术院(AIST)基金获得者(1998)
日本学术振兴会(JSPS)基金获得者(1999)
日本医药品副作用被害救济与研究振兴调查机构(OPSR)基金获得者(2001)
日本新能源产业技术综合开发机构(NEDO)基金获得者(2003)
湖南省普通高校青年骨干教师(2006)
湖南省新世纪121人才(2008)
教育部新世纪优秀人才(2009)
湖南省教学成果三等奖 (2010)
湖南省普通高校学科带头人(2011);
bat365在线唯一官网登录“十一五”优秀科技工作者(2011)
湖南省高等教育学会优秀高等教育科学研究成果二等奖(2013)
湖南省大学生课外化学化工创新作品竞赛特等奖指导教师(2014)
湖南省优秀硕士学位论文奖指导教师 (2014)
湖南省科技进步一等奖 (2015)
主要研究方向:
1) 纳米生物分析化学、化学生物传感与生物纳米技术;
2) 有机功能材料与能源材料化学;
3) 柔性电子材料与微纳传感器件;
4) 工业分析与电厂化学分析新技术;
5) 环境监测与食品/药品安全检测方法;
6) 物联网传感监测与远程控制技术;
7) 生物芯片与生化分析仪器的研究及开发
硕士研究生招生专业:化学(分析、有机、物化)、化工(应用化学)、食品科学与工程、化学工程(专业学位)
博士研究生招生专业:电子科学与技术(柔性电子材料与微纳传感器件)、生态学(生态营养)
研究生就业去向:中海油、中石化、国土资源部和化工部设计研究院,光电子、光能与电力等能源系统,化工、制药、环境、生物、仪器制造等企业,科技局、环保局、检验局、院校等事业单位。
主讲课程:
本科课程:分析化学(双语)、仪器分析、化学前沿讲座(双语)、分析化学实验、仪器分析实验、无机分析化学实验;
研究生课程:现代仪器分析、化学专业英语、化学生物传感原理、化学计量学导论、科研方法与学术道德等
主要研究经历:
1) 1997.7,湖南大学分析化学专业博士研究生毕业,获理学博士学位;
2) 1997.9,长沙电力学院化学系讲师、系主任助理;
3) 1998.10,日本国 通商産業省 工業技術院(AIST),物質工学工業技術研究所(NIMC),高分子化学部 光情報機能材料研究室(現更名为: 独立行政法人 産業技術総合研究所(AIST),光技術研究部門 分子光子学组),博士后特別研究員;
4) 1999.6,日本国 豊橋技術科学大学(TUT),物質工学系 生化学研究室,日本学術振興会(JSPS) 博士后研究員;
5) 2001.7,日本国 株式会社日立製作所 生命科学推進事業部(LS),開発本部基因解析中心 生物芯片组 (日立基礎研究所在勤),客員研究員/契约社員;
6) 2003.5,日本国 株式会社日立製作所 日立中央研究所(CRL),生命科学研究中心 基因解析项目组,客員研究員/契约社員;
7) 2004.8-至今,bat365在线唯一官网登录副教授、系主任助理/副院长;2007.10教授(破格);
8) 2009.5--至今,聘为中国科学院亚热带农业生态研究所客座教授、博士生导师;
9) 2010.12--至今,兼任电力与交通材料保护湖南省重点实验室主任。
主要研究业绩:
主持和参加的科研课题累计达60余项,其中主持国家自然科学基金面上项目4项、国家重大科研仪器研制分项目、科技部国家科技支撑计划子课题、中科院科技服务网络STS计划(环境监测)项目、教育部新世纪优秀人才支持计划项目、湖南省自然科学基金重点项目等,主持质量工程项目有《分析化学》省级精品课程、省教育科学“十一五”规划课题、国家级/省级大学生创新实验项目和省级研究生科研创新项目等。曾获日本AIST、JSPS、OPSR、NEDO研究基金,并获日本文部省“JSPS特别研究员奖励”1项(1999年),申请日本专利1项(2002年);入选教育部新世纪优秀人才 (2009年)、湖南省新世纪121人才工程(2008年)、湖南省普通高校青年骨干教师 (2006年)、湖南省普通高校学科带头人 (2011年);获湖南省优秀硕士论文指导教师(2014)、获湖南省科技进步一等奖(2015)、获“湖南省自然科学优秀学术论文” 一、二、三等奖多次;获湖南省教学成果三等奖(2010年)、湖南省高等学校第八届“中南杯”多媒体教育软件大赛三等奖(2008年),曾获校教学优秀奖、优秀教师、校教学成果二、三等奖等。主编普通高等教育“十一五”规划教材--《基础化学实验》(上册)(2009年)、《Application of Chemical Engineering》(2011)等,完成专著《化学声波传感理论与应用》初稿(待出版);申请专利42项,已授权37项,其中发明专利16项。在“ACS Sensors”、“Biosensors and Bioelectronics”、“Analytical Chemistry”、“Analytica Chimica Acta”、“Analyst”、“Sensors and Actuators B“、“Materials Science and Engineering C”、“LWT-Food Science and Technology”、”光学(日文)”、”分光研究(日文)”、“化学学报”、“中国科学” 等国内外核心刊物上发表研究论文234篇(第一/通讯作者143篇),其中有5篇论文被收录进《分析化学新进展》一书(汪尔康院士主编),SCI收录131篇(包括1区32篇,2区34篇,ESI高倍引论文4篇),EI收录130篇,他引2700多次。
主要研究项目:
1) 2016.01—2020.12,游离氨基酸活体无线监测仪(No. 31527803),国家自然科学基金委-国家重大科研仪器研制项目,总经费732.215万;进校经费:335万,单位负责人;
2) 2016.01—2018.12,畜禽养殖环境质量检测系统的研发与应用(No. KFJ-SW-STS-173),中国科学院环境监测STS计划项目,总经费500万,进校经费:80万,单位负责人;
3) 2016.01—2016.12,基于纳米功能界面构建的高尿酸血症含氮代谢物超灵敏传感新方法(No. 21545010),国家自然科学基金项目,资助经费:12万,主持人;
4) 2013.01—2016.12,食源性病原体与有害化学添加剂超灵敏分子检测的微纳生物传感分析方法(编号:21275022),国家自然科学基金-面上项目,资助经费:80万,主持人;
5) 2014.09—2015.09,畜禽养殖环境中关键气体监测系统研制(No. 2015GW07),中国科学院仪器设备功能开发技术创新项目,资助经费:20万,单位负责人;
6) 2012.01—2015.12,科技部国家科技支撑计划项目:基于物联网的小流域废物集中处置与资源化利用技术研究及示范(2012BAC17B00),课题一、基于物联网的小流域废物流动监控体系研究(2012BAC17B01),子课题2:畜禽养殖与生物质废物流动监测和传感器研发(2012BAC17B0102),资助经费:49万,单位负责人;
7) 2011.01—2013.12,基于延长栅场效应晶体管致癌基因检测的无线传感生化分析方法研究(编号:21075011),国家自然科学基金-面上项目,资助经费:35万,主持人;
8) 2010.1—2012.12,食品中有害物质超灵敏检测的微纳生物传感分析研究,2009年度教育部“新世纪优秀人才支持计划”项目(编号:NCET-10-0138),国家教育部,资助经费:50万,主持人;
9) 2008.1—2010.12,基于帽子状金属纳米微球颗粒膜的新型局域化表面等离子体共振的生物分子检测方法研究(编号:20775010),国家自然科学基金项目,资助经费:28万,主持人;
10) 2006.1—2009.12,局域表面等离子体共振光学生物纳米芯片传感器的研究,国家杰出青年科学基金“生化分析与生物传感”(编号:20525518)的协作子项目,资助经费:5万,主持人;
