中国科学院上海高等研究院学术委员会，智慧城市大数据实验室主任，教授级高工、国科大研究生导师，长期从事智能制造和智慧城市领域的大数据智能、海云协同计算和智能化软件工程研究，作为产品总师主持过中科院信息先导专项、工信部绿色制造专项等国家专项，包括“海云协同社会化服务平台”、“工业大数据平台”、“工业机器人预测性运维云平台”、“基于国产处理器的存储服务器和大数据平台应用示范”。 拥有10多项专利、发表过数十篇论文和3本软件工程领域专著。曾任IBM Rational大中华区CTO、执行官级认证咨询专家，领导过30多款IBM软件产品，为50多家知名企业提供过技术咨询，完成过百场的专业演讲和专业培训。

Mr. Alexander Angebrandt has been active in Automotive industry for more than 34 years, he gained rich knowledge and extensive management experiences in various IT functions dealing with Manufacturing, Supply Chain, R&D, Finance, Sales and HR Systems/Processes and IT infrastructure and Cloud. As the Vice President of IT in BMW Brilliance Automotive Ltd., Mr. Angebrandt deeply extended his profound expertise and leading role in driving the digital transformation, cultivating innovation, cross entity data governance, collaboration in BMW Group, as well as the organization development and local competency build up. Mr. Angebrandt has been sincerely nominated by Shenyang Government to accept the appointment of Digital Consultant to advise on the development and construction of digital economy. He was also invited as the key speaker in diverse industry conferences and forums. In last November, Mr. Angebrandt accepted the interview with Harvard Business Review Chinese Edition and had in-depth exchange about how digitalization affects all businesses. In the ZhongGuanCun Digital Economy - Shenyang Summit Forum held in this January, he was invited to deliver a speech regarding digitalization development. In the Agile Journey Conference held in this February, he delivered the opening speech for agile implementation. Recently, in the leadership interview for BMW employer branding, Mr. Angebrandt was invited to share his strategic view of business objectives, talent management, especially in the digital area. Mr. Angebrandt also focuses on cybersecurity to safeguard the digital transformation at BBA. 安博睿先生活跃于汽车行业超过34年，在制造、供应链、研发、财务、销售、人力资源系统以及IT基础设施和云原生等多维度IT业务领域积累了深厚的技术素养和丰富的管理经验。 作为华晨宝马汽车有限公司IT副总裁，他在推动公司数字化转型、创新培养、数据治理、宝马集团协作、组织发展和本土能力建设等方面发挥了开拓性的领导作用。 安博睿先生受沈阳市诚挚提名，接受数字顾问的任命，为数字经济的建设和发展建言献策。他还受邀在多个行业会议和论坛担任主要演讲嘉宾。去年11月，安博睿先生接受了《哈佛商业评论》中文版的采访，就数字化如何影响全业务链进行了深入交流。在今年1月举办的中关村数字经济沈阳高峰论坛，安博睿先生应邀发表了数字化发展主题讲演。在2月召开的敏捷之旅大会上，安博睿先生围绕敏捷实践发表开幕词。近期，在宝马雇主品牌领导力访谈栏目，安博睿先生分享了他在业务目标、人才管理，特别是在数字领域的战略洞见。安博睿先生还高度关注网络安全，全面保障华晨宝马数字化转型顺利推进。

作为公认的测试和测试方法方面的全球专家，Tony担任ITEA technologies CEO，并负责ITEA的前景、战略和财政工作。他在包括华为和北电网络(Nortel Networks)在内的全球500强企业的驱动测试转型方面有着很好的业绩。作为华为的首席测试专家和美国研发能力中心副总裁，Tony在测试方法和工具上的创新极大地提高了质量和全球实验室的有效性，同时提高了效率并且推进了上市时间。他还支持华为全公司范围内的测试自动化、测试用例和实验室标准化、测试数据关联方法学和高阶DevOps。此外，通过他的主题演讲和积极参加行业会议和标准组织，Tony与客户和行业伙伴一起促进开放合作和共同创新。Tony在2017年荣获“亚洲年度执行官”称号。

陈钟教授主要从事面向领域软件工程、网络与信息安全方向的教学、科研与社会服务，取得多项国家级教学与科研成果和奖励。曾任北京大学软件与微电子学院创始院长（2002-2010）、计算机科学技术系主任（2011-2015），现任教育部高等学校计算机类专业教学指导委员会副主任委员、中国软件行业协会副理事长及软件造价分会会长、中国开源软件推进联盟副理事长、信息技术新工科产学研联盟副理事长、ISACA中国专家委员会委员等。

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蔡宏，北京大学第三医院骨科主任医师，副教授，医学博士。主要从事人工关节置换，先后在韩国、加拿大、美国等多国学习。致力于人工关节假体及相关产品研发，系统性开展3D打印在骨科领域的基础与临床研究。主导参与研发的3D打印植入物成为国内首个获得CFDA注册许可的产品。发表学术论文二十余篇，其中SCI论文十余篇，获北京市科学技术奖一等奖、中国医院协会医院科技创新奖一等奖各一项，主持国家重点研发计划项目一项。 Hong Cai, chief physician and associate professor of Orthopaedics Department of Peking University Third Hospital. Dr. Cai received his M.D in the Specialty of Surgery (Orthopaedics) from Peking University Health Science Center. He studied in Seoul National University of Korea, University of Western Ontario of Canada and Medical Center of Rush University of Chicago as clinical fellow. He mainly engages in artificial joint replacement, devotes himself to the research and development of prosthetic at present , and systematically carries out 3D printing in medical field, especially the studies on the foundation and clinical application in Orthopaedics. He takes part in the research and development of several types of prosthetic replacement and research on clinical registration and has published many papers and books related to Orthopaedics. He is Chairman of Wu Jieping Medical Foundation Union of Young Orthopedists, an Executive Director of Arthroplasty Society in Asia, a commit member of Youth Committee of Chinese Association of Orthopaedics Surgeon, a member of National Technical Committee on Additive Manufacturing of Standardization Administration of China (SAC/TC562) and associate editor of Annals of Joint.

