西安电子科技大学生命科学技术学院导师教师师资介绍简介-詹勇华

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基本信息
詹勇华教授博士生导师
生物医药与成像课题组

联系方式
通信地址：西安电子科技大学南校区
电子邮箱：yhzhan@xidian.edu.cn
办公地点：南校区G楼404
生物医药与成像课题组欢迎各位感兴趣的老师和同学前来交流！
本课题组欢迎具有生物、医学、药学、化学、计算机、生物信息等相关背景的本科生，硕士生加入！
本课题组长期招聘生物化学、分析化学、生物医用材料、纳米医学、生物信息学等相关背景博士和博后，期待您的加入！

课题组新闻
2021年5月21日祝贺郭颖莹、杨璐、阮佳斌三位同学顺利通过硕士学位论答辩，祝他们前程似锦！
2021年5月17日 东南大学生命科学与医学工程学院访问交流！
2021年4月19日欢迎西电杰出校友骆清铭院士来学院交流访问，从中受益匪浅，深受启发！
2021年4月6日 欢迎刘素素、王辰颖、刘颖三位同学加入课题组！
2021年4月1日 课题组承担的医院合作项目顺利验收，感谢各位同学的辛勤付出！

个人简介
詹勇华, 教授, 博士生导师, 2010年西安交通大学生物医学工程专业, 工学博士, 2015-2016年美国威斯康星大学麦迪逊分校访问****。目前主要从事功能分子可视化、智能化纳米医药、智能诊断与疗效评估等方向。主持包括国家自然基金重大仪器子课题、国家自然基金重大研究计划(培育项目)、国家自然基金青年项目等项目15项, 参与国家自然基金重大项目、科技部重大研究计划等项目5项，在ACS Nano、Small、 ACSAppliedMaterials &Interfaces等国际期刊发表学术论文59篇,授权中国发明专利8项, 美国发明专利1项, 2016年获陕西省科学技术三等奖1项, 2016和2018年获陕西高等学校科学技术一等奖各1项。

研究方向
1. 生物分子成像
肿瘤分子水平诊疗是未来医学的发展方向和新模式，而在功能分子的识别及靶向干预是实现肿瘤分子水平诊疗的技术关键，分子影像技术把特异性分子探针技术和高灵敏影像设备相结合、运用分子探针对活体生物体内的功能分子和细胞进行实时和非侵入式成像。由于具备在体、原位、直观及可定性定量等优点，从而使肿瘤在分子水平上的早期发现、精确诊断、靶向治疗及疗效监测成为可能，进而成为解决肿瘤精准诊疗的重要手段。本课题组长期致力于通过可视化的手段呈现出与肿瘤演进及微环境密切相关的关键功能分子，进而为认识并揭示肿瘤的发生发展本质提供理论模型，并最终为肿瘤的临床诊断及治疗提供有力佐证。

2. 纳米药物载体
纳米生物医药是将纳米科学与技术的原理应用于生物医药领域，利用纳米医用生物材料研究中，可以将药物、DNA和RNA等基因治疗分子包裹在纳米颗粒之中或吸附在其表面，同时也可以在颗粒表面耦联特异性靶向分子，如特异性配体、单克隆抗体等，通过靶向分子与细胞表面特异性受体结合，在细胞摄取作用下进入细胞内，实现安全有效的靶向性药物和基因治疗。基于纳米技术的药物传递系统可以促进药物溶解，改善药物吸收，提高药物靶向性，从而提高治疗的有效性。本课题长期致力于智能化纳米药物的搭建，实现药物的定点定时定向给药，从而为解决试验药物与临床间的转化搭建桥梁。

3.智能诊断与疗效评估
从CT、MRI、PET等影像数据中高通量地提取大量影像信息，实现病变分割、特征提取与建立模型。凭借对海量影像数据信息进行更深层次的挖掘、预测和分析来辅助医生做出最精确的诊断，主要流程如下:(1)影像数据的获取;(2)病变区域的标记与分割;(3)特征的提取与量化;(4)模型的建立;(5)分类与预测。本课题组致力于利用深度学习技术，并通过影像组学和病理学深度结合，为肌肉萎缩的早期预测，肿瘤微小病变的判定等提供解决方案和技术支持。

