Institution: State Key Laboratory for Silicon and Advanced Semiconductor Materials, Center for Electron Microscopy, Research Group of Dr. Chuanhong Jin, Zhejiang University
Location: Zhejiang University, Hangzhou, Zhejiang, China
About the Group:
Led by Prof. Dr.Chuanhong Jin, our group focuses on fundamental science and engineering challenges in carbon-based integrated circuits. We specialize in wafer-scale characterization of arrayed carbon nanotubes (A-CNTs), interface and device physics of A-CNTs based field effect transistors, and processing techniques for carbon-based materials. The group has made significant progress on these research subjects, published over 80 high-impact papers (including Science and Nature Electronics), and collaborates closely with device teams in the field. We are supported by state-of-the-art facilities, including the State Key Laboratory for Silicon and Advanced Semiconductor Materials and the Zhejiang University Electron Microscopy Center (with more than six Cs-corrected S/TEMs).
Funding: These positions will be financially supported by Qiushi Postdoc Research Fellowship Programme, which is a newly announced, so-far the top-most level program for postdocs in Zhejiang University.
Research Projects:
We are seeking 2-3 highly motivated postdoctoral researchers to work on the following projects:
1. Sorting, Purification, and Assembly of Single-Walled Carbon Nanotubes (SWCNTs):
○ Investigate the mechanisms for the sorting of metal/semiconducting CNTs, dimension-limited self-assembly (DLSA) for wafer-scale fabrication of high-quality, high-purity semiconducting, and high-density A-SWCNTs.
○ Utilize advanced characterization techniques (excluding SEM/TEM) such as Atomic Force Microscopy (AFM), Raman Spectroscopy, UV-vis-NIR Absorption Spectroscopy, and near-field optical techniques to:
■ Quantify polymer residuals on A-CNTs.
■ Perform high-resolution, non-destructive imaging of A-CNT arrangements.
■ Identify metallic tube residues within A-CNTs.
2. Inner Doping of Networked and Arrayed Carbon Nanotube Films:
○ Conduct research on the inner doping of wafer-scale networked CNT (N-CNTs) and A-CNTs films using suitable dopants.
○ Develop and apply wafer-scale processing techniques including washing, cleaning, anchoring/fixing of CNT films on substrates.
○ Characterize doping levels, ratios, and status using techniques like Conductive AFM (c-AFM), Near-field Infrared Spectroscopy (nano-IR), and Raman Spectroscopy.
Qualifications:
Adhere to the Qiushi spirit and values of Zhejiang University, and be committed to a career in scientific research; possess a good international perspective, cross-cultural communication skills, and teamwork abilities.
Age must be under 35 years old.
Be about to obtain a Ph.D. degree, or have obtained the Ph.D. degree within the last three years.
Have achieved original research results with considerable academic or application potential.
Must work full-time at Zhejiang University after joining.
Zhejiang University provides excellent working conditions and a comfortable living environment for the selected "Qiushi Postdocs," supporting young talents to integrate into research teams and conduct their work.
Salary and Compensation: An annual salary of RMB 300,000 is provided by the university for a funding period of 2-3 years. The collaborating supervisor will provide additional funding based on the university's regulations and the applicant's overall performance. The university pays for basic social insurances, including occupational pension and medical insurance, and contributes to the occupational annuity and housing provident fund.
Housing Resources: Applicants can apply to rent university faculty apartments, which offer complete living amenities.
Support Services: Assistance with household registration (Hukou) settlement; assistance with solving children's kindergarten/nursery needs, and eligibility for children's medical subsidies.
Academic Environment: Shared access to Zhejiang University's first-class academic reputation, advanced scientific research platforms, excellent academic ecosystem, and open research environment.
Professional Title Assessment: Upon joining, the position is designated as Assistant Research Fellow (助理研究员). After working for a full two years, the postdoc can apply for assessment and qualification for the Associate Research Fellow (副研究员) title.
Growth Support: The university provides a comprehensive training system; supports applications for various scientific research projects and talent programs; offers funding for high-level international academic conferences and exchange opportunities at top international universities; and eligible candidates may apply for a Teacher Qualification Certificate.
