关于举行“GZIC平台共享行”宣讲活动的通知
Announcement on the GZIC Platforms Sharing Promotion Seminar
来源:华南理工大学广州国际校区 发布时间:2025-10-11
广大师生、校友:
在广东省、广州市的大力支持下,广州国际校区推进建设7大学科公共平台。为使广大师生和校友更全面了解校区建设平台,学校将持续组织开展“GZIC平台共享行”宣讲活动,以平台共享开放为窗口,服务支撑广大师生和校友科研与合作。
本次宣讲采用实地参观交流的方式,深入了解前沿软物质学院、微电子学院、集成电路学院下设平台相关设备类型、功能介绍、开放模式、合作机制及预约使用流程等。
具体安排如下:
一、参访前沿软物质学院公共仪器平台(限40人)
(一)时间:2025年10月16日14:15-15:45
(二)地点:广州国际校区C2b一楼至二楼
(三)主讲人:康德飞,前沿软物质学院行政副院长
二、参访微纳电子中心(限40人)
(一)时间:2025年10月17日10:00-11:30
(二)地点:广州国际校区B1d一楼
(三)主讲人:周长见,集成电路学院副院长
诚邀广大师生和校友踊跃报名参加!为便于我们充分准备,请于10月15日16:00前扫描以下活动二维码报名。期待与您深入交流并展开广泛合作!
如有疑问,请联系广州国际校区人力资源与发展事务办公室秦鹏 ,办公电话:020-81181612
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10月16日参访前沿软物质学院公共仪器平台报名 | 10月17日参访微纳电子中心报名 |
广州国际校区人力资源与发展事务办公室
前沿软物质学院
微电子学院
集成电路学院
2025年10月11日
前沿软物质学院公共仪器平台简介:
前沿软物质学院公共仪器平台是面向软物质科学前沿的多学科交叉共享平台,聚焦高分子材料、杂化功能材料、生物医用材料、能源材料、纳米材料、以及绿色和可持续化学化工等体系的研发与表征需求。平台以“技术支撑创新、共享驱动发展”为核心理念,集成先进表征技术与智能化管理系统,为校内外科研团队提供从基础研究到产业应用的全链条分析服务。平台目前运维设备包括200KV和120KV场发射透射电镜(TEM)、高分辨扫描电镜(SEM)、小角X射线仪(SAXS)、二维广角X射线衍射仪(WAXS)、X射线光电子能谱仪(XPS)、高分辨原子力显微镜(AFM)、超分辨共聚焦显微镜(STED) 、倒置双光子荧光共聚焦显微镜、400M固体核磁、500M液体核磁、飞行时间质谱(Maldi-tof)、超高分辨四极杆-飞行时间串联质谱(ESI-Q-TOF)、热力学分析仪器(DSC/TGA/DMA/TMA/流变)、圆二色光谱(CD)、圆偏振发光光谱(CPL)等。
微纳电子中心简介:
微电子学院和集成电路学院聚焦射频芯片、智能传感、人工智能芯片、光电集成、功率电子等多学科研发领域。学院已建成全面开放、国内领先的微纳电子平台,包括微纳电子工艺实验室、微纳电子测试实验室、微纳电子封装实验室、微纳电子仿真实验室、教学与创新实验中心。微纳电子平台拥有大型设备151台套,可支撑器件及集成电路从设计仿真、加工、封装到测试的全流程业务。平台目前运维设备包括:MA6/BA6半自动双面对准光刻机、无掩模激光直写光刻机MLA-150、电子束曝光、双光子聚合纳米3D打印系统、磁控溅射镀膜机、多靶材磁控溅射AlN薄膜设备、PEALD 原子层沉积系统、离子注入机、有机金属化学气相沉积、等离子体反应离子刻蚀机、高温电感耦合等离子体刻蚀机、深硅反应离子刻蚀机、离子束刻蚀系统、多晶硅刻蚀机、聚焦离子束双束电子显微镜、宽带毫米波通信芯片(器件)探针测试平台、宽光谱光电流测试探针台系统、光芯片全自动耦合测试系统、毫米波谐波负载牵引系统等。
Dear Researchers and Alumni,
With strong support from both the provincial and municipal governments, the Guangzhou International Campus has been actively promoting the establishment of seven major interdisciplinary public platforms. To provide faculty and researchers with a comprehensive understanding of the platforms, the University will continue to host the “GZIC Platform Sharing Promotion” seminar series. These sessions serve as a window to facilitate open access to shared resources and support collaborative research and development.
This seminar will be conducted in the form of an on-site visit and exchange, offering an in-depth introduction to the types and functions of available equipment, modes of access, cooperation mechanisms, and procedures for booking and use of the platform under the School of Emergent Soft Matter,School of Microelectronics and School of Integrated Circuits.
