PROGRAM OVERVIEW

This program will equip students with solid theoretical and systematic professional knowledge in molecular medicine, biomedical engineering, and related fields. Graduates of this program will have the opportunity to undertake independent scientific research, allowing them to understand the current status and future trends of medicine/biomedical engineering, and write and communicate in English.

MAIN RESEARCH FIELDS:

1. Biomedical information

Apply biomedical engineering techniques and methods to collect, analyze and evaluate health-related biomedical information, establish disease risk prediction and early warning models, explore the underlying reasons of disease pathogenesis, and conduct intervention studies.

2. Cell and tissue engineering

Conduct research on various types of stem cell and bioscaffold materials, and learn how to apply tissue engineering and regeneration technologies to acute and chronic injuries and diseases; conduct research using cell engineering and nanomaterial labeling technologies based on modern gene technology; perform in vivo and in vitro cell tracing and monitoring; and develop new sources of stem cells for research and industrialization amplification technologies, including the development of 3D culture and amplification and bioreactor systems.

3. Systematic Biomedical:

Harness biophysical, biochemical, bioinformatic and systems biology approaches to study human aging and major diseases such as cancer, cardiovascular and cerebrovascular diseases, metabolic diseases, and infectious diseases; use cells, tissues, organs to conduct translational medicine research into human disease mechanisms at multiple levels, and develop personalized and precise diagnostic and treatment approaches.

CORE COURSES

Frontiers in Biomedical Engineering, Biomedical Image Analysis, Lecture on Pattern Recognition Front, Advanced Cell Biology and Disease, Biochemistry and Molecular Biology.

CAREER PROSPECTS

There is a wide spectrum of career paths that can follow from obtaining a PhD in Biomedical Engineering, including but not limited to:

Biomedical Scientist/ResearcherBiomedical scientists and researchers, in both clinical and/or research environments, conduct research that aims to improve human health by carrying out scientific tests to find solutions to medical/clinical problems. They research information that aids in the development of biomedical technology and test products so that they are safe and effective for consumers.

Biomaterials DeveloperBiomedical engineers may develop biomaterials based on either natural living tissue or artificial materials, for use in the human body. Tissue engineering, biomedical implant development, drug delivery and nano implants are all areas that a biomaterials developer may work in. Biomaterials can be used to either repair or replace lost function to the body, or to detect and image disease.

Biomedical Artificial Intelligent (AI) Researcher or Developer AI technology is rewiring many parts of society. How medical/clinical procedures and philosophies will be affected by AI is a thrilling frontier for exploration. A career in this field will involve you not only in science and technology, but also in areas of ethics, finance, and regulation.

Rehabilitation EngineerBiomedical engineers who work in a field dedicated to rehabilitation often work on diverse projects. These can range from mechanical equipment that helps patients regain the ability to walk, to virtual reality systems that aid in limb mobility. Rehabilitation engineers may also create custom solutions based on unique needs or research improvements that can form the basis of a novel rehabilitation technology.

Medical Device/Technology Developer

Medical technology can refer to the hardware and software that help manufacture medical devices, as well as to the technology that is an integral part of those devices. Medical technology professionals with biomedical engineering backgrounds may specialize in bioinstrumentation, or the use of bioelectronic/biomechanical/biochemical instruments to record or transmit physiological information in vivo and/or in vitro.

Consultation

Email:   [email protected]                

英文名

Xueji Zhang

聯系郵箱

[email protected]

中文簡介

張學記,深圳大學副校長。美國醫學與生物工程院院士，俄羅斯工程院外籍院士，英國皇家化學學會會士等。張學記長期從事生物傳感及儀器與診療研究, 在分析化學領域取得了系統性創新成果。以第一完成人獲全國創新爭先獎一等獎、1項教育部高等學校自然科學二等獎、1項中國分析測試協會（CAIA）一等獎。在Sci. Robot.、J. Am. Chem. Soc.、Angew. Chem.、Nat. Commun.、Adv. Mater.、ACS Nano等發表SCI論文500余篇。論文他人引用超過1萬次，授權發明專利100余項。受邀為Chem. Rev., Chem. Soc. Rev.撰寫綜述, 并出版專著8部, 應邀在國際會議做大會或邀請報告50余次。研究方向為電化學、生物分析，納米傳感，生物醫藥等。

英文簡介

Xueji Zhang is Vice President of Shenzhen University. Academician of American Academy of Medicine and Biological Engineering, Foreign Academician of Russian Academy of Engineering, Fellow of Royal Society of Chemistry, etc. Zhang Xueji has long been engaged in biosensing, instrumentation, and diagnosis and treatment research, and has achieved systematic innovations in the field of analytical chemistry. He won the first prize of National Innovation Competition Award, Natural Science of Higher Education Ministry of Education, and prize of China Analytical Testing Association (CAIA). He has published more than 500 SCI papers in Sci. Robot., J. Am. Chem. Soc., Angew. Chem., Nat. Commun. etc. More than 100 invention patents have been authorized. Invited to write a review for Chem. Rev., Chem. Soc. Rev., and published 8 monographs, and was invited to give conferences or invited lectures at international conferences for more than 50 times. His research has centered on bioanalysis, micro/nanosensors, and biomedical instrumentation.