Career Prospects: Eligible candidates may apply for the university's “Hundred Talents Program Research Fellow” or dedicated Research Fellow positions. Postdocs who complete their terms at ZJU are widely recognized by domestic and international universities and research institutions, with over 70% entering high-level institutions for teaching and research work.
Applicants submit their application. The respective School/Department (Unit) conducts an initial evaluation based on the applicant's education and research experience, academic ability, quality of the research proposal, needs for discipline/team development, and recommendation letters. The university then organizes an expert panel for final review.
Application Form for Zhejiang University “Qiushi Postdoctoral Program” (see attachment).
Two expert letters of recommendation (one of which must be from the doctoral supervisor). The letters must be sent directly by the referee to the email address of the applying School/Department (Unit).
Research achievements representing the applicant's highest academic level (maximum 6 items). For papers, provide the full text (plus acceptance proof for unpublished papers); for monographs, provide the cover, table of contents, and abstract; for patents or awards, provide certificates. All materials must be combined into a single PDF document.
Please send the above materials to the contact email address of Mrs. Yang Shi shiyang45@zju.edu.cn. The email subject should indicate the application for the “Qiushi Postdoctoral Program.” cced chhjin@zju.edu.cn
Application Deadline for this batch: December 31, 2025
单位: 浙江大学金传洪教授课题组
地点: 浙江大学玉泉校区
课题组简介:
课题组负责人金传洪教授,团队聚焦碳基集成电路领域的基础科学问题与工程化挑战 ,围绕阵列碳纳米管晶圆级表征、晶体管界面科学与器件物理、碳基材料加工等方向开展研究 。团队已取得系列突破性成果,在Science、Nature Electronics等期刊发表高水平论文80余篇 ,并与领域内顶尖团队保持深度协作 。团队依托浙江大学硅及先进半导体材料全国重点实验室、浙江大学电镜中心等一流平台 。
经费来源: 浙江大学“求是博士后”。
研究方向:
课题组现公开招聘1-2名海外博士后研究人员,研究方向包括但不限于:
1. 单壁碳纳米管(SWCNTs)的排序、纯化与组装:
○ 研究碳纳米管金半分离机制、维度限制自组装(DLSA)过程机理,旨在实现高质量、高半导体纯度、高密度的阵列碳纳米管晶圆级制造。
○ 利用先进表征技术(不含扫描电镜/透射电镜 SEM/TEM),如原子力显微镜(AFM)、拉曼光谱、紫外-可见-近红外吸收光谱(UV-vis-NIR)以及近场光学技术等,用于:
■ 量化阵列碳纳米管上的聚合物残留。
■ 高分辨率、无损成像阵列碳纳米管的排列结构。
■ 识别阵列碳纳米管中的金属性管残留。
2. 网络状及阵列碳纳米管薄膜的内掺杂:
○ 开展晶圆级网络状碳管(N-CNT)和阵列碳管(A-CNT)薄膜的内掺杂研究,探索合适的内掺杂物。
○ 开发并应用晶圆级清洗、锚定(固定基底上的碳管薄膜)等处理技术。
○ 利用导电原子力显微镜(c-AFM)、近场红外光谱(nano-IR)、拉曼光谱等工具探测产物的掺杂水平、比例和状态。
应聘要求:
1. 认同浙江大学求是精神和价值观,有志于从事科研事业;具有良好的国际视野,跨文化沟通和团队协作能力;
2. 年龄在35周岁以下;
3. 即将获得博士学位,或获得博士学位时间不超过三年;
4. 已取得较好学术价值或应用潜力的原创性研究成果;
5. 进校后须全职在浙江大学工作。
工作和生活待遇
浙江大学为“求是博士后”入选者提供良好的工作条件和舒心的生活环境,支持青年人才融入团队开展研究。
1. 薪酬待遇:校发年薪30万元,资助期限2-3年。合作导师根据学校规定和申请人的综合情况给予额外资助。学校缴纳事业养老、医疗等社会保险,缴存职业年金和住房公积金。
2. 住房资源:可申请租住学校教师公寓,提供完善的生活配套。
3. 服务保障:协助办理落户;协助解决子女入托,享受子女医疗补助等。
4. 学术环境:共享浙江大学一流的学术声誉、先进的科研平台、卓越的学术生态和开放的科研环境。