11) 2011.01—2012.12,核酸探针信号转换新策略研究,国家自然科学基金(编号:21075032)的协作子项目,资助经费:5万,主持人;
12) 2008.1—2010.12,含界面损伤纳米复合材料纳细宏观结构演化的多尺度模拟,国家自然科学基金项目(编号:10772047)的协作子项目,资助经费:2万,主持人;
13) 2009.7—2012.6,基于纳米功能膜修饰的无线传感生化分析方法研究(编号:09JJ3016),湖南省自然科学基金-重点项目,资助经费:10万,主持人;
14) 2006.7—2009.6,手性壳聚糖纳米粒子作为靶向药物载体的制备及其构-效关系研究(编号:06JJ2038),湖南省自然科学基金-优秀青年项目,资助经费:10万,第二主持人;
15) 2009.1—2010.12,新型烷基果糖嗪类药物的研制与药理活性研究开发(编号:2009FJ3173),湖南省科技计划项目,资助经费:2万,第二主持人;
16) 2008.1—2009.12,基于新型纳米颗粒技术的基因生物芯片研究与开发(编号:2008FJ3014),湖南省科技计划项目,资助经费:2万,主持人;
17) 2009.5—2011.5,基于新型场效应晶体管的无线传感生化分析方法研究(编号:2008001),化学生物传感与计量学国家重点实验室开放课题基金(湖南大学),资助经费:1.5万,主持人;
18) 2008.01—2009.12,基于帽状纳米颗粒膜的基因诊断生物芯片的研究(编号:LBMD200706),江苏省生物材料与器件重点实验室开放课题基金(东南大学),资助经费:2万,主持人;
19) 2006.01—2008.12,基于帽子状金属纳米颗粒膜的核内受配体分子的识别 (No.2005010),化学生物传感与计量学国家重点实验室开放课题基金(湖南大学),资助经费: 1.5万,主持人;
20) 2006.01—2007.12,基于帽子状纳米颗粒膜的核酸受配体识别 (No.05B020),湖南省教育厅科学研究基金--优秀青年项目,资助经费: 3.5万,主持人;
21) 2004.12—2006.12,分析化学学科平台的建设 (No.2004-11-91),bat365在线唯一官网登录学科建设重点专项,资助经费: 85万,主持人;
22) 2003.05―2006.03,无线生化传感系统的研究与开发 (No. NP-5), 日本国 新能源产业技术综合开发机构(New Energy and Industrial Technology Development Organization (NEDO), Japan)项目(主持人:矢澤 義昭),资助经费: 2亿日元,主要研究人员;
23) 2001.07―2003.04,关于蛋白质组学及其筛选技术并结合生物情报处理科学的创药研究 (No. MF-16), 日本国 医药品副作用被害救济、研究振兴调查机构 (The Organization for Pharmaceutical Safety and Research (OPSR), Japan)项目(主持人:井上 和秀),资助经费: 4亿日元,主要研究人员;
24) 1999.06—2001.06,基于超分子识别的嗅觉模拟传感器的研究 (No.P99096), 日本国 日本学术振兴会 (Japan Society for the Promotion of Science (JSPS))研究基金项目,资助经费: 1500万日元,主持人;
25) 1998.11—1999.06,共价系统自组装单分子膜的研究, 日本国 通商产业省工业技术院(Agency of Industrial Science and Technology (AIST), Ministry of International Trade and Industry (MITI), Japan) 项目(主持人:松田 宏雄),资助经费: 5000万日元,主要研究人员;
26) 1998.08—2000.08,火力发电厂锅炉带负荷清洗原理及其应用研究 (No.98009A),中国 华中电力集团公司项目,资助经费: 18万,主持人;
27) 1997.10—1998.10,压电嗅觉模拟传感器的应用与研究 (No.98-304), 长沙电力学院自然科学基金项目,资助经费: 0.5万元,主持人;
28) 1997.01—1999.12,多功能光化学传感器的研究(No.29675005),国家自然科学基金-面上项目(主持人:王柯敏),资助经费: 12万,主要研究人员;
29) 1996.01—1998.12,化学信息形态等新型计量学方法研究 (No.29575196), 国家自然科学基金-面上项目(主持人:俞汝勤),资助经费: 12万,主要研究人员;
30) 1995.01—1997.12,新型化学传感器与生物传感器的研究, 国家教委 高校博士点基金项目(主持人:俞汝勤),资助经费: 8万,主要研究人员;
31) 1993.01—1996.12,化学计量学基础研究 (No.29135120), 多元校正理论及多通道与传感器阵列分析系统 (No.29135121), 国家自然科学基金-重点项目(主持人:俞汝勤),资助经费: 42万,主要研究人员;
32) 1994.01—1996.12,化学计量学在电分析化学中的应用研究, 中国科学院长春应用化学研究所电分析开放实验室基金(主持人:俞汝勤),资助经费: 6万,主要研究人员;
33) 1996.01—1997.12,大型变压器油中特征气体在线监测装置一期研究,湖南省变电所修试安装公司项目,资助经费: 32万,主要研究人员;
34) 1993.06—1996.07,变压器油中气体在线监测仪的研制,国家重大“八五”攻关项目,资助经费: 18万,主要研究人员;
35) 1992.01—1994.01,HD-1型舰用水质综合分析仪的研究,武汉海军舰艇学院与湖南大学合作项目,资助经费: 1.0万,主要研究人员。
36) 2008.12—2010.12,理工科大学《分析化学》双语示范性课程建设研究(编号:XJK08CGD042),湖南省教育科学“十一五”规划2008年度课题(省级),湖南省教育厅,湖南省教育科学研究院,经费: 0.5万,主持人;
37) 2008—2010,食品中有害物质超灵敏检测便携装置的研制(教高司[2008]16号),第二批国家级大学生创新性试验计划项目,国家教育部,资助经费:2万,指导教师;
38) 2008—2010,基于新型纳米颗粒技术的光学生物芯片的研究(湘教通[2008]269号),湖南省大学生研究性学习和创新性实验计划项目,湖南省教育厅,资助经费:2万,指导教师;
39) 2008.5—2012.5,《分析化学》—湖南省高等学校2008年省级精品课程立项(湘教通[2008]202号),湖南省教育厅,资助经费:8万,主持人。
主要专利:
1) 一种自组装膜汞离子选择电极方法,国家发明专利号:ZL201410066379.6,2016.05.04. 第一
2) 二硫苏糖醇膜汞离子选择电极方法,国家发明专利号:ZL201410064648.5,2016.04.13. 第一
3) 一种汞离子选择电极方法,国家发明专利号:ZL201410065487.1,2016.01.20. 第一
4) 一种基于氮化硅的纳米金膜电极方法,国家发明专利号:ZL201410066383.2,2016.01.20. 第一
5) 一种基于硅硼酸盐的纳米金膜电极,国家发明专利号:ZL201410066303.3,2016.02.17. 第一
6) 一种基于L-半胱氨酸检测汞离子的传感芯片方法,国家发明专利号:ZL201310293772.4,2016.01.27. 第一
7) 一种检测汞离子的传感芯片方法,国家发明专利号:ZL201310293771.X,2015.11.11. 第一
8) 一种检测亚硝酸盐的传感芯片,国家发明专利 ZL201310293741.9,2015.3.10. 第一
9) 一种氧代二氢大马酮异构体的简单制备方法,国家发明专利 ZL201010144729.8,2013.3.27. 第一
