北京大學深圳研究生院新材料學院助理教授招聘

更新時間:2020-08-10 09:49:57

北京大學深圳研究生院新材料學院

學院致力于新材料“基因組”、清潔能源體系的研發,重點領域包括清潔能源的采集(熱電材料、太陽能電池材料)、存儲(儲能和動力電池與關鍵材料)與應用(新能源汽車、新型有機光電顯示關鍵材料、照明材料)及通過高通量的材料計算、合成與檢測等新材料“基因組”技術開展關鍵材料等研究,為新能源、新材料產業的發展提供技術支撐。

學院以產業發展目標進行交叉學科的協同創新,牽頭組建了國家級“電動汽車動力電池與材料國際聯合研究中心”,承擔國家首批重點研發計劃“材料基因組工程關鍵技術與支撐平臺重點專項”(基于材料基因組技術的全固態鋰電池及關鍵材料研發)、國家新能源汽車(動力電池)重大創新工程等項目,并獲得廣東省引進創新創業團隊專項支持。學院還先后獲評深圳市重點實驗室、深圳市工程實驗室、廣東省重點實驗室,獲得多項國家和地方基礎及應用專項支持。歡迎海內外優秀人才積極加盟我院

招聘職位

材料計算與物質結構大數據方向預聘助理教授1名

材料基因組固態電池開發方向預聘助理教授1名

有機光電功能器件開發方向預聘助理教授1名

崗位職責

材料基因組材料結構與性能方向預聘助理教授

圍繞材料計算與物質結構大數據方向開展材料基因組材料結構與性能的研究,探索材料結構演化過程及相關的知識圖譜,以電池層狀正極材料為研究對象,研究材料在合成、存儲及循環過程中相結構及結構基元(基因)的演化過程,建立與材料電化學性能之間的關系相圖,發展物質結構大數據系統。

材料基因組固態電池開發方向預聘助理教授

運用材料基因組學新范式開展固態鋰離子電池、固態電解質、高比容量負極材料相關的科學研究,加速保障我院牽頭的材料基因組固態鋰電池國家重點專項的順利實施完成。

有機光電功能器件開發方向預聘助理教授

從事OLEDs、鈣鈦礦發光二極管、鈣鈦礦太陽能電池和有機太陽能電池器件相關的科學研究工作及潔凈間的管理工作。開展新型有機光電顯示和半導體材料有機光電功能器件研發,優化補充新材料學院在有機光電材料與器件設計開發方向的布局,構建有機功能材料合成-有機功能器件物理-工藝表征為一體的學科平臺。

應聘條件

材料基因組材料結構與性能方向預聘助理教授

1、國內外知名高校獲得材料、化學、凝聚態物理等相關專業的博士學位,有在海外知名高校或科研院所從事相關領域的研究經歷;

2、熟練掌握各種原位同步輻射技術,具有在國內外各大同步輻射光源從事層狀正極材料的相結構及結構基因演化相關研究的經驗者優先;

3、近3年在相關研究領域,以第一作者或通訊作者發表相關高水平SCI學術論文(IF>10);

4、具有單獨主持國家級和省部級科研項目的經歷者優先;

5、有較好的英文寫作水平、團隊合作溝通能力。

材料基因組固態電池開發方向預聘助理教授

1、應聘人應具有化學、材料等相關專業的博士學位,擁有海外高水平大學博士學位或3年以上海外科研工作經歷者優先。年齡不超過35周歲。

2、具有良好的電化學、材料學基礎,能獨立從事有機固態電解質、無機固態電解質和高比容量負極材料相關的科研工作和軟包電池開發等研究工作;

3、工作期間主持過省部級以上項目;

4、第一作者或通訊作者(包括共同第一或通信作者)發表相關高水平SCI學術論文(IF>10);

5、申請人應具有較好的學術訓練和獨立撰寫項目書的經驗,并具有優秀的英文寫作水平、團隊合作溝通能力。

有機光電功能器件開發方向預聘助理教授

1、國內高水平大學獲得材料物理化學、材料化學等專業的博士學位且有博士后研究經歷,具有在高校或科研單位從事相關研究2年以上,年齡不超過35周歲。

2、能獨立從事OLEDs、鈣鈦礦發光二極管、鈣鈦礦太陽能電池和有機太陽能電池器件相關的科研工作和相關設備管理維護工作;

3、工作期間主持過國家級項目;

4、第一作者或通訊作者(包括共同第一或通信作者)發表相關高水平SCI學術論文(IF>10);

5、申請人應具有較好的學術訓練和獨立撰寫項目書的經驗,有較好的英文寫作水平、團隊合作溝通能力

待遇福利

對于合適的應聘者,我們將提供具有競爭力的北京大學深圳研究生院預聘助理教授待遇,享受北京大學深圳研究生院相關社保及公積金,具體面議。

申請流程

請將以下資料發送至:wangjm@pkusz.edu.cn

    1、科研工作總結;

    2、詳細簡歷及至少三份推薦信;

    3、工作科研計劃;

4、學歷、學位證明復印件及代表性論文掃描件;

5、承擔項目證明材料;

6、其它能說明研究能力的材料;

進一步了解北京大學新材料學院,請登錄學院官網:http://sam.pkusz.edu.cn/

Faculty positions at School of Advanced Materials

School of Advanced Materials

The School of Advanced Materials (SAM) is committed to the research of the advanced materials genome technology and clean energy systems. The key areas include clean energy collection (thermoelectric and solar cells), energy storage (power batteries), application (new energy vehicles, new organic photoelectric displays and lighting) and the calculation, synthesis and detection of high flux materials etc. to develop the key research of advanced materials genome technology, and further to provide the technical support for the development of new energy materials industry.