科研项目
主持科研项目
肌肉萎缩与功能退化的超声调控与评估科研仪器研制（国家自然科学基金重大科研仪器研制项目子课题），2018/01-2022/12.
胃癌血管新生与乏氧间动态发展过程的在体光学多模态定量监测方法研究（国家自然科学基金重大研究计划）2019/01-2021/12.
新型棉酚衍生物ApoG2靶向给药系统的构建及其在体疗效评价（国家自然科学基金青年项目），2012/01-2014/12.
基于动态放射荧光的胃癌血管新生与乏氧间在体发展过程定量监测（陕西省自然科学基金面上项目），2020/01-2021/12.
GMBP11/GX1介导放射荧光探针对胃癌血管的在体成像研究（陕西省自然科学基金面上项目），2017/01-2018/12.
新型棉酚衍生物ApoG2靶向给药系统的构建及其在体疗效评价（陕西省自然科学基金青年项目），2012/01-2014/12.
企业横向项目-宁夏隆基宁光，2020/01-2021/12.
企业横向项目-宁夏隆基宁光，2018/01-2019/12.
GMBP11/GX1介导三模纳米稀土探针对胃癌血管的在体成像研究（宁波研究院），2017/01-2018/12.

学术论文
学术论文
Yonghua Zhan, Fanrong Ai, Feng Chen, Hector F. Valdovinos, Hakan Orbay, Haiyan Sun, Jimin Liang, Todd E. Barnhart, Jie Tian*,Weibo Cai*.Intrinsically Zirconium-89 Labeled Gd2O2S:Eu Nanoprobes for In Vivo Positron Emission Tomography and Gamma-Ray-Induced Radioluminescence Imaging.Small,2016,12(21),2872-2876.
Yonghua Zhan, Sixiang Shi, Emily B Ehlerding, Stephen A. Graves, Shreya Goel, Jonathan W. Engle, Jimin Liang, Jie Tian*, Weibo Cai*.Radiolabeled, Antibody-Conjugated Manganese Oxide Nanoparticles for Tumor Vasculature Targeted Positron Emission Tomography and Magnetic Resonance Imaging.ACS Applied Materials&Interfaces,2017,9(44),38304-38312.
Yonghua Zhan, Emily B. Ehlerding, Sixiang Shi, Stephen A. Graves, Shreya Goel, Jonathan W. Engle, Jimin Liang*, Weibo Cai*.Intrinsically Zirconium-89-Labeled Manganese Oxide Nanoparticles for In Vivo Dual-Modality Positron Emission Tomography and Magnetic Resonance Imaging.Journal of Biomedical Nanotechnology,2018,14(5),900-909.
Hanrui Li, Ke Li, Yunpeng Dai, Xinyi Xu, Xu Cao, Qi Zeng,Huyulong He,Liaojun Pang,Jimin Liang,Xueli Chen,Yonghua Zhan*.In vivo near infrared fluorescence imaging and dynamic quantification of pancreatic metastatic tumors using folic acid conjugated biodegradable mesoporous silica nanoparticles.Nanomedicine: Nanotechnology, Biology, and Medicine,2018,14 (2018), 1867–1877.
Xiaoxia Cai, Qingxia Zhu,Yun Zeng,Qi Zeng, Xueli Chen,Yonghua Zhan*. Manganese Oxide Nanoparticles As MRI Contrast Agents In Tumor Multimodal Imaging And Therapy,International Journal of Nanomedicine,2019,14,8321–8344.
Xinyi Xu, Hanrui Li, Ke Li, Qi Zeng, Yin Liu, Yun Zeng, Dan Chen, Jimin Liang, Xueli Chen, Yonghua Zhan*.A photo-triggered conjugation approach for attaching RGD ligands to biodegradable mesoporous silica nanoparticles for the tumor fluorescent imaging.Nanomedicine: Nanotechnology, Biology, and Medicine,2019,19 (2019),136–144.
授权发明专利
詹勇华, 具有抗体介导的光磁双模态介孔硅纳米颗粒的制备方法.中国,2016,ZL9.6.
詹勇华, 一种一锅法制备多功能棉酚纳米制剂的方法.中国,2015,2016,ZL9.0.
詹勇华, 一种白藜芦醇纳米制剂的制备方法.中国,2015,ZL7.5.
詹勇华, 一种EX527靶向多功能介孔硅纳米粒子的制备方法. 中国,2015,ZL0.0.
詹勇华, 一种携载棉酚衍生物的多功能介孔硅纳米制剂的制备方法. 中国,ZL5.2.
曹旭,詹勇华.基于双光谱信息的契伦科夫荧光和二次激发荧光分离方法.中国,ZL8.5.
曹旭,詹勇华.一种基于感光紧身衣的医用核素成像系统及成像方法.中国,ZL4.X.
陈雪利,詹勇华.TWO-MODE RAMA OPTICAL PROJECTION TOMOGRAPHY SYSTEM.美国,US10.365,219,B1.