10) 用于检测致癌基因C-myc重组蛋白的LSPR传感芯片,国家发明专利 ZL201110000089.8,2012.11.28. 第一
11) 一种席夫碱及其制备和作为钢材酸洗缓蚀剂的应用,国家发明专利 ZL201210465362.9,2014.11.12. 第七
12) 一种汞元素的检测方法,国家发明专利 ZL201110393496.X,2013.9.4. 第四
13) 一种NaY分子筛改性方法,国家发明专利 ZL201110331019.0,2013.8.27. 第二
14) 活性炭耐冲刷电极及其制备方法和应用,国家发明专利 ZL201010172825.3,2012.2.1. 第六
15) 铝电解槽废热利用装置,国家发明专利 ZL200810031502.5,2011.4.20. 第四
16) 液相单面石英晶体微天平检测电极,实用新型专利 ZL201220313633.4,2013.1.30. 第一
17) 基于钛基三层金属膜的石英晶体微天平传感器,实用新型专利 ZL201220313732.2,2012.12.19. 第一
18) 用于检测含致癌基因C-myc抗原片段的质粒DNA的LSPR传感芯片,实用新型专利 ZL201120000105.9,2011.11.9. 第一
19) 一种用于DNA分子检测的延长栅场效应晶体管传感芯片,实用新型专利 ZL201020258566.1,2011.4.20. 第一
20) 简易甲醇气体检测装置,实用新型专利 ZL201020144038.3,2010.10.27. 第一
21) 简易甲醛气体检测装置,实用新型专利 ZL201020151794.9,2011.4.13. 第一
22) 变压器油中二氧化碳气体检测装置,实用新型专利 ZL201120014772.2,2011.8.24. 第一
23) 致癌基因C-myc重组蛋白的压电免疫传感芯片,实用新型专利 ZL201220301343.8,2013.2.6. 第一
24) 一种便携式电极打磨器具,实用新型专利 ZL201320196579.4,2013.9.4. 第一
25) 一种基于L-半胱氨酸检测汞离子的传感芯片,实用新型专利 ZL201320416448.2, 2013.12.11. 第一
26) 一种金平板电极,实用新型专利 ZL201420081510.1,2014.8.31. 第一
27) 一种L-胱氨酸的传感器,实用新型专利 ZL201821387669.0,2019.5.14. 第一
28) 一种检测L-精氨酸的传感器,实用新型专利 ZL201921044300.4,2020.4.21. 第一
29) 一种基于复合膜修饰电极的L-酪氨酸检测传感器,实用新型专利 ZL201920772834.2,2020.2.14. 第一
主要获奖:
1) 《超分子の分子認識を利用した嗅覚模倣センサーの開発研究》,获得“日本学術振興会(JSPS)特别研究員奨励”,日本文部省,1999年,第一.
2) 硕士论文《纳米材料修饰电极的制备及用于食品中亚硝酸根检测的应用》,获湖南省优秀硕士学位论文,硕士研究生:张慢乐,导师:曹忠,湖南省人民政府学位委员会、湖南省教育厅,2014年6月.
3) 《淡水鱼深加工关键技术研究与示范》,获2014年度湖南省科技进步一等奖,湖南省科技厅,2015年1月,第十.
4) 《用原位石英晶体微天平和原子力显微镜研究烷基硫醇自组装过程中的金腐蚀》,获得“湖南省第十一届自然科学优秀学术论文” 二等奖,湖南省人事厅、湖南省科技厅、湖南省科协,2006年10月,第一.
5) 《一种以糖基金属卟啉为分子识别元件的荧光增强型丙硫苯咪唑传感器》,获得“湖南省第十二届自然科学优秀学术论文” 一等奖,湖南省人事厅、湖南省科技厅、湖南省科协,2008年10月,第三.
6) 《定量构效关系用于含叔氨基pH中性载体的设计研究》,获得“湖南省第十三届自然科学优秀学术论文” 三等奖,湖南省科学技术协会、湖南省人力资源和社会保障厅、湖南省科学技术厅,2010年10月,第一.
7) 《原子吸收法用于烷基硫醇单分子层诱导金腐蚀性溶解的评价》,获得“湖南省第十四届自然科学优秀学术论文” 三等奖,湖南省科学技术协会、湖南省人力资源和社会保障厅、湖南省科学技术厅,2012年10月,第一.
8) 《银纳米线对一种有机相变材料导热性能的增强研究》,获得“湖南省第十四届自然科学优秀学术论文” 三等奖,湖南省科学技术协会、湖南省人力资源和社会保障厅、湖南省科学技术厅,2012年10月,第二.
9) 赵英卓、吴玲、寻艳、宋天铭、李淼(环工12级),《一种高灵敏检测尿酸的纳米复合膜修饰电极》获第六届湖南省大学生课外化学化工创新作品竞赛特等奖,湖南省化学化工学会,2014年10月,指导教师:曹忠、何婧琳.
10) 傅伟达、吕超志、寻艳、刘娜、蒋宏达、卢杰(化工14级),《MWCNTs-rGO/PDDA-AuNPs复合膜修饰电极对瘦肉精—莱克多巴胺的灵敏检测》,获第七届湖南省大学生课外化学化工创新作品竞赛特等奖,湖南省化学化工学会,2015年10月,指导教师:龙姝、曹忠.
11) 张兴亮、陈丹、崔席郡、刘峰、杨洋、李仙清(化工、应化14级),《一种同时检测多巴胺和亚硝酸根的PDDA功能化纳米银/氧化石墨烯复合膜修饰电极》,获第七届湖南省大学生课外化学化工创新作品竞赛三等奖,湖南省化学化工学会,2015年10月,指导教师:曹忠、肖忠良.
12) 于鑫垚,曹尹亮,黄颖,《养猪场硫化氢气体的快速灵敏监测研究》,获湖南省第七届大学生化学化工实验与创新设计竞赛(化学化工创新作品类)三等奖,湖南省教育厅,2017年7月,指导教师:曹忠;
书与教材:
1) 曹忠,张玲,《基础化学实验》 (上册),普通高等教育“十一五”规划教材,武汉:华中科技大学出版社,2009年8月 (ISBN 978-7-5609-5419-6/O·485).
2) Zhong Cao, Lixian Sun, Xueqiang Cao, and Yinghe He (Ed.), Fundamental of Chemical Engineering, Trans Tech Publications Ltd, Kreuzstrasse 10, CH-8635 Durnten-Zurich, Switzerland, June 2011 (ISBN-13, 978-3-03785-119-7).
3) Zhong Cao, Yinghe He, Lixian Sun, and Xueqiang Cao (Ed.), Application of Chemical Engineering, Trans Tech Publications Ltd, Kreuzstrasse 10, CH-8635 Durnten-Zurich, Switzerland, June 2011 (ISBN-13, 978-3-03785-121-0).
4) Zhong Cao, Xueqiang Cao, Lixian Sun, and Yinghe He (Ed.), Advanced Materials, Trans Tech Publications Ltd, Kreuzstrasse 10, CH-8635 Durnten-Zurich,
Switzerland
, June 2011 (ISBN-13, 978-3-03785-123-4).
主要会议邀请报告(*通讯联系人):
1) 曹忠,选择性检测氨基酸的超微结构电化学传感器,2019第二十次全国电化学大会,湖南长沙,2019年10月25-28日.
2) 曹忠,养殖环境传感器与智能监控,2019第三届中国智慧养殖应用与创新发展高峰论坛,中国科学院亚热带农业生态研究所 畜禽养殖污染控制与资源化技术国家工程实验室、国家生猪产业技术创新战略联盟、中国智慧养殖网主办,会议主席:印遇龙院士,湖南 长沙,2019年9月6-8日.