英文名

Yongdong Jin

聯系郵箱

y[email protected]

中文簡介

金永東，深圳大學醫學部生物醫學工程學院特聘教授，博導，國家高層次人才。博士畢業于中科院長春應化所（國科大）分析化學專業；曾在以色列Weizmann科學研究所、UCLA及UW-Seattle生物工程系開展博士后研究。2010.09-2023.08，任中科院長春應化所電分析化學國家重點實驗室課題組長，中科院BR研究員、中科大博導。國家WR學者、科技部國家重點領域創新團隊負責人；2023.08入職深圳大學醫學部。長期從事等離激元納米結構傳感及光電應用開發、納米孔/單細胞分析化學與電刺激（癌癥）健康診療研究；已在Nat. Nanotech.、JACS、Adv. Mater.、Nat. Commun.、Natl. Sci. Rev.、Adv. Sci.、Anal. Chem.等期刊發表SCI文章140多篇。先后當選國際先進材料協會會士（2020）、國際先進科學組織Vebleo會士（2021）、及科學研究榮譽學會Sigma Xi的Full Member （2022）和全球頂尖前10萬科學家榜單和(斯坦福大學)全球前2%頂尖科學家榜單-(終身科學影響力排行榜)。

英文簡介

Prof. Yongdong Jin obtained his Ph.D. in Analytical Chemistry from the University of Chinese Academy of Sciences (Changchun Institute of Applied Chemistry of the CAS, CIAC) in China in 2004. He did his postdoctoral work at the Weizmann Institute of Science, Israel in 2004-2006, at UCLA in 2006-2007, and at Department of Bioengineering of the UW-Seattle in 2007-2010. After being 13 years of Professor of Chemistry at the State Key Lab. of Electroanalytical Chemistry, CIAC, he is presently distinguished professor at School of Biomedical Engineering, Shenzhen University. His research interests include plasmonic nanostructures for sensing, bio/nano interfaces and nanomedicine, ECL and electrostimulation for cancer treatment. He has authored more than 140 papers in international journals, including Nat. Nanotechnol., Nat. Commun., JACS, Adv. Mater., Natl. Sci. Rev., etc. He was recently elected to be IAAM fellow (2020), Vebleo fellow (2021) and Full Member of Sigma Xi (2022).

英文名

Jiayingzi Wu

聯系郵箱

[email protected]

中文簡介

吳佳英子，博士，特聘研究員，助理教授，博士生導師，深圳市海外高層次人才。2015年獲得美國阿克隆大學高分子科學專業碩士學位，2020年獲得美國普渡大學分析化學專業博士學位，期間于2018至2020年在美國波士頓大學做訪問研究。主要研究方向為基于半導體聚合物的分子影像、癌癥早期診斷、腫瘤精準治療、伴隨式診斷、病原體檢測、神經元調節等，近年來共發表SCI論文20篇(中科院一區的18篇，IF>15的14篇)，其中以第一作者或通訊作者發表一區論文9篇。主持國家自然科學基金面上項目1項，國家自然科學基金青年基金1項、廣東省自然科學基金面上項目1項，參與國自然聯合基金重點項目1項、深圳市科創委重點項目1項。擔任ACS Nano、Advanced Functional Materials等頂級期刊審稿人。

英文簡介

Jiayingzi Wu, PhD, Distinguished Researcher, Assistant Professor, Doctoral Supervisor, Overseas High-Level Talent in Shenzhen.

Dr. Wu obtained a Master’s degree in Polymer Science from the University of Akron, USA, in 2015, and a PhD in Analytical Chemistry from Purdue University, USA, in 2020. During 2018-2020, she conducted visiting research at Boston University. Her primary research interests include semiconductor polymer-based molecular imaging, early cancer diagnosis, tumor precision therapy, companion diagnosis, pathogen detection, and neuron modulation.

In recent years, Dr. Wu has published 20 SCI papers (18 in CAS Q1 journals, 14 with an impact factor greater than 15), including 9 papers as the first or corresponding author. She has led one National Natural Science Foundation General Project, one National Natural Science Foundation Youth Fund, and one Guangdong Provincial Natural Science Foundation General Project. She is also involved in one key joint project of the National Natural Science Foundation and one key project of the Shenzhen Science and Technology Innovation Commission. Dr. Wu serves as a reviewer for top journals, including ACS Nano and Advanced Functional Materials.