广大师生、校友：

在省、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，服务支撑广大师生科研与合作。

本次宣讲内容将涵盖电子显微中心、未来技术学院、前沿软物质学院、生物医学科学与工程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、时 间：2025年7月4日9:30-12:00

二、地 点：广州国际校区C1-b114报告厅

三、主讲人：

电子显微中心主任/教授 韩宇

未来技术学院副院长/教授级高级工程师 舒琳

前沿软物质学院中级实验师 王营营

生物医学科学与工程学院实验师 黄锦澎

诚邀广大师生和校友踊跃报名参加！校内师生可免预约参加活动，为便于我们充分准备，校友请于7月3日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

广州国际校区人力资源与发展事务办公室

电子显微中心

未来技术学院

前沿软物质学院

生物医学科学与工程学院

2025年7月1日

电子显微中心简介：

电子显微中心于2023年3月成立，致力于推动电子显微技术革新，助力基础研究突破，服务国家新兴产业发展。中心现已发展为具备先进软硬件开发能力的开放式科学研究平台，主要研究方向包括：低剂量高分辨成像、四维扫描透射显微学、高分辨全息和电磁成像、原位电子显微学、三维电子衍射、原子分辨电子断层术等。中心目前运维设备包括双球差矫正透射电镜Spectra 300 、软物质成像透射电镜Talos F200C、高分辨成像透射电镜Talos F200X、双束电镜Helios 5 Hydra UX和Helios 5 CX、高分辨扫描电镜Verios 5 UC、环境扫描电镜Quattro S以及X射线断层扫描仪Xradia610 Versa和各类制样设备等。

未来技术学院平台简介：

未来技术学院成立于2021年，是教育部首批十二家未来技术学院之一，也是粤港澳大湾区唯一一家。学院聚焦主动健康与低碳能源两个方向，布局数字人与未来生活、数字基建与未来社会两条研究主线，建成“主动健康”“数基生命”“人工智能大模型”“低碳能源”等科研团队，开展高水平学术研究、推动科技成果转化。学院目前运维的设备包括：阵列式三维扫描系统、惯性运动捕捉系统、力反馈交互装置、事件相关光学脑成像系统、脑机接口手功能康复机器人系统、4D高精度建模平台、高性能电能质量模拟器、电能路由器系统、电网模拟器单元等。

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。

生物医学+学科公共平台简介：

生物医学+学科公共平台是集成教学与科研为一体的生物医学综合共享服务科研平台，下设生物医学创新创研实验中心和生物医学分析测试中心。其中，生物医学创新创研实验中心获批广东省实验教学示范中心，生物医学分析测试中心获批华南理工大学C类公共实验室平台。平台以生物医学工程重点学科为依托，以服务于创新性科学研究为本，为生物医学交叉学科群提供7天24小时共享预约服务。

平台开放共享材料分析测试、光学成像及图像处理、流式细胞功能分析及分选、组织工程、生物医药研发等45台高精尖仪器设备。平台目前运维设备包括400兆超导核磁共振波谱仪、流式细胞仪（4色、8色、12色、18色）、成像流式细胞仪、原子力显微镜、激光共聚焦显微镜、高内涵成像分析系统、混合流变仪、小动物辐射仪器、纳米流式检测仪、蛋白纯化色谱仪等。

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 aim to facilitate open access to shared resources and support collaborative research and development.

This seminar will introduce the platforms under the Center for Electron Microscopy，School of Future Technology，School of Emergent Soft Matter and School of Biomedical Sciences and Engineering, covering the types and functions of available equipments, modes of access, cooperation mechanisms, and procedures for booking and use.

Event Details:

Date and Time: July 4, 2025, 9:30–12:00

Venue: Lecture Hall 114, Building C1b, Guangzhou International Campus

Speakers:

Yu Han, Director / Professor of the Center for Electron Microscopy

Lin Shu, Deputy Dean / Professor-Level Senior Engineer of School of Future Technology

Yingying Wang, Laboratory Technician of the School of Emergent Soft Matter

Jinpeng Zhao, Laboratory Technician of the School of Biomedical Sciences and Engineering

We sincerely invite all faculty，researchers and alumni to attend this session. We look forward to engaging discussions and broad collaboration with you! On-campus faculty and students may attend without prior registration. To help us prepare adequately, alumni are kindly requested to scan the QR code below and register by July 3.