荣誉获奖
科研获奖
2016年陕西省科学技术奖三等奖
2016年陕西高等学校科学技术奖一等奖
2018年陕西高等学校科学技术奖一等奖
教学获奖
2013年西安电子科技大学教学质量二等奖
2014年西安电子科技大学教学质量二等奖
2017年西安电子科技大学教学质量二等奖
2019年西安电子科技大学招生宣传一等奖
2018年西安电子科技大学招生宣传二等奖
个人获奖
2018年西安电子科技大学“优秀教师”称号

团队教师
陈丹副教授曾鋆讲师

研究方向:乏氧可视化及其机制研究方向:纳米医学,智能化药载
邮箱：dchen@xidian.edu.cn 邮箱：yzeng@xidian.edu.cn

研究生
博士研究生
李函蕊(2018级)杜戈涛（2020级）

研究方向:多功能纳米探针及其诊疗研究方向:基于深度学习对超声图像的分割及评估
邮箱：hrli330@stu.xidian.edu.cn邮箱：gtdu@stu.xidian.edu.cn
硕士研究生
蔡晓霞(2017级) 施科如(2017级)

研究方向:磁性探针设计构建及应用研究方向:生物合成探针及应用
邮箱：@qq.con邮箱：@qq.com
刘新玥(2017级)

研究方向：诊疗一体探针及其在体应用
邮箱：@qq.com

郭颖莹(2018级) 杨璐(2018级)

研究方向:智能纳米探针及其肿瘤精准诊疗研究方向:智能化纳米药物载体及应用
邮箱：yyguo520@163.com邮箱：shanglongkang0228@163.com

刘慧芳(2019级) 朱庆霞(2019级)

研究方向:近红外荧光探针及其成像研究研究方向:乏氧可视化及其定量监测
邮箱：huif_liu@163.com邮箱：ZQX1999@foxmail.com
赵琳菲(2019级)

研究方向：脑胶质瘤化疗耐药研究
邮箱：@qq.com

仪同(2020级) 常鹏(2020级)

研究方向:智能探针设计及在体应用研究方向:脑卒中/肿瘤微环境响应探针
邮箱：y_tong@stu.xidian.edu.cn 邮箱：@qq.com
王莹(2020级) 康雪晴(2020级)

研究方向:基于影像组学在CT图像中的应用与评估研究方向:纳米医药及其在体应用
邮箱：@qq.com邮箱：@qq.com

已毕业研究生
硕士生
序号姓名毕业时间
工作地点工作单位
1 蔡晓霞 2020. 07 深圳帝迈生物技术有限公司
2 施科如 2020. 07 江苏，宿迁江苏省宿迁市第一人民医院
3 刘新玥 2020. 07 陕西，西安陕西省第四人民医院

团建相册
2021-04-11祥峪森林公园
徒步登山活动圆满结束

2021-04-29党日主题活动：钤铒小学、杨虎城纪念馆、闫家村

2021-06-03毕业季合照

课程教学
目前本人承担的研究生教学：
1.《生物材料与组织工程》36学时
目前本人承担的本科生教学：
1.《生物化学》48学时
2.《生物化学实验》24学时

招生要求
招生专业
一、招生名额
课题组每年招收博士生1名，硕士生约3-4名
二、招生学科说明
博士招生学科：信息与通信工程（081000）
学科研究方向：
01 生物信息科学与技术
导师研究方向：
15 肿瘤微环境及其关键分子功能可视化
硕士招生学科：
生物医学工程（077700）
学科方向：
06 纳米药物，分子探针模块化设计，构建及其应用
材料与化工（085600）
学科方向：
06 纳米药物，分子探针模块化设计，构建及其应用
三、招收博士、硕士研究生，满足以下条件均可优先考虑：
（1）具有良好的生物、药学、医学、计算机、生物信息、化学等基础。
（2）具有良好的科研训练基础和潜质。
（3）具备刻苦钻研、良好的心态和善于合作的精神。