Session 1: Visit to the Public Instrumentation Platform of the School of Emergent Soft Matter( Maximum 40 Participants)
Date and Time: 14:15-15:45, October 16, 2025
Venue: First floor to Second floor of Building C2b, The School of Emergent Soft Matter,Guangzhou International Campus
Speaker: Defei Kang, Deputy Dean of the School of Emergent Soft Matter
Session 2: Visit to the Micro & Nano Electronics Platform( Maximum 40 Participants)
Date and Time: 10:00-11:30, October 17, 2025
Venue: First floor of Building B1d, The School of Microelectronics
and School of Integrated Circuits, Guangzhou International Campus
Speaker: Changjian Zhou, Deputy Dean of the School of Integrated Circuits
We sincerely invite all faculty,researchers and alumni to attend this session. We look forward to engaging discussions and broad collaboration with you! To help us prepare adequately, please scan the QR code below and register by 16:00 on October 15.
For any questions, you could contact QIN PENG from the Office of Human Resources and Academic Planning,via the office phone number 020-81181612
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Session 1: Visit to the Public Instrumentation Platform of theSchool of Emergent Soft Matter | Session 2: Visit to the Micro & Nano Electronics Platform |
Office of Human Resources and Academic Planning, Guangzhou International Campus
School of Emergent Soft Matter
School of Microelectronics
School of Integrated Circuits
October 11, 2025
Introduction to the Public Instrumentation Platform of the School of Emergent Soft Matter
The Public Instrumentation Platform of the School of Emergent Soft Matter is a multidisciplinary sharing platform dedicated to advancing research in soft matter science. It addresses the R&D and characterization needs across diverse fields, including polymer materials, hybrid functional materials, biomedical materials, energy materials, nanomaterials, as well as green and sustainable chemical engineering systems. Guided by the core philosophy of technological empowerment for innovation, resource sharing for advancement, the platform integrates advanced characterization technologies with intelligent management systems, providing comprehensive analytical services spanning fundamental research to industrial applications for both internal and external scientific teams.
The platform currently maintains state-of-the-art equipment, including: Field Emission Transmission Electron Microscopes (200 kV and 120 kV TEM), High-Resolution Scanning Electron Microscope (SEM), Small-Angle X-ray Scattering System (SAXS), Two-Dimensional Wide-Angle X-ray Diffraction System (WAXS), X-ray Photoelectron Spectrometer (XPS), Atomic Force Microscope (AFM), Stimulated Emission Depletion Super-Resolution Confocal Microscope (STED), Inverted Two-Photon Fluorescence Confocal Microsco(CLSM), 400 MHz Solid-State Nuclear Magnetic Resonance (400MHz NMR), 500 MHz Liquid-State Nuclear Magnetic Resonance (500MHz NMR), Matrix-Assisted Laser Desorption/Ionization Time-of-Flight Mass Spectrometer (MALDI-TOF) , Ultra-High Resolution Quadrupole Time-of-Flight Tandem Mass Spectrometer (ESI-Q-TOF) ,Thermal Analysis Instruments (DSC, TGA, DMA, TMA, Rheometer), Circular Dichroism Spectrometer (CD), Circularly Polarized Luminescence Spectrometer (CPL).
Introduction to the Micro & Nano Electronics Platform
School of Microelectronics and School of Integrated Circuits are focusing on research and development in multiple disciplines such as RF chips, intelligent sensing, AI chips, optoelectronic integration, and power electronics. The college has built a fully open and domestically leading Micro & Nano Electronics Platform, which includes Micro & Nano Electronics Process Laboratory, Micro & Nano Electronics Testing Laboratory, Micro & Nano Electronics Packaging Laboratory, Micro & Nano Electronics Simulation Laboratory, and Teaching & Innovation Experiment Center. The platform is equipped with 151 large-scale instruments, which can support the full-process operations of devices and integrated circuits from design simulation, fabrication, packaging to testing. The platform currently operates and maintains equipment including: MA6/BA6 Semi-automatic Double-sided Alignment Lithography Machine, Maskless Laser Direct Writing Lithography Machine MLA-150, Electron Beam Lithography System, Two-photon Polymerization Nano 3D Printing System, Magnetron Sputtering Coater, Multi-target Magnetron Sputtering AlN Thin Film Deposition System, PEALD Atomic Layer Deposition System, Ion Implanter, Metal-Organic Chemical Vapor Deposition (MOCVD) System, Plasma Reactive Ion Etcher (RIE), High-temperature Inductively Coupled Plasma (ICP) Etcher, Deep Silicon Reactive Ion Etcher (DRIE), Ion Beam Etching System, Polysilicon Etcher, Focused Ion Beam Dual-beam Scanning Electron Microscope (FIB), Broadband Millimeter-wave Communication Chip (Device) Probe Station, Broad-spectrum Photocurrent Measurement Probe Station System, Optical Chip Automatic Coupling and Testing System, Millimeter-wave Harmonic Load-pull System, etc.