3) 曹忠,纳米材料传感器与远程无线监测,湖南省第十一届研究生创新论坛“生物医用纳米材料与智能传感”分论坛暨湖南工业大学第九届百草论坛,湖南株洲市 湖南工业大学,2018年11月30日.
4) 曹忠,室内污染和绿色环境保护,湖南省室内节能与绿色环保标准化技术委员会成立大会暨第二届湖南省室内环境净化行业技术与营销高峰论坛,湖南长沙市国际会展中心,2018年11月23日.
5) 曹忠,基于二氧化锡中空微球的硫化氢气体传感器研究与应用(IL22),第十三届全国化学传感器学术会议(13th SCCS),中国•广西桂林,2017年11月5-8日.
6) 曹忠*,Wireless Sensor for Monitoring Investigation,2016年流域生态水文与面源污染防控学术交流会,湖南 长沙,2016年8月1-3日,pp. 3.
7) 曹忠*,无线生物传感检测仪研究,2015年度国家自然科学基金委员会生命科学部第151期双清论坛 “推动生命科学发展的新技术新仪器研制”,湖北 武汉,2015年11月24-26日,pp. 90-91.
8) Ling WU, Yan XUN, Chao-Zhi LV, Feng LIU, Jing-Lin HE, and Zhong CAO*, Electrochemically Reduced GO/Polycation Protected Pt Nanostructure Used for Simultaneous Determination of Uric Acid and Ascorbic Acid (I&O-156), The Fifteenth International Symposium on Electroanalytical Chemistry (15th ISEAC), Changchun, China, August 13-16, 2015, pp.15.
9) 曹忠*,一些分子离子选择性传感探针的设计、性能及应用(OP38),第十二届全国化学传感器学术会议(12th SCCS),成都,2014年11月8-11日,pp. 9.
10) Ting-Ting Cao, Shu Long, Jing-Ling Hu, Zhong-Liang Xiao, Jing-Lin He, Zhong Cao*, Ultra-sensitive and Rapid Determination of Mercury Ions Based on 11-Mercaptoundecanoic Acid Assembled Nano Gold Plate Electrode (7O-017), International Conference on Nanoscience and Technology, China 2013 (ChinaNANO 2013), September 5-7, 2013, Beijing, China, pp.164.
11) Zhong Cao*, Invited Keynote Speech: Some Industrial Applications of Chemo/bio-sensors, 2011 International Conference on Chemical Engineering and Advanced Materials (CEAM 2011), Changsha, Hunan, P.R. China, 28-30 May, 2011, pp.10.
12) Zhong Cao*, Invited Keynote Speech: Detection of Harmful Substance by Using Bionano Sensing Technology, Proceedings of the 5th International Symposium on Animal Nutrition, Health and Feed Additive (ISANHFA 2011), Changsha, Hunan, P.R. China, 25-26 May, 2011, pp. 8.
主要论文(*通讯联系人):
(一)纳米孔传感
1. Yi You, Ke Zhou, Bingyuan Guo, Quansheng Liu, Zhong Cao*, Lei Liu, and Hai-Chen Wu*, Measuring Binding Constants of Cucurbituril-Based Host−Guest Interactions at the Single-Molecule Level with Nanopores, ACS Sensors, 2019, 4: 774-779. DOI: 10.1021/acssensors.9b00408
2. Lei Liu†, Yi You†, Ke Zhou, Bingyuan Guo, Zhong Cao, Yuliang Zhao, Hai-Chen Wu*, A dual-response DNA probe for simultaneously monitoring enzymatic activity and environmental pH using a nanopore, Angewandte Chemie International Edition, 2019, 58 (42): 14929-14934. (†共同第一作者) DOI: 10.1002/anie.201907816
3. Yingying Sheng, Yi You, Zhong Cao*, Lei Liu, Hai-Chen Wu*, Rapid and Selective DNA-Based Detection of Melamine Using α-Hemolysin Nanopore, Analyst, 2018, 143: 2411-2415. DOI: 10.1039/c8an00580j
(二)电化学传感、无机/高分子-纳米传感界面
4. Yu-Yu Peng, Yu Wang, Xin-Yao Yu, Ju-Lan Zeng, Zhong-Liang Xiao, Zhong Cao*, Rapid and sensitive detection of L-cysteine based on mono(6-mercapto-6-deoxy)-β-cyclodextrin modified gold electrode, Chem. J. Chinese Universities, 2020, 41 (2): 268-276. doi: 10.7503/cjcu20190448.
5. Zhong Cao, Wen-Feng Li, Chen Liu, Yu-Yu Peng, Ying Huang, Zhong-Liang Xiao*, Design and fabrication of embedded wireless monitoring system based on Bluetooth low energy transmission for potentiometric sensors, Chinese J. Anal. Chem., 2019, 47(2): 229-236. DOI: 10.19756/j.issn.0253-3820.181684
http://fxhx.manuscripts.cn/article/doi/10.19756/j.issn.0253-3820.181684
Info: A wireless monitoring system with L-cysteine sensor was designed and fabricated.
6. Qin Zhu, Chu Liu, Li Zhou, Ling Wu, Kejun Bian, Julan Zeng, Jianxiu Wang, Zemeng Feng, Yulong Yin, Zhong Cao*, Highly sensitive determination of L-tyrosine in pig serum based on ultrathin CuS nanosheets composite electrode, Biosensors and Bioelectronics, 2019, 140: 111356. https://doi.org/10.1016/j.bios.2019.111356
7. Yu-Qing Li, Qin Zhu, Zhong-Liang Xiao, Chao-Zhi Lű, Ze-Meng Feng, Yu-Long Yin, Zhong Cao*, Graphene Oxide/Triangular Gold Nanoplates/Nafion Composite Modified Electrode Used for Sensitive Detection of L-Tryptophan, Chemical Journal of Chinese Universities, 2018, 39 (4): 636-644. Doi: 10.7503/cjcu20170643
8. Jia Yang, Yu-Yang Zhang, Chen Liu, Jia-Xin Li, Zhong-Liang Xiao*, Dan Li, Ling Zhang, Zhong Cao*, L-Cystine Sensor Based on Modification of Extended Gate of FET with Polydithiodipropanesulfonic Acid Membrane. Chem. J. Chinese Univ., 2018, 39 (11): 2386-2394. Doi: 10.7503/cjcu20180283
9. Qing Xiao, Lin Chen, Wen-Feng Li, Li-Qin Yang, Zhong Cao*, Xin-Yao Yu, Shu Long, Jing-Lin He, Zhong-Liang Xiao*, A Wireless Sensor Based on 3-Mercaptopropyl Sulfonic Acid Membrane Modified Gold Electrode for Detection of Hg2+, Chinese J. Anal. Chem., 2018, 46(12): 1886-1894. DOI: 10.11895/j.issn.0253-3820.181262
10. Xian-Qing Li, Hai-Qing Liang, Zhong Cao*, Qing Xiao, Zhong-Liang Xiao*, Liu-Bin Song, Dan Chen, and Fu-Liang Wang, Simple and rapid mercury ion selective electrode based on 1-undecanethiol assembled Au substrate and its recognition mechanism, Materials Science and Engineering C: Materials for Biological Applications, 2017, 72: 26-33. http://dx.doi.org/10.1016/j.msec.2016.11.034
11. Chao-Zhi Lv, Yan Xun, Zhong Cao*, Jing-Lei Xie, Dan Li*, Gang Liu, Lei Yu, Ze-Meng Feng, Yu-Long Yin, and Shu-Zhen Tan, Sensitive determination of toxic clenbuterol in pig meat and pig liver based on a carbon nano-polymer composite, Food Analytical Methods, 2017, 10 (7): 2252-2261. DOI 10.1007/s12161-017-0796-3
