导师个人信息
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    张昱
    来源: 时间:2019-09-06 浏览:

    1.个人简介

    20161月博士毕业于中国科学院大学深圳先进技术研究院,广东工业大学副教授、硕导,省部共建精密电子制造技术与装备国家重点实验室“微电子精密制造技术与装备教育部重点实验室”核心成员,校青年百人计划A引进人才。主要从事微电子、功率电子等先进半导体封装技术与关键材料的研发,研究方向包括微纳金属材料、柔性印刷电子、高密度三维互连工艺及关键材料。


    2.工作经历

    2019.01-至今,广东工业大学机电学院,副教授

    2018.03-2019.09,荷兰代尔夫特理工大学微电子系,访问学者

    2016.01-2018.12,广东工业大学机电学院讲师


    3.主要获奖

    2021年度广东工业大学优秀创新成果奖

    2018年度 广东工业大学先进科技工作者

    2017年度 广东工业大学先进科技工作者

    2017年度广东工业大学学院优秀共产党员

    2017年度广东工业大学学院建设积极分子

    2016-2017年度广东工业大学优秀班主任

    2016-2017年度广东工业大学教学优秀二等奖


    4.承担项目

    主持:

    (1)国家自然科学基金,62174039,面向超细节距半导体全铜封装的火花烧蚀低温低压瞬态互连机理研究,2022/01-2025/1260万,在研。

    (2)国家自然科学基金,61704033,面向第三代半导体封装互连的纳米铜膏及其低温无压烧结机理研究,2018/01- 2020/1226万,结题

    (3)广东省重点领域研发计划,2053810300008,多类芯片异构集成先进封装技术研发与应用,2021/01-2023/1250万,在研。

    (4)广东省自然科学基金面上项目,2021A1515011642,新型纳米铜基柔性印刷电子低温互连工艺,2021/01-2022/1210万,在研。

    (5)广东省教育厅青年创新人才项目(自然科学),2016KQNCX046,功能性纳米铜的可控制备及其在印刷电子中的应用,2017/07-2019/075万,在研。

    (6)新型电子元器件关键材料与工艺国家重点实验室开放基金,FHR-JS-202011005,纳米银基新型元器件封装互连技术,2020/11-2022/1010万,在研。

    (7)南沙区技术攻关项目,2016GG009,高密度互联盲埋孔填充技术研究与应用,2016/10-2018/1260万,结题。

    (8)佛山南海区科技券,YJY2016005,三维倒装芯片的低温互连技术研究,2016/12-2017/125万,结题。

    (9)广东工业大学机电工程学院种子基金,2018/01- 2018/1210万,结题。

    (10)广东工业大学青年百人项目,220403558,高密度三维电子封装材料及工艺研究,2016/03-2021/0310万,在研。

    参与:

    (1)国家重点研发计划(战略性国际科技创新合作重点专项),2018YFE0204601,用于先进封装互连的纳米铜材料和工艺研究及应用,2019/ 08-2022/07786,在研。

    (2)广东省科技发展专项(国际合作),2017A050501053,突破半导体互连技术的瓶颈--纳米铜粉的制备和应用,2017/10-2019/09100万,结题。

    (3)NSFC-广东联合基金,U1601202,功能微结构阵列的新型加工理论与关键技术,2017/01-2020/12240万,结题。

    (4)国家自然科学基金,61874155,面向封装互连的铜-银双金属核壳纳米结构及低温无压烧结机理,2019/01-2022/1263万,在研。

    (5)南沙区技术攻关项目,2017GG001屏下光学指纹识别模组基板技术研究与应用,2017/09-2019/08300万,结题。

    (6)广东省科技开发,2015B010104008,细间距芯片低温三维倒装互连关键技术研究与装备开发,2015/09-2018/09100万,结题。

    (7)华为技术有限公司,TC20210129011,玻璃core基板技术合作项目,2021/03-2021/09115.36万,结题。


    5.发表文章

    (1)Yu Zhang,Qiang Liu, Yu Liu, Jin Tong, Zhongwei Huang, Song Wu, Peilin Liang, Guannan Yang,* and Chengqiang Cui*. Green synthesis of novel in-situ micro/nano-Cu paste for semiconductor interconnectionNanotechnology.2022

    (2)Chao Li, Haili Song, Yan Cheng, Ruijuan Qi, Rong Huang, Chengqiang Cui, Yifeng Wang,Yu Zhang*, and Lei Miao. Highly Suppressed Thermal Conductivity in Diamond-like Cu2SnS3 by Dense Dislocation.ACS Applied Energy Materials.2021, 4, 9, 8728–8733.

    (3)Guannan Yang, Haiqi Lai, Wei Lin, Jin Tong, Jun Cao, Jiye Luo,Yu Zhang*and Chengqiang Cui*.A quantitative model to understand the microflowcontrolled sintering mechanism of metal particles at nanometer to micron scale.Nanotechnology.2021, 32, 505721.

