王冰

副教授

wangb266@mail.sysu.edu.cn

通讯地址:广州市大学城外环东路132号 raybet电竞下载东校园 纳米楼(光电材料与器件全国重点实验室)

联系方式:wangb266@mail.sysu.edu.cn

工作经历

2018.10 —,raybet电竞下载“百人计划”副教授,电子与信息工程学院(微电子学院)

2012.07-2018.10,新加坡-麻省理工科研与技术联盟(Singapore-MIT Alliance for Research and Technology, SMART),历任博士后、高级博士后、研究科学家(Research Scientist)

学术兼职和社会服务

国际光学工程学会SPIE会员,学术期刊Optica, Optics Letters, Optical Express等审稿人。

教育经历

2009.09 – 2012. 07,北京大学,信息科学技术学院,通信与信息系统,博士。

2008.09 – 2009.09,麻省理工学院,材料科学与工程系,访问博士生;

2007.09 – 2008. 09,华中科技大学,光学工程,博士研究生;

2005.09 – 2007.06,华中科技大学,光电子工程系光学工程,硕士;

2001.09 – 2005.06,郑州大学,电子科学与技术,学士。

授课课程

本科生课程:

《大学物理(理)》,《光电器件集成技术实验》;

研究生课程:

《先进光电子集成技术》。

研究方向

      三五族化合物半导体的异质外延生长,及其与硅光、微电子系统的混合/异质集成技术

      光电集成技术的核心发展趋势,是在单一衬底上实现多材料体系、多功能光电器件与子系统的单片集成,以此提升集成密度、拓展器件功能、构建高灵活度智能光电系统。不同光电功能对应差异化的半导体材料体系,由此带来光电集成领域的核心瓶颈—— 跨体系材料与工艺兼容性难题。因此,现阶段及未来一段时期的核心研究目标,是通过多元化集成工艺实现多种类半导体材料、功能器件与子系统的异质融合,并充分利用成熟先进的 CMOS 微加工工艺,研制兼具高性能与低成本优势的集成光电子芯片与系统。

      III-V 族化合物半导体(GaAs/AlGaAs、InP/InGaAsP 等)具备优异的发光、光调制与光电探测特性,是高性能半导体激光器、光放大器、光电探测器、光调制器的核心功能材料,已在光通信与各类光电子场景中长期落地应用。步入人工智能时代,该类器件作为数据中心高速光互连的核心单元,具备不可替代的核心价值。与此同时,历经二十余年持续攻关,硅光子技术已发展至工程成熟阶段。伴随人工智能场景下超大容量、超高速数据传输需求的爆发,依托微电子集成电路完备、低成本的规模化制造优势,硅光子技术近三年迎来快速产业化进程,现已迈入大规模量产阶段。当前行业与学术前沿聚焦于Ⅲ-Ⅴ 族化合物光电器件与硅光平台的晶圆级异质集成,充分融合两类材料体系的独有性能优势,而异质材料匹配、器件兼容与跨平台工艺协同仍是该路线亟待突破的关键难点。

     围绕上述产业与技术瓶颈,本团队重点开展三类核心研究:硅基Ⅲ-Ⅴ 族半导体异质外延技术、晶圆键合(wafer-to-wafer/die-to-wafer)异质集成技术,以及光电器件、芯片与系统的混合 / 异质集成技术。依托raybet电竞下载光电材料与技术全国重点实验室完备的科研平台,团队可覆盖从半导体外延生长、异质键合集成、光电器件流片制备到芯片系统性能测试的全流程研发链路。完善的硬件基础设施与高效稳定的科研支撑条件,为本方向前沿探索与工程化验证提供了坚实保障。

       硕士、博士研究生招生方向:光学工程。欢迎具有光电、光通信、材料、物理等专业背景的同学咨询报考!

