姓名:钱俊
职称、职务:教授、博士生导师、智慧护理工程研究中心主任
联系电话:027-68788685
E-mail:qianjungreat@whu.edu.cn
个人简介
全国印刷电子产业技术创新联盟(IAPE)成员单位负责人
全国印刷教学指导委员会委员
中国油墨标委会委员
中国包装联合会包装教学指导委员会委员
广东省产学研特派员
湖北荆门市科技顾问
南京“321”人才
学习经历
1999年9月-2004年6月 best365体育最新版本,摄影测量与遥感, 博士(工学博士学位)
1995年9月-1998年6月 best365体育最新版本,印刷工程,硕士(工学硕士学位)
1988年9月-1992年6月 北京印刷学院,印刷技术,本科 (工学学士学位)
工作经历
2023年10月至今 best365体育最新版本best365官网app下载 智慧护理工程研究中心 教授
2007年12月至2023年10月 best365体育最新版本印刷与包装系 教授
2000年12月至2007年12月 best365体育最新版本印刷与包装系 副教授
1995年12月至2000年12月 best365体育最新版本印刷与包装系 讲师
1992年07月至1995年12月 best365体育最新版本印刷与包装系 助教
研究方向
开发碳系水性导电油墨,用于发光器件、智能交互产品,文创产品,智能教具等领域
开发碳系水性电热油墨,构建低电压、节能高效的电热油墨体系,用于智能穿戴设备、家装取暖、发热器件等领域
开发备碳点和量子点油墨,用于防伪、发光和检测等领域
特种涂料配方研制,用于PCB板,烟草和包装印刷等领域
所获奖励
2023年获湖北省技术发明三等奖
2022年指导《FaceON兴智学习平台获》获best365体育最新版本第十一届“自强杯”大学生创业计划竞赛金奖
2018年获湖北省高校科技人员创新创业大赛一等奖
2018年11月入选第三批“武昌英才计划”
2016年指导《印刷光电——碳系水性导电油墨》获全国第十届“挑战杯-创青春”大学生创业计划竞赛金奖
2011年指导湖北省第八届“挑战杯-青春在沃”大学生课外学术科技作品竞赛特等奖
2010获年浙江省科学技术三等奖
科研项目
1. 纵向部委级项目:柔版水性光油制备与防水性能的研究,2023/7-2025-6, 3.5万,在研,项目参与人
2. 纵向部委级项目:水性柔版UV墨的研制,2022/5-2024/6, 4万,在研,项目负责人
3. 科技横向项目:基于碳点的印刷湿度传感器的制备与应用,2022/9-2024/8, 110万,在研,项目负责人
4. 科技横向项目:锂离子电池铝塑复合膜设计与制备,2022/12-2023/11,60万,在研,项目负责人
5. 科技横向项目:低电压印刷水性石墨烯电热膜,2020/7-2022/6,200万,结题,项目负责人
6. 科技横向项目:PCB板用高性能石墨烯水性导电油墨性能体系研究,2019/12-2021/12,20万,结题,项目负责人
7. 科技横向项目:低电压红外发热油墨研制,2019/12-2021/12,30万,结题,主持
教学项目
《防伪技术》研究生“课程思政”示范课程,2023年,best365体育最新版本研究生课程思政项目,项目负责人。
科研成果
近五年以第一和(共同)通讯作者在国际主流期刊发表SCI论文30余篇,授权发明专利30余项,实用新型10余项。
部分代表性成果-论文
Xu, H., Li, W., Wang, X., Chen, Y., Qian, J.#, & Li, Y. (2023). Assisted Preparation of Waterborne Anti-etching Coating for Printed Circuit Board Photoresist Using Dibenzoyl Peroxide/Copper (II)-Phthalocyanine at Room Temperature. ACS Applied Polymer Materials, 6(1), 232-243.
Bie, Y., Liu, Y., Xu, H., Tian, Y., Wang, X., & Qian, J#. (2023). Conductive Ink Based on GNSs/MWCNTs for Fabricating Wearable Wash-Resistant Electrothermal Devices. ACS Applied Electronic Materials, 6(1), 276-291.
Liu, Y., Ma, X., Zhang, H., Sun, J., Qian, J.#, & Wang, X. (2022). Large-scale production of electrothermal films with GNSs/CNTs/CB three-dimensional structure ink by screen printing. ACS Applied Electronic Materials, 4(2), 814-822.
Deng, Y., Li, Q., Zhou, Y., & Qian, J.# (2021). Fully inkjet printing preparation of a carbon dots multichannel microfluidic paper-based sensor and its application in food additive detection. ACS Applied Materials & Interfaces, 13(48), 57084-57091.
Li, Y., Lu, F., Li, Q. Z., Zhou, Y. H., Qian, J.#, Cao, S., & Wang, C. Y. (2021). An ink-jet printed dual-CD ratiometric fluorescent paper-based sensor for the visual detection of Cu 2+. RSC advances, 11(52), 33036-33047.
Deng, Y., Zhou, Y., Li, Q., & Qian, J.# (2021). One-step hydrothermal synthesis of nitrogen-doped carbon dots for high-sensitivity visual detection of nitrite and ascorbic acid. Analytical Methods, 13(33), 3685-3692.
Ma, T., Wang, J., Qian, J.#, Ye, S., Zhou, Y., & Wang, Y. (2021). Synthesis and optimization of cesium lead halide perovskite QDs. Applied Physics A, 127, 1-7.