12. G. Li, Y. Wang, Y. Cao, Z. Xiao*, Y. Huang, Z. Feng, Y. Yin, Z. Cao*, SnO2 hollow microspheres used for rapid and sensitive detection of hydrogen sulfide, Chem. J. Chinese Univ., 2017, 38 (11): 1953-1962. Doi: 10.7503/cjcu20170219
13. Chao-Zhi Lv, Dan Chen, Zhong Cao*, Feng Liu, Xiao-Mei Cao, Jing-Lin He, Wen-Yu Zhao, Highly sensitive and selective determination of dopamine based on ionic liquid-titanium dioxide/graphene oxide, International Journal of Electrochemical Science, 2016, 11 (12): 10107-10122. doi: 10.20964/2016.12.01
14. Y. Xun, Z. Cao*, T. Song, C.Z. Lű, F. Liu, J. He, R. Yang, MWCNTs/GO/ PDDA-AuNPs nanocomposite modified electrode for sensitive detection of ractopamine, Chemical Journal of Chinese Universities, 2016, 37 (5): 835-843. Doi: 10.7503/cjcu20160026
15. D. Chen, Z. Cao*, F. Liu, L. Wu, Y. Xun, J. He*, Z. Xiao, Simultaneous determination of dopamine and nitrite based on cubic silver nanoparticles-poly (dienedimethylammonium chloride)/graphene oxide composite modified electrode, Chinese Journal of Analytical Chemistry, 2016, 44 (10): 1593-1599. DOI: 10.11895/j.issn.0253-3820.160239
16. Man-Le Zhang, Da-Kai Huang, Zhong Cao*, Ye-Qiu Liu, Jing-Lin He*, Jing-Fang Xiong, Ze-Meng Feng, and Yu-Long Yin, Determination of trace nitrite in pickled food with a nano-composite electrode by electrodepositing ZnO and Pt nanoparticles on MWCNTs substrate, LWT-Food Science and Technology, 2015, 64 (2): 663-670. http://dx.doi.org/10.1016/j.lwt.2015.06.025
17. Da-Kai Huang, Lin Xue, Zhong Cao*, Xu Li, Zhong-Liang Xiao, Zhuo Zhen, Shu-Zhen Tan, Rong-Hua Yang, Sensitive determination of Bromate in Water by Using a Modified Electrode Based on Polymer/Carbon Nanotubes Mesh Structure Loaded Silicotungstic Heteropolyanion, Chinese Journal of Analytical Chemistry, 2015, 43 (11): 1664-1670. DOI: 10.11895/j.issn.0253-3820.150518
18. Ting-Ting Cao, Zhong Cao*, Jing-Lin He, Hai-Qin Liang, Zhong-Liang Xiao*, Simple and Rapid Determination of Mercury Ions Based on 1,4-dithiothreitol Assembled Gold Plate Electrode, Chemical Journal of Chinese Universities, 2014, 35 (7): 1388-1395. Doi: 10.7503/cjcu20140288
19. L. Wu, Z. Cao*, T. Song, C. Song, J. Xie, J. He*, Z. Xiao, A glassy carbon electrode modified with electrochemically reduced graphene oxide/gold nanoparticles-chitosan composite film for sensitive determination of uric acid, Chinese Journal of Analytical Chemistry, 2014, 42 (11): 1656-1660. DOI: 10.11895/j.issn.0253-3820.140357
20. Jing-Lin He*, Yan-Fei Tian, Zhong Cao*, Wei Zou, Xin Sun, An Electrochemical Immunosensor based on gold nanoparticle tags for picomolar detection of c-Myc oncoprotein, Sensors and Actuators: B. Chemical, 2013, 181: 835-841. http://dx.doi.org/10.1016/j.snb.2013.02.063
21. Zhong Cao*, Zhong-Liang Xiao, Ling Zhang, Dong-Mei Luo, Masao Kamahori, and Maki Shimoda, Molecule Counting with Alkanethiol and DNA Immobilized on Gold Microplates for Extended Gate FET, Materials Science and Engineering C: Materials for Biological Applications, 2013, 33 (3): 1481-1490. http://dx.doi.org/10.1016/j.msec.2012.12.050
22. Man-Le Zhang, Zhong Cao*, Jing-Lin He, Lin Xue, Yi Zhou, Shu Long, Ting Deng, and Ling Zhang, A Simple Gold Plate Electrode Modified with Gd-Doped TiO2 Nanoparticles Used for Determination of Trace Nitrite in Cured Food, Food Additives and Contaminants, Part A, 2012, 29 (12): 1938-1946. http://dx.doi.org/10.1080/19440049.2012.715762
23. Shu Long, Yan-Fei Tian, Zhong Cao*, Jing-Lin He, and Dong-Mei Luo, Detection of double stranded DNA and its damage by liquiritigenin with copper (II) on multi-walled carbon nanotubes, Sensors and Actuators: B. Chemical, 2012, 166-167: 223-230. doi:10.1016/j.snb.2012.02.043
24. Zhong Cao*, Yu-Ting Zhao, Yi-Min Dai, Shu Long, Xiao-Cui Guo, and Rong-Hua Yang, Determination of salbutamol sulfate based on multi-wall carbon nanotubes film modified glassy carbon electrode, Sensor Letters, 2011, 9 (5) : 1985-1989. doi:10.1166/sl.2011.1549
25. Zhan Wu, Zhong Cao*, Ju-Lan Zeng, Ling Zhang, Xia Chu*, Guo-Li Shen, and Ru-Qin Yu, A reusable capacitive immunosensor based on CuS ultrathin film constructed by using surface sol-gel technique, Analytical Sciences, 2010, 26 (9): 1001-1006. DOI: 10.2116/analsci.26.1001
(三)荧光/光学探针生化传感
26. Jing-Lin He*, Ting-Ting Mei, Ling Tang, Shi-Qing Liao, Zhong Cao*, DSN/TdT recycling digestion based cyclic amplification strategy for microRNA assay, Talanta, 2020, 219: 121173. https://doi.org/10.1016/j.talanta.2020.121173
27. Jing-Lin He*, Yang Zhang, Ting-Ting Mei, Ling Tang, Si-Ying Huang, Zhong Cao*, Telomerase-triggered DNAzyme spiders for exponential amplified assay of cancer cells, Biosensors and Bioelectronics, 2019, 144: 111692. https://doi.org/10.1016/j.bios.2019.111692
28. Jinglin He*, Yang Zhang, Chan Yang, Siying Huang, Ling Wu, Tingting Mei, Jianxiu Wang, Zhong Cao*, Hybridization Chain Reaction Based DNAzyme Fluorescent Sensor for L-Histidine Assay, Anal. Methods, 2019, 11 (16): 2204-2210. DOI: 10.1039/C9AY00526A
