【丹麦荷兰】欧洲DESTINY（电池存储技术）联合博士项目全额奖学金（29个名额）

欧洲destiny(Emerging Battery Storage Technologies Inspiring Young Scientists丹麦科技大学、battery理工大学、Upsella大学、耶拿大学、Tee

主要的研究方向为未来的电池和能源存储技术。此项目共要培养50位科学家，第一年将招聘29位博士生，在11个欧洲国家进行相关的教学和研究工作，学制3年，提供全额资助，包括免学费，最低工资为每月2709欧元（不同国家有所不同，最高为丹麦，每月4210欧元），一次性补助5000欧元，加上各种其他福利补贴。

详细的研究项目请参考

-Topic 1: Ultra-fast operando characterizations for high rate energy storage materials

-Topic 2: DFT- assisted investigation of ion transport in Na-based ceramic solid electrolytes

-Topic 3: Multiscale Modeling for the Optimization of the Manufacturing and Interfaces in Solid State Batteries

-Topic 4: New ionic lithium and sodium solid state conductors

-Topic 5: Electrochemical and structural study of blended positive electrode materials for high power Li-ion batteries

-Topic 6: New Oxysulfide Materials as Solid Electrolytes for Solid State Batteries

-Topic 7: Development of new sulfate-containing cathode materials based on abundant elements for Na-ion batteries

-Topic 8: Multiscale characterization of positive electrodes for Li-ion batteries: from ex situ to operando study

-Topic 9: Supercritical fluids, an alternative towards Li-ion battery (LIB) recycling

-Topic 10: Hierarchical latent-space models for battery interface dynamics

-Topic 11: Solid electrolyte/cathode interfaces in ceramic all solid-state batteries

-Topic 12: Inorganic ultra-rich composite electrolytes for high-performance solid-state batteries

-Topic 13: Innovative electrolytes for high power devices

-Topic 14: Fluorinated solvent based electrolytes and metal anode based batteries

-Topic 15: Protective coatings for metal (Li, Mg) batteries

-Topic 16: Synthesis of silicon-based alloys for negative electrodes of Li-ion batterie

-Topic 17: Tailored oxides and carbides as active materials for high power energy storage devices

-Topic 18: Characterization and understanding of the SEI in Li-ion batteries based on silicon and ionic liquid

-Topic 19: Triggering the formation of a passivating interface to enhance the performance of aqueous batteries

-Topic 20: Ca and Mg batteries: improvement of performances by interface engineering

-Topic 21: 2-Dimmensional MXene materials for high power energy storage devices

-Topic 22: Development of the Fluidized Bed Chemical Vapor Deposition process to produce high performances battery materials

-Topic 23: Novel (poly)anionic structures for highly Li-ion conductive solid polymer electrolytes: A combined theoretical and experimental study

-Topic 24: Rational design of improved Li transport mechanisms in composite ceramicpolymer electrolytes by means of electrochemical and solid state NMR characterizations

-Topic 25: Polymer electrolytes for calcium – based batteries

-Topic 26: Sustainable and green batteries: fluorinefree lithium-ion cells

-Topic 27: Modyfied high-nickel NCA cathode materials for Li-ion batteries

-Topic 28: Structural studies of heterocyclic alkali metal saltsolvates as materials for battery applications

-Topic 29: Highly concentrated electrolytes dedicated to lithium-sulfur batteries

申请者可以申请超过一个项目，不限国家，不限年龄，如果申请超过一个项目，请按照优先排序。

申请要求：1. 相关专业硕士学位 2. 英语流利

申请截止日期：2021年1月15日

详细信息请参考：

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