科研项目 

  1. 国家自然科学基金面上项目,“大尺寸硅锗衬底上的VCSEL选区外延生长研究”,2025.01~2028.12,主持;
  2. 广东省自然科学基金面上项目,“硅上VCSEL激光器的选区外延生长研究”,2024.01~2026.12,主持;
  3. 国家重点研发计划项目“III-V族光子集成关键工艺及通用集成技术开发”,课题“III-V 族光芯片平台验证和PDK 开发”,2022.10~2025.11,raybet电竞下载任务负责人;
  4. 高校基本科研业务费,青年教师团队项目,“多材料宽光谱多功能硅基混合集成光电芯片关键技术研究”,2022.01~2022.12,主持;
  5. 国家重点研发计划项目“宽带微波光子信号调控核心器件与技术”,课题“面向波形产生与射频接收前端的光子定义芯片研究”,2020.01~2022. 12,raybet电竞下载任务负责人。

 科研成果

  1. Jiajia Luo, Qiming Li, Gongli Xiao, Bing Wang*, Hongyan Yang*, and Siyuan Yu. Structural color based on TiO2 semi-ellipsoidal nanostructures metasurface. Optics Express, 2026, 34(4): 6650-6662.
  2. Mingming Pan, Bing Wang*, Shuqing Lin, and Siyuan Yu.Design and fabrication of a dual-channel symmetric optical 90-degree hybrid based on an 8Í8 multi-mode interferometer. Optics Express, 2025, 33(20): 42489-42497.
  3. Yuan Huang, Zheqian Chen, Bing Wang*, Xinlun Cai, and Siyuan Yu, Selective area growth of GaAs/AlGaAs-distributed Bragg reflectors on Ge substrates. Semiconductor Science and Technology, 2025, 40: 125012.
  4. Zheqian Chen, Bing Wang*, Yu Han, Xinlun Cai, and Siyuan Yu, Facets evolution of selected area growth GaAs in circular windows on Ge-on-Si and Ge substrates. Applied Physics Letters, 2024, 125: 162104.
  5. Panpan Xiao, Bing Wang*, “Design of an erbium-doped Al2O3 optical waveguide amplifier with on-chip integrated laser pumping source”, Optics Communications, 508, 127709 (2022). 
  6. Peiqi Zhou, Bo Wang, Xingjun Wang, Bing Wang, Yandong He, and John Bowers, “Design of an on-chip electrically driven, position-adapted, fully integrated erbium-based waveguide amplifier for silicon photonics, OSA Continuum, 4(3), 790-814 (2021).
  7. Shuyu Bao, Yue Wang, Khaw Lina, Li Zhang, Bing Wang, Wardhana Aji Sasangka, Kenneth Eng Kian Lee, Soo Jin Chua, Jurgen Michel, Eugene Fitzgerald, Chuan Seng Tan, and Kwang Hong Lee, "A review of silicon-based wafer bonding processes, an approach to realize the monolithic integration of Si-CMOS and III-V-on-Si wafers", Journal of Semiconductors, 42,023106 (2021).
  8. Bing Wang, Govnido Joannesha Syaranamual, Kwang Hong Lee, Shuyu Bao, Yue Wang, Kenneth Eng Kian Lee, Eugene A. Fitzgerald, Stephen J. Pennycook, Silvija Gradecak, and Jurgen Michel, "Effectiveness of InGaAs/GaAs superlattice dislocation filter layers epitaxially grown on 200 mm Si wafers with and without Ge buffers", Semiconductor Science and Technology, 35, 095036 (2020).
  9. Yue Wang, Bing Wang, Wardhana Aji Sasangka, Shuyu Bao, Yiping Zhang, Hilmi Demir, Jurgen Michel, Kenneth Lee, Soon Fatt Yoon, Eugene A. Fitzgerald, Chuan Seng Tan, and Kwang Hong Lee, “High performance AlGaInP light-emitting diodes integrated on Silicon through superior quality germanium-on-insulator (GOI)”, Photonics Research, 6, 290-295 (2018).