29. Jing-Lin He†, Xing-Xing Wang†, Ting-Ting Mei, Ling Wu, Ju-Lan Zeng, Jian-Hui Wang, Jianxiu Wang, Donghong Yu, Zhong Cao*, DNA-templated copper nanoclusers via TdT isothermal nucleic acid amplification for mercury(II) assay, Analytical Methods, 2019, 11 (32): 4165-4172. https://doi.org/10.1039/C9AY01214A
30. Wu Zou, Fuchun Gong*, Zhong Cao*, Jiaoyun Xia, Tingting Gu, Renxing Deng, A simple and effective strategy for detecting artemisinin based on oxidative cyclization of vitamin B1 eliciting fluorescence turn-on, Anal. Methods, 2019, 11: 88-96. http://dx.doi.org/10.1039/C8AY02312C
31. Xuejiao, Chen, Fuchun Gong*, Zhong Cao*, Wu Zou, Tingting Gu, Highly cysteine-selective fluorescent nanoprobe based on ultrabright and directly synthesized carbon quantum dots, Analytical and Bioanalytical Chemistry, 2018, 410 (12): 2961-2970. https://doi.org/10.1007/s00216-018-0980-3
32. Wu Zou, Fuchun Gong*, Xuejiao Chen, Zhong Cao*, Jiaoyun Xia, Tingting Gu, Zhizhang Li, Intrinsically fluorescent and highly functionalized polymer nanoparticles as probes for the detection of zinc and pyrophosphate ions in rabbit serum samples, Talanta, 2018, 188: 203-209. https://doi.org/10.1016/j.talanta.2018.05.087
33. Xing-Xing Wang, Pan-Pan Li, Jing-Lin He, Wen Ouyang, Hui Xiao, Chan Yang, Zhong Cao*, Cytosine-rich oligonucleotide-templated fluorescent silver nanoclusters for sensitive assay of S1 nuclease, Chemical Journal of Chinese Universities, 2017, 38 (8): 1334-1340. Doi: 10.7503/cjcu20170113
34. Wen-Qi Ge, Ying-Ying Sheng, Ya-Dong Qiao, Zhong Cao*, Hai-Chen Wu, Zhi-Yi Yao*, Fluorescent Detection of p-Nitroaniline Based on an Anionic Pyrenyl Probe, Chinese J. Anal. Chem., 2017, 45 (10): 1523-1528. DOI: 10.11895/j.issn.0253-3820.170263
35. Hui Xiao, Jing-Lin He*, Hao Xiao, Chan Yang, Ze-Meng Feng, Yu-Long Yin, Zhong Cao*, Terminal Deoxynucleotidyl Transferase Amplification Based DNA-Copper Nanoclusters Sensor for Detection of L-Histidine, Chinese J. Anal. Chem., 2017, 45 (10): 1517-1522. DOI: 10.11895/j.issn.0253-3820.170336
36. Hai-Qin Liang, Zhi-Yi Yao*, Wen-Qi Ge, Ya-Dong Qiao, Li Zhang, Zhong Cao*, Hai-Chen Wu*, Selective and sensitive detection of picric acid based on a water-soluble fluorescent probe, RSC Advances, 2016, 6: 38328-38331. DOI: 10.1039/c6ra04080b
37. Ting Li, Zhong Cao*, Pan-Pan Li, Jing-Lin He*, Hui Xiao, Chan Yang, Novel high-sensitive fluorescent enhancement detection of Hg(Ⅱ) ions based on poly(thymine)-templated copper nanoclusters, Chemical Journal of Chinese Universities, 2016, 37 (9): 1616-1621. Doi: 10.7503/cjcu20160319
38. Jing-Lin He*, Ping Wu, Shuang-Li Zhu, Ting Li, Pan-Pan Li, Jian-Nan Xiang, and Zhong Cao*, Cleaved DNAzyme Substrate induced Enzymatic Cascade for the Exponential Amplified Analysis of L-histidine, Talanta, 2015, 132: 809-813. http://dx.doi.org/10.1016/j.talanta.2014.10.037
39. Jing-Lin He*, Shuang-Li Zhu, Ping Wu, Pan-Pan Li, Ting Li, Zhong Cao*, Enzymatic Cascade Based Fluorescent DNAzyme Machines for the ultrasensitive Detection of Cu(II) ions, Biosensors and Bioelectronics, 2014, 60: 112-117. http://dx.doi.org/10.1016/j.bios.2014.03.065
40. Yongsheng Mi, Zhong Cao*, Yating Chen, Shu Long, Qiufen Xie, Dongming Liang, Wenping Zhu, and Jiannan Xiang*, A Reversible Switch as Highly Selective Sequential Chemosensor for Al3+ Cation Followed by F- Anion, Sensors and Actuators: B. Chemical, 2014, 192: 164-172. http://dx.doi.org/10.1016/j.snb.2013.10.103
41. Yong-Sheng Mi, Zhong Cao*, Ya-Ting Chen, Qiu-Fen Xie, Ying-Ying Xu, Yong-Feng Luo, Jian-Jian Shi, Jian-Nan Xiang*, Determination of Trace Amount of Cu2+ with a Multi-responsive Colorimetric and Reversible Chemosensor, Analyst, 2013, 138: 5274-5280. DOI: 10.1039/c3an00741c
42. W.-G. Yi, Z. Cao*, D. Yan, T.-T. Cao, L. Xue, Synthesis and Analytical Application of Fluorescent Iron Ions Probe Based on 2-(4-aminophenyl)benzo[d]thiazole and 2-Picolylamine Derivatives, Chinese Journal of Analytical Chemistry, 2012, 40 (8) : 1241-1246. DOI: 10.3724/SP.J.1096.2012.11159
43. Zhong Cao*, Zheng Gu, Ju-Lan Zeng, Jin-Hua Liu, Qin Deng, Jun-Bing Fan, Jian-Nan Xiang*, A novel fluorescent probe for copper ions based on polymer modified CdSe/CdS core/shell quantum dots, Analytical Sciences, 2011, 27 (6) : 643-647. DOI: 10.2116/analsci.27.643
44. Li-Jing Zhou, Zhong Cao*, Jing-Lin Hu, Zhen Peng, Pu-Ni Zeng, Gang Su, and De-Liang He, Fluorescent Determination of Trace Calcium in Water from High-Parameter Power Plant Based on a Porphyrin Derivative, Advanced Science Letters, 2011, 4 (4/5) : 1541-1545. doi:10.1166/asl.2011.1565
45. Zhong Cao*, Fu-Chun Gong, Ming Tu, Meng-Xue Zeng, Xi-Xi Huang, Ling Zhang, Shu-Zhen Tan, Li-Xian Sun, and Ning Gu, Preliminary Recognition of c-Myc Gene Protein Using an Optical Biosensor with Gold Colloid Nanoparticles Based on Localized Surface Plasmon Resonance, Analytical Letters, 2009, 42 (17): 2820-2837. DOI: 10.1080/00032710903082820
46. 竹井弘之, Zhong Cao, 帽子状金属微粒子を用いたバイオセンサー, 光学(日文), 2004, 33 (3): 180-182.
47. 竹井弘之, 曹忠, 帽子状金ナノ粒子を用いた非標識型生体分子検出法, 分光研究(日文), 2003, 52 (2): 94-96.
