“双碳”背景下新能源材料技术发展策略——以松山湖材料实验室为例
Development Strategies of New Energy Materials for Carbon Peak and Neutrality-Case Study of Songshan Lake Materials Laboratory
Development Strategies of New Energy Materials for Carbon Peak and Neutrality-Case Study of Songshan Lake Materials Laboratory
作者
邱细妹1(松山湖材料实验室 东莞 523808)
王燕1,2(松山湖材料实验室 东莞 523808;中国科学院物理研究所 北京 100190)
吕海明1(松山湖材料实验室 东莞 523808)
徐坚4(广东松湖之材产业育成中心有限公司 东莞 523808)
武怿达1(松山湖材料实验室 东莞 523808)
马晓威1(松山湖材料实验室 东莞 523808)
支春义1,3(松山湖材料实验室 东莞 523808;香港城市大学 香港 999077)
杜小龙1,2(松山湖材料实验室 东莞 523808;中国科学院物理研究所 北京 100190)
黄学杰1,2*(松山湖材料实验室 东莞 523808;中国科学院物理研究所 北京 100190)
王燕1,2(松山湖材料实验室 东莞 523808;中国科学院物理研究所 北京 100190)
吕海明1(松山湖材料实验室 东莞 523808)
徐坚4(广东松湖之材产业育成中心有限公司 东莞 523808)
武怿达1(松山湖材料实验室 东莞 523808)
马晓威1(松山湖材料实验室 东莞 523808)
支春义1,3(松山湖材料实验室 东莞 523808;香港城市大学 香港 999077)
杜小龙1,2(松山湖材料实验室 东莞 523808;中国科学院物理研究所 北京 100190)
黄学杰1,2*(松山湖材料实验室 东莞 523808;中国科学院物理研究所 北京 100190)
中文关键词
新能源材料;晶硅太阳能电池;锂离子动力电池;锌基储能电池
英文关键词
new energy materials;crystalline silicon solar cells;lithium-ion power batteries;zinc-based energy storage batteries
中文摘要
降低对于化石燃料的依赖,从源头节能减排是早日实现“双碳”目标的根本路径之一,变革性能源材料技术将为“双碳”目标的实现提供强有力的战略性支撑。发展太阳能—储能电池供电体系和交通能源电动化,让煤、石油和天然气从燃料回归到材料,松山湖材料实验室正在为此而努力。该实验室新能源材料与器件研发中心按照从应用基础研究到产业转化的全链条创新模式进行研发,文章重点选取了实验室高效晶硅太阳能电池、锂离子电池材料、柔性及锌基电池3个团队的工作予以介绍。为了打通成果转化的“最后一公里”,各团队3年多来建立了研究和中试线,把相关核心关键材料和器件转化成产品,通过创新工场模式与产业界密切合作。建议统筹规划,稳定支持实验室研发,以及打造研发中心—创新工场—产业园区集群式发展模式。
英文摘要
Transformative energy technologies will provide strong strategic support to the realization of peaking carbon dioxide emissions before 2030, and achieving net zero carbon emissions before 2060. Reducing the dependence on fossil fuels by saving energy and reducing emissions from the source is essential to achieve the double-carbon target as soon as possible. Songshan Lake Materials Laboratory is working on key materials to develop solar-battery power systems and electrification of transportation energy to return coal, oil, and natural gas from fuels to materials. This study focuses on introducing the research team of its New Energy Materials and Devices R&D Center with the whole chain innovation mode from research to technology transfer/transformation. Example works of new materials for High Efficiency Crystalline Silicon Solar Cells Group, Li-ion Battery Materials Group, Flexible & Zinc Battery Group are introduced. To get through "the last mile" of technology transformation, research projects and pilot lines have been set up to make new energy materials and devices into products in the past three years, and work together with industrial partners in an innovative workshop cluster model. It is suggested to make overall planning, provide stable support to the research and development, and create a cluster development model with R&D center-innovative workshopsindustrial parks.