For any questions, you could contact QIN PENG from the Office of Human Resources and Academic Planning，via the office phone number 020-81181612

Issued by:

Office of Human Resources and Academic Planning, Guangzhou International Campus

Center for Electron Microscopy

School of Future Technology

School of Emergent Soft Matter

School of Biomedical Sciences and Engineering

July 1, 2025

Introduction to the Center for Electron Microscopy

The Center for Electron Microscopy was established in March 2023, dedicated to methodological development of high-resolution electron microscopy and their application in the fields of materials science, nanotechnology as well as soft matter and industry. The center is an open scientific research platform with advanced hardware and software development capabilities. Its primary research directions include low-dose high-resolution imaging, four-dimensional scanning transmission microscopy, high-resolution holography and electromagnetic imaging, in-situ electron microscopy, three-dimensional electron diffraction, and atomic-resolution electron tomography.

The center currently operates a wide range of high-performance microscopes that provide unique insights into the world of atoms, including double spherical aberration-corrected transmission electron microscope (Spectra 300), transmission electron microscope (Talos F200C and Talos F200X), Dual Beam (Helios 5 Hydra UX and Helios 5 CX), scanning electron microscope (Verios 5 UC and Quattro S), X-ray microscopy (Xradia 610 Versa), and sample preparation instruments.

Introduction to the Platform of the School of Future Technology

The School of Future Technology was established in 2021. It is one of the first twelve Future Technology Schools approved by the Ministry of Education and is the only one of its kind in the Guangdong-Hong Kong-Macao Greater Bay Area. The school focuses on two main areas: proactive health and low-carbon energy. It has developed two primary research themes: digital humans and future life, and digital infrastructure and future society. Research teams have been established in areas such as Proactive Health, Digital Twins in Life Science, Large-scale AI Models, and Low-carbon Energy to conduct high-level academic research and facilitate the transformation of scientific and technological achievements. Currently operated equipment includes: an array 3D scanning system, inertial motion capture system, force feedback interaction devices, event-related optical brain imaging system, brain-computer interface hand function rehabilitation robot system, 4D high-precision modeling system, high-performance power quality simulator, power router system, and power grid simulator, etc. 

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 Microscope, 400 MHz Solid-State Nuclear Magnetic Resonance (NMR), 500 MHz Liquid-State Nuclear Magnetic Resonance (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 (CD) Spectrometer, Circularly Polarized Luminescence (CPL) Spectrometer. 

Introduction to the Biomedical+ Public Research Platform

The Biomedical+ Public Research Platform integrates teaching and research into a comprehensive shared-service platform for scientific innovation. It comprises two major centers, which are Biomedical Innovation Research Center and Biomedical Analysis and Testing Center. The Biomedical Innovation and Research Experimental Center was approved as a Guangdong Provincial Experimental Teaching Demonstration Center. The Biomedical Analysis and Testing Center was approved as a Public Laboratory Platform of South China University of Technology. Supported by Biomedical Engineering, the platform provides 24/7 shared reservation services for faculty and students in Biomedical disciplinary community to empower interdisciplinary innovation. It offers shared access to 45 high-precision instruments across five areas including material characterization and testing, optical imaging and image processing, flow cytometry analysis and sorting, tissue engineering, biopharmaceutical research and development. The platform currently operates key instruments including 400 MHz nuclear magnetic resonance (NMR) spectrometer, flow cytometers (4-color, 8-color, 12-color, 18-color configurations), imaging flow cytometer, atomic force microscope (AFM), confocal laser scanning microscope, MD image Xpress confocal, hybrid rheometer, small animal irradiation instrument, nano-Flow analyzer, protein purification chromatography system.