新增栏目1

Profile
Prof. Yonghua Zhan
Xidian University
Biomedicine and Imaging
（BI）
Office Address: G404, New Campus, Xidian University
Email: yhzhan@xidian.edu.cn

Introduction
Yonghua Zhan,obtainedPhD in Biomedical Engineering from Xi\'an Jiaotong University in 2010, and was a visiting scholar at the University of Wisconsin-Madison from 2015 to 2016. At present,he wasmainly engaged in the biomedical imaging, nano-biomedicine and deep learninginclinical application.He has presided over 13 national Natural Fund major instrument sub-projects, National Natural Fund Major Research program (Cultivation program), National Natural Fund Youth Program and other projects, and participated in 5 national Natural Fund major instrument development projects and major Research program of the Ministry of Science and Technology. He has published 59 academic papers in international journals such as ACS Nano, Small, ACS Applied Materials & Interfaces, etc. He has been awarded 8 Invention patents in China and 1 invention patent in the United States. He won the third prize of science and technology in Shaanxi Province in 2016 and the first prize of science and technology in Shaanxi Universities in 2016 and 2018 respectively.

1. Biomolecular Imaging
Molecular imaging is a new subject which combines traditional medical imaging technology with modern molecular biology.Molecular imaging technology can realize the early diagnosis of tumor from the cellular and molecular levels, and has the advantages of non-invasive, real-time, in vivo and precise.Molecular imaging techniques of molecular biology and cell biology probe technology combined with modern instrument, is a blend of biochemistry, nanotechnology, data processing and image processing technology, using the molecular probes to molecules and cells in real-time in living organisms and noninvasive imaging, it has high sensitivity and specificity.Molecular imaging technology has been widely used in anti-tumor research and drug development. From the initial drug screening to the later clinical trials, molecular imaging technology has played an important role, driving the rapid development of various diseases and tumor treatment methods.

2. Nano-Biomedicine Carrier
Nanomedicine is the application of the principles of nanoscience and technology to the medical field, using nanotechnology to develop more sensitive and efficient medical diagnostic techniques and effective treatments for diseases and tumors.The wide application of nanotechnology in the field of biology and medicine makes modern medicine have a large space for development, and makes people have a further development in life exploration, disease treatment, health care and other aspects.In the study of biological materials, can be medicine, gene therapy, such as DNA and RNA molecules wrapped in nanoparticles or adsorption on the surface, at the same time can also be decoupling al specific molecular targeting in the surface of particles, such as specific ligands, such as monoclonal antibodies, by targeting specific receptor, molecular and cell surface under the effect of cell uptake into the cells, to achieve a safe and effective targeted drug and gene therapy.Drug delivery systems based on nanotechnology can promote drug dissolution, improve drug absorption, improve drug targeting, and thus improve the effectiveness of treatment.

3. Intelligent Diagnosis and Efficacy Evaluation
Radiomics refers to the extraction of a large amount of image information from images (CT, MRI, PET, etc.) with high throughput to achieve tumor segmentation, feature extraction and model establishment.Based on the in-depth mining, prediction and analysis of massive image data to assist doctors to make the most accurate diagnosis, radiomicsanalysis is mainly used in medical images and quantitative processing.The processing flow of imaging omics is as follows : (1) acquisition of image data; (2) Labeling and segmentation of tumor areas; (3) Extraction and quantification of features; (4) Establishment of the model; (5) Classification and prediction.

Research
Funding
Ultrasound Regulation and Evaluation of muscle atrophy and Functional Deterioration research instrument development (National Natural Science Foundation of ChinaKey Research Instrument development Project sub-project).2018/01-2022/12.
In vivo optical multi-mode quantitative monitoring method for the dynamic development process between angiogenesis and hypoxia of gastric cancer (Key Research Plan of The National Natural Science Foundation of China) .2019/01-2021/12.
Construction of a novel gossypiol derivative ApoG2 targeted drug delivery system and its in vivo efficacy Evaluation (National Natural Science Foundation of China Youth Project).2012/01-2014/12.
Quantitative monitoring of the in vivo development process between angiogenesis and hypoxia in gastric cancer based on dynamic radiofluorescence (General project of Natural Science Foundation of Shaanxi Province).2020/01-2021/12.
In vivo imaging of gastric cancer vessels with GMBP11/GX1 mediated radioluminescent probe (General project of The Natural Science Foundation of Shaanxi Province).2017/01-2018/12.
Construction of a novel gossypiol derivative ApoG2 targeted drug delivery system and its in vitro efficacy Evaluation (Natural Science Foundation of Shaanxi Province Youth Project).2012/01-2014/12.
Enterprise Project-Ningxia Longji Ningguang.2020/01 -2021/12.
Enterprise Project-Ningxia Longji Ningguang.2018/01-2019/12.
In vivo imaging of gastric cancer vessels with GMBP11/GX1 mediated three-mode nanometer rare earth probe (Ningbo Research Institute).2017/01-2018/12.