SAM considers industrialization as a development goal to carry on the collaborative innovation in the interdisciplinary research. On Oct. 2015, the National Center of Electric Vehicle Power Battery and Materials for International Research was founded at SAM by the Ministry of Science and Technology of China. In 2016, we won the first batch of the key project grant for the national Materials Genome Initiative (MGI) program of China: The MGI technique and its application in the research of solid-state batteries. We are also responsible for the national key innovation engineering project of new energy vehicle (power battery), and being especially supported by the innovative entrepreneurial team in Guangdong province. We have been awarded with the titles, the key laboratory of Shenzhen and the engineering laboratory of Shenzhen, and have obtained special national and local support for the foundation and application of our research.

Position

Tenure-track Assistant Professor in Material Calculation and Big-Data of Material Structures: 1

Tenure-track Assistant Professor in MGI Solid-State Batteries: 1

Tenure-track Assistant Professor in Organic Optoelectronic Devices: 1

Job Description

Tenure-track Assistant Professor in Material Simulation and Big Data of Material Structures

This job requires investigating material structure and performance by material calculations and the big data method of material structure. Exploring the process of structure evolution and the related knowledge graph. Investigating the change process of phase structure and the structural units during the synthesis, storage and electrochemical cycling of layered cathodes for secondary batteries, and figuring out the relationship between the structural evolution and the electrochemical performance, and developing the big data system of material structure.

Tenure-track Assistant Professor in MGI Solid-State Batteries

Based on the novel MGI paradigm, this job involves developing solid-state batteries, solid electrolytes and high-capacity anode materials to push accelerate the MGI program.

Tenure-track Assistant Professor in Organic Optoelectronic Devices

This job involves developing devices of OLEDs, perovskite LEDs, perovskite solar cells and organic solar cells. Applications should also have experience on equipment management and maintenance.

Requirements

Tenure-track Assistant Professor in Material Simulation and Big Data of Material Structures

1. Applicants should have a Ph. D degree (physics, chemistry, and materials) from domestic or foreign top universities, under the age of 35. Research experiences in overseas universities and institutions are preferred.

2. Applicants should have outstanding experience and research ability in material calculations (development and application of first principles method) and high-throughput calculations.

3. Experiences of hosting national or provincial and ministerial-level projects.

4. Applicants must have high-quality SCI publications (impact factor > 10) in related areas as (co)first or (co)correspondence authors during last 3 years.

5. Excellent English writing and communication skills.

Tenure-track Assistant Professor in MGI Solid-State Batteries

1. Applicants should have a Ph. D degree (chemistry and materials) under the age of 35. Applicants with a Ph.D degree or equivalent research experiences (over 3 years) in overseas universities and institutions are preferred.

2. Applicants should have outstanding experience and research ability in material science and chemistry. Applicants should be able to carry out studies on inorganic/organic solid-state electrolytes, high-capacity anode materials and soft-pack batteries.

3. Experiences of hosting national or provincial and ministerial-level projects.

4. Applicants must have high-quality SCI publications (impact factor > 10) in related areas as (co)first or (co)correspondence authors during last 3 years.

5. Excellent English writing and communication skills.

Tenure-track Assistant Professor in Organic Optoelectronic Devices

1. Applicants should have a Ph. D degree (material physical chemistry or material chemistry) from domestic or foreign top universities, under the age of 35. Applicants should have research experiences in related area for over 2 years.

2. Applicants should be able to independently carry out researches on devices of OLEDs, perovskite LEDs, perovskite solar cells and organic solar cells. Applications should also have experience on equipment management and maintenance.

3. Experiences of hosting national projects

4. Applicants must have high-quality SCI publications (impact factor > 10) in related areas as (co)first or (co)correspondence authors.

5. Excellent English writing and communication skills.

Salary and Welfare

A competitive salary package can be negotiated for the right candidate.

Interested applicants should submit the following materials to wangjm@pkusz.edu.cn

1. Summary of research;

2. Curriculum Vitae (with a complete list of publications);

3. At least three reference letters and contact information of the referees;

4. Statement of research plan;

5. Materials to prove the teaching ability (or the teaching ability will be assessed through academic report after CV screening).

 To learn more about the School of Advanced Materials, visit the official website: http://sam.pkusz.edu.cn/

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