DOI10.16418/j.issn.1000-3045.20211208009
作者简介
邱细妹 松山湖材料实验室工程师。主要从事锂离子电池材料等相关工作。参与国家重点研发计划变革性专项、广东省重点领域研发计划、深圳市科技计划项目等6项;授权发明专利 5项;参与国家标准起草 1项。
E-mail:Shuqxm@sslab.org.cn
QIU Ximei Engineer at Songshan Lake Materials Laboratory, mainly engaged in lithium ion battery materials and other related work. She participated in 6 National Key Research and Development Programs, Guangdong Provincial Key Field Research and Development Program, Shenzhen Science and Technology Program, etc. She owns 5 authorized invention patents and has participated in drafting 1 national standard.
E-mail:Shuqxm@sslab.org.cn
黄学杰 中国科学院物理研究所研究员、博士生导师。松山湖材料实验室副主任,广州工业技术研究院锂离子动力电池工艺技术装备基础服务平台主任,中国电池工业协会副理事长。从 1996起主持中国科学院物理研究所锂离子电池及其关键材料的研究、开发和产业化工作。主要从事于锂二次电池及其相关材料、工艺和装备技术的研究,推动锂离子动力和储能电池的产业发展。
E-mail:huangxuejie@sslab.org.cn
HUANG Xuejie Professor at the Institute of Physics, Chinese Academy of Sciences (IOP/CAS), Deputy Director of Songshan Lake Materials Laboratory, Director of Li-ion Power Battery Technology & Equipment Service Platform, Guangzhou Institute of Industrial Technology, and Vice President of China Battery Industrial Association. Since 1996, Professor Huang has been chairing the group of Solid State Ionics at IOP/CAS and working on the research, development, and industrialization of secondary lithium batteries and key related materials. He has published more than 200 peer-reviewed journal papers, and owned more than 30 patents. He has developed technologies for materials, batteries and machines for Li-ion battery industry in China. He has also founded several companies to develop and produce large size Li-ion batteries for electrical vehicle and energy storage applications.
E-mail:huangxuejie@sslab.org.cn
E-mail:Shuqxm@sslab.org.cn
QIU Ximei Engineer at Songshan Lake Materials Laboratory, mainly engaged in lithium ion battery materials and other related work. She participated in 6 National Key Research and Development Programs, Guangdong Provincial Key Field Research and Development Program, Shenzhen Science and Technology Program, etc. She owns 5 authorized invention patents and has participated in drafting 1 national standard.
E-mail:Shuqxm@sslab.org.cn
黄学杰 中国科学院物理研究所研究员、博士生导师。松山湖材料实验室副主任,广州工业技术研究院锂离子动力电池工艺技术装备基础服务平台主任,中国电池工业协会副理事长。从 1996起主持中国科学院物理研究所锂离子电池及其关键材料的研究、开发和产业化工作。主要从事于锂二次电池及其相关材料、工艺和装备技术的研究,推动锂离子动力和储能电池的产业发展。
E-mail:huangxuejie@sslab.org.cn
HUANG Xuejie Professor at the Institute of Physics, Chinese Academy of Sciences (IOP/CAS), Deputy Director of Songshan Lake Materials Laboratory, Director of Li-ion Power Battery Technology & Equipment Service Platform, Guangzhou Institute of Industrial Technology, and Vice President of China Battery Industrial Association. Since 1996, Professor Huang has been chairing the group of Solid State Ionics at IOP/CAS and working on the research, development, and industrialization of secondary lithium batteries and key related materials. He has published more than 200 peer-reviewed journal papers, and owned more than 30 patents. He has developed technologies for materials, batteries and machines for Li-ion battery industry in China. He has also founded several companies to develop and produce large size Li-ion batteries for electrical vehicle and energy storage applications.
E-mail:huangxuejie@sslab.org.cn