    (4)Guannan Yang, Qiyu Zou, Pengyu Wang, Haiqi Lai, Tao Lai, Xian Zeng, Zhen Li, Jiye Luo,Yu Zhang*, Chengqiang Cui*.Towards understanding the facile synthesis of well-covered Cu-Ag core-shell nanoparticles from a complexing model.Journal of Alloys and Compounds.2021, 874, 159900.

    (5)Guannan Yang, Guangdong Xu, Quanzhen Li, Yujie Zeng,Yu Zhang*, Mingming Hao*, Chengqiang Cui*. Understanding the sintering and heat dissipation behaviours of Cu nanoparticles during low-temperature selective laser sintering process on flexible substrates.Journal of Physics D: Applied Physics.2021, 54, 375304.

    (6)Guannan Yang, Wei Lin, Haiqi Lai, Jin Tong, Junjun Lei, Maodan Yuan,Yu Zhang*, Chengqiang Cui*.Understanding the relationship between particle size and ultrasonic treatment during the synthesis of metal nanoparticles.Ultrasonics Sonochemistry.2021, 73, 105497.

    (7)Guannan Yang, Xian Zeng, Pengyu Wang, Chao Li, Guangdong Xu, Zhen Li, Jiye Luo,Yu Zhang*, and Chengqiang Cui*. Size Refinement of Copper Nanoparticles A Perspective from Electrochemical Nucleation and Growth Mechanism.ChemElectroChem.2021, 8, 819-828.

    (8)Boyao Zhang, Andrei Damian, Jurrian Zijl, Henk van Zeijl1,Yu Zhang*, Jiajie Fan, and Guoqi Zhang. In-air sintering of copper nanoparticle paste with pressure-assistance for die attachment in high power electronics.Journal of Materials Science: Materials in Electronics.2021, 32, 4544-4555.

    (9)Yu Zhang, Ping Cao, Wei Lin, Qiang Liu, Ziyuan Chen, Jun Cao, Guannan Yang, Chengqiang Cui. Synergy effect of mixed sintering accelerator on the deoxidation and sintering property improvement of Cu nanoparticles at low temperature.Applied Physics A: Materials Science & Processing.2021, 127, 783.

    (10)Yu Zhang,Pengli Zhu,Gang Li,Chengqiang Cui, Kai Zhang, Jian Gao, Xin Chen, Guoqi Zhang,Rong Sun, Ching-ping Wong.PVP-Mediated Galvanic Replacement Synthesis of Smart Elliptic Cu-Ag Nanoflakes for Electrically Conductive Pastes.ACS Applied Materials & Interfaces.2019, 11, 8, 8382-8390.

    (11)Yu Zhang,Chengqiang Cui, Bin Yang, Kai Zhang, Pengli Zhu,Gang Li, Rong Sun, Ching-ping Wong.Size-controllable copper nanomaterials for flexible printed electronics.Journal of Materials Science. 2018, 53, 12988-12995.

    (12)Yu Zhang, PengliZhu, Gang Li, Liang Chen, Chengqiang Cui, Kai Zhang, Rong Sun, Ching-ping Wong. Easy separation of CuO nanocrystals with high catalytic activity.Materials Letters.2018, 212, 332–335.

    (13)Yu Zhang,HaiyuanHu, Xiaowei Pei, Yupeng Liu, Qian Ye and Feng Zhou. Polymer brushes on structural surfaces: a novel synergistic strategy for perfectly resisting algae settlement.Biomaterials Science.2017, 5, 2493

    (14)Yu Zhang,PengliZhu, Liang Chen, Gang Li, Rong Sun, Feng Zhou, Ching-ping Wong. Highly Stable and Re-dispersible Nano Cu Hydrosols with Sensitively Size-dependent Catalytic and Antibacterial Activities.Nanoscale.2015, 7, 13775.

    (15)Yu Zhang, Pengli Zhu, Liang Chen, Gang Li, Fengrui Zhou, Daoqiang Lv, Rong Sun, Feng Zhou,Ching-ping Wong.Hierarchical Architectures of Monodisperse Porous Cu Microspheres: Synthesis, Growth Mechanism, High-Efficiency and Recyclable Catalytic Performance.Journal of Materials Chemistry A.2014, 2, 11966-11973.

    (16)Yu Zhang, Pengli Zhu, Gang Li, Tao Zhao, Xianzhu Fu, Rong Sun, Feng Zhou, and Ching-ping Wong. FacilePreparation of Monodisperse, Impurity-Free, and Antioxidation Copper Nanoparticles on a Large Scale for Application in Conductive Ink.ACS Applied Materials & Interfaces.2014, 6, 560-567.

    (17)Yu Zhang, Pengli Zhu, Gang Li, Rong Sun, and Ching-ping Wong. Facile Synthesis of Elliptical Cu-Ag Nanoplates for Electrically Conductive Adhesives.2015 16th International Conference on Electronic Packaging Technology (ICEPT).279-282.