(四)能源环境材料、热化学分析
48. Tao Wu, Fen Xu*, Li-Xian Sun*, Zhong Cao*, Hai-Liang Chu, Yu-Jia Sun, Ling Wang, Pei-Hai Chen, Jiao Chen, Ying Pang, Yong-Jin Zou, Shu-Jun Qiu, Cui-Li Xiang, Huan-Zhi Zhang, Al-Li3AlH6: A Novel Composite with High Activity for Hydrogen Generation, International Journal of Hydrogen Energy, 2014, 39 (20): 10392-10398. http://dx.doi.org/10.1016/j.ijhydene.2014.04.159
49. Zhi-Jun Duan, Huan-Zhi Zhang, Li-Xian Sun*, Zhong Cao*, Fen Xu, Yong-Jin Zou, Hai-Liang Chu, Shu-Jun Qiu, Cui-Li Xiang, Huai-Ying Zhou, CaCl2·6H2O/Expanded graphite composite as form-stable phase change materials for thermal energy storage, Journal of Thermal Analysis and Calorimetry, 2014, 115 (1): 111-117. DOI 10.1007/s10973-013-3311-0
50. H. Liu, L. Sun*, Z. Cao*, X. Si, Z. Wang, J. Zeng, F. Xu, Progress in light element composed high capacity hydrogen storage materials, Rare Metal Materials and Engineering, 2013, 42: 458-462. doi: 1002-185X(2013)S2-458-05
51. H. Liu, F. Xu, L.-X. Sun*, Z. Cao*, H. Zhou, Studies on Preparation and Hydrogen Generation for the Al-LiBH4 based Composiotes Materials, Chemical Journal of Chinese Universities, 2013, 34 (8): 1953-1958. Doi: 10.7503/cjcu20121095
52. Hui Zhang, Zhong Cao*, Li-Xian Sun*, Fen Xu, Jian Zhang, Zi-Qiang Huang, Xia Jiang, Zhi-Bao Li, Shuang Liu, Shuang Wang, Cheng-Li Jiao, Huai-Ying Zhou, Yutaka Sawada, Improved dehydrogenation /rehydrogenation performance of LiBH4 by doping mesoporous Fe2O3 or/and TiF3, Journal of Thermal Analysis and Calorimetry, 2013, 112 (3): 1407-1414. DOI 10.1007/s10973-012-2721-8
53. Yi-Xi Zhou, Li-Xian Sun*, Zhong Cao*, Fen Xu*,Chun-Hong Jiang, Cheng-Li Jiao, Hui Zhang, Jian Zhang, Huai-Ying Zhou, Fen Li, Zi-Ming Zhao, Huang-Zhi Zhang, Heat capacities and thermodynamic properties of Ni9(btz)12(DMA)6(NO3)6, Journal of Thermal Analysis and Calorimetry, 2013, 111 (2): 1603-1608. [SCI、EI收录, 2012IF=1.982] DOI 10.1007/s10973-012-2475-3
54. Yi-Xi Zhou, Li-Xian Sun*, Zhong Cao*, Jian Zhang, Fen Xu, Li-Fang Song, Zi-Ming Zhao and Yong-Jin Zou, Heat capacities and thermodynamic properties of M(HBTC)(4, 4’-bipy)•3DMF (M = Ni and Co), Journal of Thermal Analysis and Calorimetry, 2012, 110: 949-954. DOI 10.1007/s10973-011-1889-7
55. H. Zhang, Y. Zhou, L. Sun*, Z. Cao*, F. Xu, S. Liu, J. Zhang, L. Song, X. Shi, C. Jiao, S. Wang, Z. Li, S. Liu, F. Li, Synergistic Catalysis of Fe2O3 and TiF3 Additives on the LiBH4-MgH2 Composite, Chemical Journal of Chinese Universities, 2012, 33 (04): 781-785. DOI: 10.3969/j.issn.0251-0790.2012.04.024
56. Lifang Song, Jian Zhang, Lixian Sun, Fen Xu, Fen Li, Huanzhi Zhang, Xiaoliang Si, Chengli Jiao, Zhibao Li, Shuang Liu, Yingliang Liu, Huaiying Zhou, Dalin Sun, Yong Du, Zhong Cao, Zelimir Gabelica, Minireview: Mesoporous metal-organic frameworks: Design and applications, Energy and Environmental Science, 2012, 5 (6): 7508-7520. http://dx.doi.org/10.1039/C2EE03517K
57. Yongjin Zou, Cuili Xiang, Lini Yang, Li-Xian Sun*, Fen Xu, Zhong Cao, A mediatorless microbial fuel cell using polypyrrole coated carbon nanotubes composite as anode material, International Journal of Hydrogen Energy, 2008, 33 (18): 4856-4862. https://doi.org/10.1016/j.ijhydene.2008.06.061
(五)有机合成、有机功能材料
58. Zhong Cao, Qin Zhu, Ying-Wu Lin, Wei-Min He, The concept of dual roles design in clean organic preparation, Chinese Chemical Letters, 2019, 30: 2132-2138. https://doi.org/10.1016/j.cclet.2019.09.041
59. Kai-Jian Liu, Yu-Ling Fu, Long-Yong Xie, Chao Wu, Wei-Bao He, Sha Peng,Zheng Wang, Wen-Hu Bao, Zhong Cao, Xinhua Xu, Wei-Min He, Green and Efficient: Oxidation of Aldehydes to Carboxylic Acids and Acid Anhydrides with Air,ACS Sustainable Chemistry & Engineering, 2018, 6 (4): 4916–4921. DOI: 10.1021/acssuschemeng.7b04400
60. Chao Wu, Jie Wang, Xing-Yu Zhang, Guo-Kai Jia, Zhong Cao, Zilong Tang, Xianyong Yu, Xinhua Xu, Wei-Min He*, Palladium-catalyzed selective synthesis of 3,4-dihydroquinazolines from electron-rich arylamines, electron-poor arylamines and glyoxalates, Org. Biomol. Chem., 2018, 16: 5050-5054. http://dx.doi.org/10.1039/C8OB01005F
61. Chao Wu, Zheng Wang, Zhan Hu, Fei Zeng, Xing-Yu Zhang, Zhong Cao, Zilong Tang, Wei-Min He*, Xin-Hua Xu, Direct synthesis of alkenyl iodides via indium-catalyzed iodoalkylation of alkynes with alcohols and aqueous HI, Organic & Biomolecular Chemistry, 2018, 16: 3177-3180. http://dx.doi.org/10.1039/C8OB00183A
62. Chao Wu, Ling-Hui Lu, Ai-Zhong Peng, Guo-Kai Jia, Cun Peng, Zhong Cao, Zilong Tang, Wei-Min He*, Xinhua Xu, Ultrasound-promoted Brønsted acid ionic liquid-catalyzed hydrothiocyanation of activated alkynes under minimal solvent conditions, Green Chemistry, 2018, 20: 3683-3688. http://dx.doi.org/10.1039/C8GC00491A
63. Yuan Zou, Fu-Lin Zhu, Zheng-Chao Duan, Ya-Hui Wang, De-Yang Zhang, Zhong Cao, Zhuo Zheng, Xiang-Ping Hu, Enantioselective Cu-catalyzed decarboxylative propargylic amination of propargyl carbamates, Tetrahedron Letters, 2014, 55(12): 2033-2036. http://dx.doi.org/10.1016/j.tetlet.2014.02.030
64. Sheng Yan, Cheng Zhang, Ya-Hui Wang, Zhong Cao*, Zhuo Zheng, Xiang-Ping Hu*, Synthesis of new chiral ferrocenyl P,N-ligands with a benzoxazole ring and their application in Ag-catalyzed asymmetric [3+2] cycloaddition, Tetrahedron Letters, 2013, 54 (28): 3669-3672. http://dx.doi.org/10.1016/j.tetlet.2013.05.003
(六)其它:超分子(杯芳烃、冠醚)主客体识别、自组装、QCM、压电传感、传感阵列、嗅觉模拟、模式识别
65. T. Zhou, Z. Cao*, Y.-L. Dai, T.-T. Cao, J.-L. He*, L.-T. Xu, S. Long, Sensing Mechanism and Application for Recognition of Ethanol by Calixarene Supramolecules Based on Hydrogen Bonds Interaction, Chemical Journal of Chinese Universities, 2013, 34 (6): 1339-1346. Doi: 10.7503/cjcu20130110
66. Y. Dai, Z. Cao*, J. Zeng, F. Gong, J. Hu, T. He, Mechanism and Sensing Application for Recognition of Methanol Based on Calixarene Supramolecules, Acta Chimica Sinica, 2011, 69 (3): 291-297.