Papers
Journal paper
Yonghua Zhan, Fanrong Ai, Feng Chen, Hector F. Valdovinos, Hakan Orbay, Haiyan Sun, Jimin Liang, Todd E. Barnhart, Jie Tian*,Weibo Cai*.Intrinsically Zirconium-89 Labeled Gd2O2S:Eu Nanoprobes for In Vivo Positron Emission Tomography and Gamma-Ray-Induced Radioluminescence Imaging.Small,2016,12(21),2872-2876.
Yonghua Zhan, Sixiang Shi, Emily B Ehlerding, Stephen A. Graves, Shreya Goel, Jonathan W. Engle, Jimin Liang, Jie Tian*, Weibo Cai*.Radiolabeled, Antibody-Conjugated Manganese Oxide Nanoparticles for Tumor Vasculature Targeted Positron Emission Tomography and Magnetic Resonance Imaging.ACS Applied Materials&Interfaces,2017,9(44),38304-38312.
Yonghua Zhan, Emily B. Ehlerding, Sixiang Shi, Stephen A. Graves, Shreya Goel, Jonathan W. Engle, Jimin Liang*, Weibo Cai*.Intrinsically Zirconium-89-Labeled Manganese Oxide Nanoparticles for In Vivo Dual-Modality Positron Emission Tomography and Magnetic Resonance Imaging.Journal of Biomedical Nanotechnology,2018,14(5),900-909.
Hanrui Li, Ke Li, Yunpeng Dai, Xinyi Xu, Xu Cao, Qi Zeng,Huyulong He,Liaojun Pang,Jimin Liang,Xueli Chen,Yonghua Zhan*.In vivo near infrared fluorescence imaging and dynamic quantification of pancreatic metastatic tumors using folic acid conjugated biodegradable mesoporous silica nanoparticles.Nanomedicine: Nanotechnology, Biology, and Medicine,2018,14 (2018), 1867–1877.
Xiaoxia Cai, Qingxia Zhu,Yun Zeng,Qi Zeng, Xueli Chen,Yonghua Zhan*. Manganese Oxide Nanoparticles As MRI Contrast Agents In Tumor Multimodal Imaging And Therapy,International Journal of Nanomedicine,2019,14,8321–8344.
Xinyi Xu, Hanrui Li, Ke Li, Qi Zeng, Yin Liu, Yun Zeng, Dan Chen, Jimin Liang, Xueli Chen, Yonghua Zhan*.A photo-triggered conjugation approach for attaching RGD ligands to biodegradable mesoporous silica nanoparticles for the tumor fluorescent imaging.Nanomedicine: Nanotechnology, Biology, and Medicine,2019,19 (2019),136–144.
Invention patents
Yonghua Zhan,Preparation of opto-magnetic two-mode mesoporous silicon nanoparticles with antibody mediation.China, 2016, ZL9. 6.
Yonghua Zhan,The invention relates to a one-pot method for preparing multifunctional gossypol nano - preparations. China, 2015, 2016, ZL9. 0.
Yonghua Zhan,The invention relates to a preparation method of resveratrol nano preparation. China, 2015, ZL7. 5.
Yonghua Zhan,A preparation method of EX527 targeted multifunctional mesoporous silicon nanoparticles. China, 2015, ZL0. 0.
Yonghua Zhan,The invention relates to a preparation method of a multifunctional mesoporous silica nanoparticle containing gossypol derivatives. China, ZL5. 2.
Xu Cao,Cherenkov fluorescence and secondary excitation fluorescence separation based on double spectral information. China, ZL8. 5.
Xu Cao,A medical radionuclide imaging system and imaging method based on photosensitive corset. China, ZL4. X.
Xueli Chen, Yonghua Zhan, TWO-MODE RAMA OPTICAL PROJECTION TOMOGRAPHY SYSTEM. US, 10. 365, 219, B1.