    (18)Yu Zhang, Pengli Zhu, Gang Li, Rong Sun, and Ching-ping Wong. Large-Scale Synthesis of High-PerformanceCopper Nanoparticles and their Applications in Flexible Printed Electronics.2015 FPE.

    (19)Yu Zhang, Pengli Zhu, Rong Sun, and Ching-ping Wong. A Simple Way to Prepare Large-Scale CopperNanoparticlesfor Conductive Ink in Printed Electronics.2013 14th International Conference on Electronic Packaging Technology (ICEPT).317-320.

    (20)Tao Lai,Yu Zhang*,Chengqiang Cui, Kai Zhang, Tao Chen, Xun Chen, Xin Chen,JianGao, Yunbo He, Hui Tang, and YunChen.Synthesis of size-controlled pure copper nanoparticles for packaging interconnect.2018 19th International Conference on Electronic Packaging Technology (ICEPT).1702–1705.

    (21)XianZeng,Yu Zhang*,Chengqiang Cui, Kai Zhang, Xun Chen, Xin Chen, Jian Gao, Yunbo He, and Hui Tang.Synthesis of copper nanoparticles using copper hydroxide.2018 19th International Conference on Electronic Packaging Technology (ICEPT).1355–1358.


    6.专利标准

    授权专利:

    (1)一种超细节距半导体互连结构及其成型方法。发明专利ZL2021106619547.0

    (2)一种原位纳米铜膏及其制备工艺和应用。发明专利ZL202010676219.9

    (3)-陶瓷基板的制备方法。发明专利ZL201710840957.0

    (4)一种纳米合金材料的制备系统及制备方法。发明专利2021.05.11ZL202010006167.4

    (5)临时键合解键合的材料及其制备方法和应用。发明专利2021.03.16ZL201810345076 .7

    (6)一种超细线路制备装置。实用新型专利,2020.12.29ZL202020844081.4

    (7)纳米导体或半导体材料尺寸可控的制备系统及制备方法。发明专利2020.10.27ZL202010006159.X

    (8)Cu/SiO2复合材料、其制备方法与铜-陶瓷基板的制备。发明专利2020.08.11ZL201710842165.7

    (9)一种抗氧化微纳铜材料的制备方法。发明专利,2020.06.16ZL201910399914.2

    (10)一种微细线路的修复方法。发明专利,2020.06.09ZL201911157684.5

    (11)一种互连工艺发明专利2020.05.19ZL201710471203.2

    (12)一种高密度嵌入式线路的制作方法。发明专利2020.04.28ZL201710977049.6

    (13)一种用于半导体封装的导电浆料及其制备方法。发明专利,2020.03.10ZL201810337799.1

    (14)一种导电聚合物包覆的纳米金属及其制备方法。发明专利,2020.02.07ZL201810337133.6

    (15)一种芯片的转移方法发明专利2019.12.10ZL201710874383.9

    (16)一种核壳结构纳米金属互连工艺。发明专利,2019.08.16ZL201810010152.8

    (17)一种互连材料及其制备方法。发明专利,2019.07.26ZL201710469870.7

    (18)一种保护剂组合物和抗腐蚀键合丝及其制备方法。发明专利,2019.04.09ZL201611250204.6

    (19)一种纳米铜浆及其制备方法。发明专利,2019.03.15ZL201710469884.9

    (20)一种纳米颗粒的分离方法。发明专利,2019.02.22ZL201611265198.1

    (21)一种多孔微米铜球及其制备方法。发明专利,2019.01.01ZL201610071062.0

    (22)铜基导电浆料及其制备与其在芯片封装铜铜键合中的应用。发明专利,2018.07.03ZL201610518121.4

    (23)一种多芯片同步倒装机构及其封装工艺。发明专利,2018.06.05ZL201710641236.7

    (24)一种可用于导电油墨的银包铜纳米颗粒的制备方法。发明专利,2018.05.15ZL201610154292.3

    (25)一种铜银合金纳米片及其制备方法。发明专利,2018.04.17ZL201610071480.X

    (26)用于导电油墨的纳米铜浆的制备方法。发明专利,2015.11.04ZL201310706162.2

    (27)一种导电油墨纳米铜的制备方法。发明专利,2015.10.28ZL201310252843.6


    企业标准:

    (1)金属基导电油墨。Q/SIAT 08-2015

    (2)低温烧结银浆。Q/SIAT 14-2015

    7.联系方式

    联系电话:18344322156

    QQ /微信:549501186

    电子邮箱:zhangyu@gdut.edu.cn

    地址:广州市大学城广东工业大学机电工程学院机电系工学二号馆


    8.招生意向

    欢迎机械工程、机械电子、微电子、材料学等专业的同学报考,尤其欢迎对微电子、功率电子等先进半导体封装工艺及材料感兴趣的同学报考。



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