  10. Kwang Hong Lee, Yue Wang, Bing Wang, Li Zhang, Wardhana Aji Sasangka, Shuh Chin Goh, Shuyu Bao, Kenneth E. Lee, Eugene A. Fitzgerald, Chuan Seng Tan, “Monolithic integration of Si-CMOS and III-V-on-Si through direct wafer bonding process”, IEEE Journal of the Electron Devices Society, 6, 571-578, 2018.
  11. Bing Wang, Shuyu Bao, Riko I Made, Kwang Hong Lee, Cong Wang, Kenneth Eng Kian Lee, Eugene A. Fitzgerald, and Jurgen Michel, “Control wafer bow of InGaP on 200 mm Si by strain engineering”, Semiconductor Science and Technology,32, 125013 (2017).
  12. Cong Wang, Bing Wang, Riko I. Made, Soon-Fatt Yoon, and Jurgen Michel, “Direct bandgap photoluminescence from n-type indirect GaInP alloys”, Photonics Research, 5, 239-244 (2017).
  13. Tae Wan Kim, Bing Wang, Cong Wang, David A. Kohen, Jeong Woo Hwang, Jae Cheol Shin, Sang-Woo Kang, and Jurgen Michel, “Metalorganic chemical vapor deposition-regrown Ga-rich InGaP films on SiGe virtual substrates for Si-based III-V optoelectronic device applications”, Journal of Vacuum Science & Technology A 35(3), 031507-1-5, (2017). 
  14. Bing Wang, Cong Wang, David A. Kohen, Riko I. Made, Kenneth Eng Kian Lee, Taewan Kim, Tim Milakovich, Eugene A. Fitzgerald, Soon Fatt Yoon, and Jurgen Michel, “Direct MOCVD epitaxy of GaAsP on SiGe virtual substrate without growth of SiGe”, Journal of Crystal Growth, 441, 78-83 (2016).
  15. Cong Wang, Bing Wang, Kwang Hong Lee, Chuan Seng Tan, Soon Fatt Yoon, and Jurgen Michel, “Epitaxy and characterization of GaInP/AlInP light-emitting diodes on As-doped Ge/Si substrates”, Optics Express, 24, 23129 (2016).
  16. Wenjia Zhang, Bing Wang, Zhaomin Zhu, Kenneth Eng Kian Lee, Jurgen Michel, Li-Shuian Peh, Li Zhang, and Chua Soo-Jin, “Ultrolow-power LED-enabled on-chip optical communication designed in the III-Nitride and Si-CMOS process integrated platform”, IEEE Design&Test, vol. 31, issue 5, 36-45, (2014).
  17. Bing Wang, Ruimin Guo, Xingjun Wang, Lei Wang, Bing Yin, and Zhiping Zhou, “Large electroluminescence excitation cross section and strong potential gain of Erbium in ErYb silicate”, Journal of Applied Physics, 113, 103108 (2013).
  18. Bing Wang, Xingjun Wang, Michiel J. A. de Dood, Ruimin Guo, Lei Wang, Michiel Vanhoutte, Jurgen Michel, Lionel C. Kimerling, and Zhiping Zhou, “Photoluminescence quantum efficiency and energy transfer of ErRE silicate (RE=Y, Yb) thin films”, Journal of Physcis D: Applied Physics, 45, 165101 (2012).
  19. B. Wang,R. M. Guo, X. J. Wang, L. Wang, L. Y. Hong, B. Yin, L. F. Gao, and Z. Zhou, “Near-infrared electroluminescence in ErYb silicate based light-emitting device”, Optical Materials, 34, 1371-1374 (2012)
  20. B. Wang, R. M. Guo, X. J. Wang, L. Wang, and Z. Zhou, “Composition dependence of the Yb-participated strong up-conversions in polycrystalline ErYb silicate”, Optical Materials, 34, 1289-1293, (2012).