Liao, Y., Liu, W., Jia, W., Wang, B., Chen, L., Huang, K., Montgomery, M., Qian, J.#, Lv, S., Pfefferle, L. D. (2021). Bismuth sulfide strongly coupled to functionalized MWNTs hybrids with improved thermoelectric properties. Advanced Electronic Materials, 7(9), 2100468.
Li, Y., Qian, J.#, Zhao, D., & Song, R. (2021). Preparation of perovskite CsPb (Br x I 1− x) 3 quantum dots at room temperature. RSC advances, 11(30), 18432-18439.
Deng, Y., Qian, J.#, Zhou, Y., & Niu, Y. (2021). Preparation of N/S doped carbon dots and their application in nitrite detection. RSC advances, 11(18), 10922-10928.
Deng, Y., Qian, J#, & Zhou, Y. (2020). Solvothermal synthesis and inkjet printing of carbon quantum dots. ChemistrySelect, 5(47), 14930-14934.
Liao, Y., Tian, Y., Ma, X., Zhao, M., Qian, J.#, & Wang, X. (2020). Flexible electronics directly written with an ultrastable ballpoint pen based on a graphene nanosheets/MWCNTs/Carbon Black Nanocomposite. ACS Applied Electronic Materials, 2(12), 4072-4079.
Liu, H., Guo, J., Zhou, Y., & Qian, J.# (2020). Preparation and Adsorption Performance of Efficient Adsorbent for Heavy Metal Copper (II) Using Graphene‐Oxide‐Based Composites. ChemistrySelect, 5(36), 11354-11360.
Liao, Y., Tian, Y., Ma, X., Zhao, M., Qian, J.#, & Wang, X. (2020). Screen-printed high-performance flexible electrothermal films based on three-dimensional intercalation graphene nanosheets/MWCNT/carbon black composite. ACS Applied Materials & Interfaces, 12(42), 48077-48083.
Li, Y., Ma, F., Zhao, D., Lu, F., Wang, J., Cao, S., Qian, J.#, Zhou, Y. (2021). Convenient synthesis of high-quality, all-inorganic lead halide perovskite nanocrystals for high purity monochrome QLED. Materials Technology, 36(11), 637-646.
Deng, Y., Qian, J.#, Zhou, Y., & Lu, F. (2020). Regulatory preparation of N/S doped carbon quantum dots and their applications as Fe (III) ion sensors. ChemistrySelect, 5(17), 5306-5311.
Zhao D, Qian J.#, Ye S, et al. White electroluminescent devices based on hybrid structure with quantum dot color convertors[J]. Optics Express, 2020, 28(10): 14176-14185.
Zhang, R., Liao, Y., Zhou, Y., & Qian, J. #(2020). A facile and economical process for high-performance and flexible transparent conductive film based on reduced graphene oxides and silver nanowires. Journal of Nanoparticle Research, 22, 1-11.
Liao, Y., Zhang, R., & Qian, J.# (2019). Printed electronics based on inorganic conductive nanomaterials and their applications in intelligent food packaging. RSC advances, 9(50), 29154-29172.
Liao, Y., Zhang, R., Wang, H., Ye, S., Zhou, Y., Ma, T., ... & Qian, J.# (2019). Highly conductive carbon-based aqueous inks toward electroluminescent devices, printed capacitive sensors and flexible wearable electronics. RSC advances, 9(27), 15184-15189.
Zhao, D., Qian, J.#, & Ye, S. (2019). Research on Flexible Hybrid White Electroluminescent Devices with Different Light-convertor Position by Spin-coating. Journal of Imaging Science and Technology, 63(4), 40409-1.
Liao, Y., Zhang, R., Wang, H., Ye, S., Zhou, Y., Ma, T., & Qian,J. #(2019). Highly conductive carbon-based aqueous inks toward electroluminescent devices, printed capacitive sensors and flexible wearable electronics. RSC advances, 9(27), 15184-15189.
Zhang, R., Qian, J.#, Ye, S., Zhou, Y., & Zhu, Z. (2018). Synthesis and enhanced electrochemical activity of Ag-Pt bimetallic nanoparticles decorated MWCNTs/PANI nanocomposites. Journal of Wuhan University of Technology-Mater. Sci. Ed., 33(5), 1281-1287.
Wang, H., Qian, J.#, Li, H., & Ding, F. (2018). Rheological characterization and simulation of chitosan-TiO2 edible ink for screen-printing. Progress in Organic Coatings, 120, 19-27.
Wang, H., Qian, J.#, & Ding, F. (2018). Emerging chitosan-based films for food packaging applications. Journal of agricultural and food chemistry, 66(2), 395-413.
部分代表性成果-专利
一种基于双层PDLC膜的印刷型柔性显示屏,ZL201120258836.3,实用新型,授权
一种基于电阻效应的印刷柔性触摸显示屏,ZL201120259398.2,实用新型,授权
一种基于镀铝层的印刷型柔性显示屏,ZL201220503632.6,实用新型,授权
一种导电油墨电容笔组件,ZL201710476049.8 发明专利,授权
一种基于导电油墨的折纸教具,ZL201810676826.8 发明专利,授权
一种基于导电油墨压力传感器的无人值守超市结算方法,ZL201810275346.0,发明专利,授权
一种基于导电油墨的可发声海报,ZL201810268025.8,发明专利,授权
一种基于导电油墨的可发声易拉宝,ZL201810268030.9,发明专利,授权
一种动态防伪标签,202010698838.X,发明专利,授权
一种发声挂图,202110395181.2 发明专利,实审
一种交互式游戏盘及旗子识别方法和交互方法,202110468530.9 ,发明专利,实审
一种低电压发热油墨及其制备方法,202010697837.1,发明专利 ,实审
教学成果
湖北省教学成果二等奖