67. Zhong Cao*, Ling Zhang, Chaoyan Guo, Fu-Chun Gong, Shu Long, Shu-Zhen Tan, Chang-Bin Xia, Fen Xu, and Li-Xian Sun, Evaluation on Corrosively Dissolved Gold Induced by Alkanethiol Monolayer with Atomic Absorption Spectroscopy, Materials Science and Engineering C: Biomimetic and Supramolecular Systems, 2009, 29 (3): 1051-1056. doi:10.1016/j.msec.2008.09.010
68. Zhong Cao*, Yong-Lu Zheng, Fu-Chun Gong, Shu Long, Ping Chen, and Xiao-Chuan He, Recognition of Alkyl Ketone Molecules Based on Thickness-Shear-Mode Acoustic Sensors with Calixarene Derivatives, Microchemical Journal, 2007, 86 (1): 71—79. doi:10.1016/j.microc.2006.11.001
69. Zhong Cao*, Fu-Chun Gong, He-Ping Li, Zhong-Liang Xiao, Shu Long, Ling Zhang, and San-Jun Peng, Approach on Quantitative Structure-Activity Relationship for Design of a pH Neutral Carrier Containing Tertiary Amino Group, Analytica Chimica Acta, 2007, 581(1): 19—26. doi:10.1016/j.aca.2006.08.003
70. Zhong Cao*, Ning Gu, and Fu-Chun Gong, Stripe Domain Analysis of Alkanethiol and Alkynethiol Monolayers Self-Assembled on the Surfaces of Gold Grains, Materials Science and Engineering C: Biomimetic and Supramolecular Systems, 2007, 27 (4): 773—780. doi:10.1016/j.msec.2006.08.009
71. Zhong Cao*, Ning Gu, Investigation on Gold Corrosion by in situ Quartz Crystal Microbalance and Atomic Force Microscopy in Self-Assembled Processes of Alkanethiol Monolayers, Materials Letters, 2005, 59 (28): 3687—3693. doi:10.1016/j.matlet.2005.06.047
72. Zhong Cao*, Zhong-Liang Xiao, Ning Gu, Fu-Chun Gong, Dao-Wu Yang, and Zhi-Ping Zhu, Corrosion Behaviors on Polycrystalline Gold Substrates in Self-Assembled Processes of Alkanethiol Monolayers, Analytical Letters, 2005, 38 (8): 1289—1304. DOI: 10.1081/AL-200060960
73. Zhong Cao, Kazutaka Murayama, and Katsuyuki Aoki*, A Thickness-Shear-Mode Acoustic Wave Sensor Coated with C–ethylcalix[4]resorcinarene for Acetone Vapour and C–H….π Interactions as a Molecular Recognition Mechanism, Analytica Chimica Acta, 2001, 448 (1-2): 47—59. PII: S0003-2670(01)01325-3
74. Jian-Nan Xiang*, Zhong Cao, Xia Yin, Ke-Min Wang, Hui-Gai Lin, and Ru-Qin Yu, Thickness-Shear-Mode Acoustic Wave Sensor Based on n-Butylamine Plasma-Deposition Film for Detection of Carboxylic Acid Vapours, Analytica Chimica Acta, 1999, 384 (1): 37—44. PII: S0003-2670(98)00833-2
75. Zhong Cao*, Bin-Feng Wang, Ke-Min Wang, Hui-Gai Lin, and Ru-Qin Yu, Chemical Acoustic Emissions from Gas Evolution Processes Recorded by a Piezoelectric Transducer, Sensors and Actuators B: Chemical, 1998, 50 (1): 27—37. PII: S0925-4005(98)00152-X
76. Zhong Cao, De Gao, Zheng-Gang Lei, Hui-Gai Lin, and Ru-Qin Yu*, Determination of Carboxylic Acid Vapour by a Thickness-Sheer-Mode Acoustic Wave Sensor Coated With Crown Ethers, Talanta, 1997, 44 (8): 1413—1421. PII: S0039-9140(97)00016-7
77. Zhong Cao, Dan Xu, Jian-Hui Jiang, Ji-Hong Wang, Hui-Gai Lin, Cheng-Jian Xu, Xiao-Bing Zhang, and Ru-Qin Yu*, Mimicking Olfactory System by a Thickness-Shear-Mode Acoustic Sensor Array, Analytica Chimica Acta, 1996, 335 (1-2): 117—125. PII: S0003-2670(96)00301-7
78. Zhong Cao, Hui-Gai Lin, Bin-Feng Wang, Dan Xu, and Ru-Qin Yu*, A Perfume Odour-Sensing System Using an Array of Piezoelectric Crystal Sensors with Plasticized PVC Coatings, Fresenius’ Journal of Analytical Chemistry, 1996, 355 (2): 194—199. (2002 renamed à Analytical and Bioanalytical Chemistry)
79. Ke-Min Wang, Zhong Cao, Hui-Gai Lin, Shi-Hua Wang, Bin-Feng Wang, and Ru-Qin Yu, Piezoelectric Crystal Sensor with a Plasticized PVC Coating for Determination of Trace Ethanol Vapour, The Analyst, 1996, 121 (2): 259—262.
80. Zhong Cao, Hui-Gai Lin, Bin-Feng Wang, Ke-Min Wang, and Ru-Qin Yu*, Piezoelectric Crystal Sensor Array Used as an Organic Vapour Sensing System, Microchemical Journal, 1995, 52 (2): 174—180.
81. Zhong Cao, Hui-Gai Lin, Bin-Feng Wang, Ze-Zhong Chen, Fu-Lin Ma, Ke-Min Wang, and Ru-Qin Yu*, Discrimination of Vapours of Alcohols and Beverage Samples Using Piezoelectric Crystal Sensor Array, Analytical Letters, 1995, 28 (3): 451—466.
82. J.-N. Xiang, X. Yin, Z. Cao, K.-M. Wang, H.-G. Lin, R.-Q. Yu, Sensing characteristics of thickness-shear-mode acoustic wave sensor modified with plasma-deposited n-butylamine film, Chemical Journal of Chinese Universities, 1999, 20 (3): 392—394.
83. Z. Cao, T. Li, X.-H. Yang, K.-M. Wang, H.-G. Lin, R.-Q. Yu, Studies on thickness-shear-mode acoustic wave pyridine sensor coated with calix[4]arenes, Chemical Journal of Chinese Universities, 1998, 19 (6): 882—884.
84. Z. Cao, H.-G. Lin, B.-F. Wang, K.-M. Wang, Z.-Z. Chen, R.-Q. Yu, An array of piezoelectric crystal sensors with plasticized PVC coatings used as perfume odour-sensing system, Chemical Journal of Chinese Universities, 1995, 16(5): 704-706.
85. Z. Cao, S.-H. Wang, B.-F. Wang, H.-G. Lin, D.-H. Du, R.-Q. Yu, An array of piezoelectric crystal sensors applied to recognizing functional group in mixed vapour of organic solvents, Acta Chimica Sinica, 1995,53(4): 386—391.
86. S.-H. Wang, Z. Cao*, B.-F. Wang, H.-G. Lin, R.-Q. Yu, Piezoelectric crystal sensor array used for determination of ethanol vapor in mixtures, Chemical Journal of Chinese Universities, 1994, 15(7): 1132-1135.
87. Z.-Q. Yu, Z. Cao*, Realizing of Fast Fourier Transformation on Singlechip Processor, Hunan Electric Power Technology, 1994, (2): 44-45.