培养和职业发展
1. 职称评审:入校后确定为助理研究员,进站工作满2年可申请评定副研究员资格。
2. 成长支持:学校提供全方位培养体系;支持申报各类科研项目和人才计划;提供高水平国际学术会议资助和国际顶尖高校交流机会;符合条件者可申请教师资格证。
3. 职业发展:符合条件者可申请学校“百人计划研究员”或专职研究员岗位。学校出站博士后广受国内外高校和科研机构认可,70%以上入职国内外高水平院校和科研院所从事教学科研工作。
评选流程
申请人提交申请,院系(单位)根据申请人的教育与研究经历、学术能力、研究计划水平、学科和团队建设发展需要、推荐人评价等方面进行评选推荐,学校组织专家进行评审。
申报材料
1. 《浙江大学“求是博士后”项目申请书》(见附件);
2. 两封专家推荐信(其中一封须为博士导师)。推荐信须由推荐人直接发送至申报院系(单位)邮箱;
3. 代表申请人最高学术水平的科研成果(不超过6项),其中:论文提供全文(未发表的额外提供论文接收证明),专著提供封面、目录和摘要,专利或奖励提供证书,须整合为单一PDF文档。
上述材料发送至各院系(单位)联系人邮箱(扫码查看),邮件请注明申报“求是博士后”项目。
本批次申请截止日期:2025年12月31日
联系我们
1. 史老师,0571-87952290, shiyang45@zju.edu.cn
1. The group currently has one or two positions available for postdoctoral research fellows. The main focus is the controlled synthesis of inner-doped semiconductor single-walled carbon nanotube (SWCNTs) in different forms, CVD-grown low-density arrays, solution sorted network films, and high-density aligned CNT arrays. The project is in close collaboration with nanoelectronics group, and the key target is to use these materials for novel energy-efficient high-performance computing, or next-generation carbon nanoelectronics, including bio/gas/infrared sensors, radio-frequency devices, broken-gap tunneling FETs, and steep-sloped FETs etc. The work will focus on the high-precision controlled synthesis, characterization, and property modulation of semiconductor carbon nanotube materials.
Applicants are expected to have a solid background and excellent training in the synthesis and modification of carbon nanotube materials, with a proven track record of notable research achievements. Skills in characterization such as Raman, AFM, conductive AFM, SEM, TEM or any other related ones (at least one or more) is necessary.
For those who obtained a Ph.D degrees abroad from a university/college with a QS ranking in the top 200 (or any other equivalent ranking system), and who are under 35 years of age, an additional annual allowance of up to 300K RMB may be available, in addition to the regular allowance.
Interested candidates should contact Prof. Dr. Chuanhong Jin (chhjin@zju.edu.cn, chhjin@gmail.com) and please include a CV, a list of representative publications, and 2-3 reference (if applicable) in the initial email.
课题组目前有 1-2 个博士后研究人员岗位空缺。
主要研究方向为内掺杂半导体单壁碳纳米管的可控合成,涵盖多种形态,包括 CVD 生长的低密度阵列、溶液分选形成的网络薄膜,以及高密度定向排列的碳纳米管阵列等。本项目与纳米电子学团队紧密合作,核心目标是利用这些材料用于新型、高性能或下一代碳基纳米电子器件,包括生物/气体/红外传感器、射频器件、不连续带隙隧穿 FET(broken-gap tunneling FET)以及陡峭亚阈值摆幅 FET(steep sloped FET)等。研究工作将重点聚焦半导体碳纳米管材料的高精度可控合成、表征以及性能调控。
应聘者需具备以下条件:扎实的碳纳米管合成与修饰相关专业背景,并有优秀的科研训练;在相关领域具有突出的研究成果;熟练掌握碳管表征技术,如拉曼光谱、AFM、导电 AFM、SEM、TEM 或其他相关技术(至少掌握其中一种或多种)。
有意者请联系金传洪教授(chhjin@zju.edu.cn, chhjin@gmail.com),并在首次联系邮件中附上个人简历、代表性论文目录以及 2-3 位推荐人的信息(如适用)。