Honors
Research Award
2016 Shaanxi Provincial Science and Technology Prize Third Prize
2016 Science and Technology Prize of Shaanxi Institutions of Higher Learning First Prize
2018 Science and Technology Prize of Shaanxi Institutions of Higher Learning First Prize
Teaching Award
Teaching quality of Xidian University in 2013 Second Prize
Teaching quality of Xidian University in 2014 Second Prize
Teaching quality of Xidian University in 2017 Second Prize
2018 Xidian University enrollment promotion Second Prize
2019 Xidian University enrollment promotion First Prize
Individual Award
The title of "Excellent Teacher" of XiDIAN University in 2018

Teacher Team
DanChen (Associate professor)

Research direction:Construction of hypoxia visual model and its mechanism
Email: dchen@xidian.edu.cn
YunZeng (Lecturer)

Research direction:Optical probe and intelligent nano drug carrier
Email: yzeng@xidian.edu.cn

Postgraduate
Doctor-postgraduate
HanruiLi (2018)

Research direction:Preparation and intelligentization of nanometer probe
Email:hrli330@stu.xidian.edu.cn
GetaoDu (2020)
Research direction:Segmentation and evaluation of ultrasonic images based on deep learning
Email:gtdu@stu.xidian.edu.cn

Postgraduate
XiaoxiaCai (2017)

Research direction:Construction of multimodal nanometer probe and its in vivo tumor imaging study
Email: @qq.com
KeruShi(2017)

Research direction:Tumor chemotherapy and treatment and preparation of nano - preparations
Email: @qq.com
XinyueLiu(2017)
Research direction:Preparation of nano copper sulfide and its treatment in tumor
Email: @qq.com

YingyingGuo(2018)

Research direction:Intelligent nano drug carrier and its accurate diagnosis and treatment of tumor
Email: yyguo520@163.com
LuYang(2018)
Research direction:Modular design, construction and application of molecular probe
Email: shanglongkang0228@163.com

HuifangLiu(2019)

Research direction:Imaging study of near-infrared fluorescent probe in esophageal squamous cell carcinoma
Email: huif_liu@163.com
QingxiaZhu(2019)

Research direction:Dynamic observation and in vivo optical quantitative study of angiogenesis and hypoxia
Email: ZQX1999@foxmail.com
LinfeiZhao(2019)

Research direction:Study on chemotherapy resistance of brain glioma
Email: @qq.com

TongYi(2020)

Research direction:Design and preparation of multifunctional nanometer probe
Email: y_tong@stu.xidian.edu.cn
PengChang(2020)

Research direction:Stroke/tumor microenvironmental response probe
Email: @qq.com
YingWang(2020)

Research direction:Prediction and evaluation of ischemic stroke based on radiomics
Email:@qq.com
XueqingKang(2020)

Research direction:Nanomedicine and its tumor therapy
Email:kk**@163.com

Graduate
Number Name Graduate Time Workplace Employment
1 Xiaoxia Cai 2020. 07 Shenzhan DYMIND BIOTECH
2 Keru Shi 2020. 07 Suqian, Jiangsu SUQIAN BRANCH JIANGSU PROVINCE HOSPITAL
3 Xinyue Liu 2020. 07 Xi`an Shaanxi THE FOURTH PEOPLE`S HOSPITAL OF SHAANXI

Group album
2020-04

Teaching
Postgraduate Teaching
36 credit hours
Undergraduate Teaching
48credit hours
24credit hours

Admission
Professional Admissions
一、Total Enrollment
The research group enrolls one doctoral student every year, and about 3-4 master students
二、Admission Discipline Description
PhD Admission Discipline: Information and Communication Engineering (081000)
Research Direction:
01 Biological Information Science and Technology
Research Direction of the supervisor:
15Visualization of tumor microenvironment and its key molecular functions
Master's Admission Discipline:
Biomedical Engineering (077700)
Research Direction:
06 Modular design, construction and application of nanomedicine molecular probe
Materials and Chemicals (085600)
Research Direction:
06 Modular design, construction and application of nanomedicine molecular probe
三、It is preferred to enroll doctoral and postgraduate students if one of the following conditions is met:
Have a good knowledge of biology,computer,medicine and chemistry
Have a good command of English
Have assiduous study, good state of mind and be good at cooperation spirit