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2017年太阳能燃料生产光电材料与集成组件研讨会
作者: 发布时间:2017-04-20 阅读次数:

  会议名称(中文):2017年太阳能燃料生产光电材料与集成组件研讨会 

    会议名称(英文):Symposium ES7—(Photo)electrocatalytic Materials and Integrated Assemblies for Solar Fuels Production—Discovery, Characterization and Performance 

    所属学科:光电子学,材料科学基础学科,能源技术基础与储能节能 

    开始日期:2017-04-17 

    结束日期:2017-04-21 

    所在国家:美国 

    具体地点:Phoenix, Arizona 

    主办单位:美国材料研究学会 

    摘要截稿日期:2016-10-13 

    联系电话:510-495-2342 

    联系人:Francesca Maria Toma 

    E-MAIL:fmtoma@lbl.gov 

    会议网站:http://www.mrs.org/spring-2017-call-for-papers-es7/ 

    会议背景介绍: 

    Carbon neutral energy sources that are scalable, deployable, and cost effective will be required at an unprecedented scale to halt irreversible climate change. Expanded utilization of solar energy requires efficient and inexpensive storage of intermittent power for use on demand. Solar fuels from water splitting are one of the most promising methods to store bulk renewable energy because they can provide an energy-dense fuel, with a minimal carbon footprint, and without competing with food stocks. 

    Photoelectrochemical systems that perform direct reduction of carbon dioxide to solar fuels represent an attractive route towards the production of next generation fuels on demand. However, the availability of (photo)electrocatlytic systems that can efficiently and selectively reduce carbon dioxide is currently limited. In addition, materials system integration poses significant challenges as catalyst//semiconductor and/or protection layer/semiconductor interface formation adds complexity in addressing functionality and performance issues. Therefore, deep understanding of materials property as isolated as well as integrated systems is absolutely vital to promote fast advancements in this field. 

    This symposium fosters a multidisciplinary and interdisciplinary approach to production of solar fuels. Latest results and advancements in photoelectrochemical systems, with specific focus on CO2 reduction, are presented. Specific focus on catalyst discovery with high activity and selectivity for CO2 reduction, as well as light absorbers, protection layers, and membranes for product sepatation will be address. In addition in situ and in operando measurements, and fundamental understanding to enable new materials discovery will be presented. 

    征文范围及要求: 

    Topics will include: 

    Electrocatalysts and photoelectrocatalysts for selective and efficient CO2 reduction 

    Photoelectrochemical integrated systems for solar fuel production (H2 and CO2 reduction) 

    Interfacial band-edge energetics and mitigation of loss mechanism 

    In situ and operando characterization of (photo)electrocatalytic systems 

    Novel materials discovery and fundamental understanding of materials property for solar fuel production 

    Novel materials architectures for confined catalysis, improved light harvesting and light management, and excited states photocatalysis 

    Biohybrid approaches for solar fuel formation 

    Cell design and operating conditions for photoelectrocatalytic CO2 reduction 

 
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