中科院外籍院士、欧洲科学院院士、加拿大工程院院士、韩国科学技术院外籍院士和台湾中研院院士，中科院北京纳米能源与系统研究所 研究方向： 压电电子学，纳米发电机 报告题目： The Physics of Contact-electrification and its Impact to the Energy for the New Era 个人简介： 王中林教授，是佐治亚理工学院终身校董事讲席教授、Hightower终身讲席教授、中科院北京纳米能源与系统研究所所长和首席科学家，中科院外籍院士、欧洲科学院院士、加拿大工程院院士、韩国科学技术院外籍院士和台湾中研院院士。2015年、2017年诺贝尔奖被提名者，2018能源界诺贝尔奖——埃尼奖（Eni Award）的获奖者，国际公认的纳米科学与技术领域的领军型科学家。此外，王院士是国际纳米能源领域著名刊物 Nano Energy （最新IF：15.30）的创刊主编和现任主编。 王院士是纳米能源研究领域的奠基人，首次发明了纳米发电机和自驱动纳米系统技术，被誉为“纳米发电机之父”。他发明了压电纳米发电机和摩擦纳米发电机，提出自驱动系统和蓝色能源的原创大概念，将纳米能源称为“新时代的能源”。王中林院士开创了压电电子学和压电光电子学两大学科，得到国际学界的广泛接受和认可。此外，王中林院士还引领了第三代半导体纳米材料的研究，使氧化锌纳米结构成为与碳纳米管和硅纳米线同等重要的一类材料研究体系。 王中林教授科研成果丰硕，已在国际一流刊物上发表1500多篇论文（其中发表在《科学》、《自然》及其子刊上的文章50余篇），拥有100余项专利、7部专著和20余部主编书籍、会议文集。目前根据Google Scholar公开数据，王中林教授论文引用近20万次，标志影响力的H指数是226，目前在全球纳米科学与纳米技术领域总引用数和H指数排名世界第一。 Contact electrification (triboelectrification) effect, the most fundamental effect for electricity, has been known for over 2600 years since ancient Greek time, but its scientific mechanism remains unclear. The study of triboelectrification is recently revived due to the invention of the triboelectric nanogenerators (TENGs) by using the coupling of triboelectrification and electrostatic induction effects, which is the most effective approach for converting tiny mechanical energy into electricity for powering small sensors. TENG is playing a vitally important role in the distributed energy and self-powered systems, with applications in internet of things, environmental/infrastructural monitoring, medical science, environmental science and security. In this talk, we first present the physical mechanism of triboelectrification for general materials. The charge transfers between a case such as a metal-dielectric was attributed to the electron transfer between the filled states up to the Fermi level as governed by the Fermi-Dirac function. For the case of dielectric-dielectric, the charge transfer was attributed to between the surface states of the two materials. For a general case that the system cannot be described by a state surface model, an electron cloud-potential well model is proposed based on the overlap of electron wave functions across two atoms, which can be generally applied to explain all types of CE in conventional materials. Secondly, the fundamental theory of the TENGs is explored based on the Maxwell equations. In the Maxwell’s displacement current proposed in 1861, the term gives the birth of electromagnetic wave, which is the foundation of wireless communication, radar and later the information technology. Our study indicates that, owing to the presence of surface polarization charges present on the surfaces of the dielectric media in TENG, an additional term should be added in the Maxwell’s displacement current, which is the output electric current of the TENG. Therefore, our TENGs are the applications of Maxwell’s displacement current in energy and sensors. TENGs have three major application fields: micro/nano-power source, self-powered sensors and blue energy. We will present the applications of the TENGs for harvesting all kind mechanical energy that is available but wasted in our daily life, such as human motion, walking, vibration, mechanical triggering, rotating tire, wind, flowing water and more. Then, we will illustrate the networks based on triboelectric TENGs for harvesting ocean water wave energy, for exploring its possibility as a sustainable large-scale blue energy. Lastly, we will show that TENGs as self-powered sensors for actively detecting the static and dynamic processes arising from mechanical agitation using the voltage and current output signals. [1] C.Xu†, Y. Zi†, A.C. Wang†, H. Zou, Y. Dai, Xu He, P. Wang, .C. Wang, P. Feng, D. Li, Z.L. Wang* “On Electron Transfer Mechanism in Contact-Electrification Effect”, Adv. Mater. 30 (2018) 1706790. [2] Z.L. Wang, “On Maxwell’s displacement current for energy and sensors: the origin of nanogenerators”, Materials Today, 20 (2017) 74-82. [3] Z.L. Wang, L. Lin, J. Chen. S.M. Niu, Y.L. Zi “Triboelectric Nanogenerators”, Springer, 2016. http://www.springer.com/us/book/9783319400389

中国工程院院士，北京工业大学副校长 研究方向： 生态环境材料 报告题目： 生态环境材料研究与应用进展 个人简介： 聂祚仁教授，中国工程院院士，难熔金属粉末冶金和铝合金专家。北京工业大学党委常委副校长、校学术委员会主任；中国材料研究学会副理事长、教育部科技委材料学部副主任和材料专业教指委副主任、Int. J. LCA中国区编委等。致力于材料全生命周期环境友好发展，5次获国家科技奖，SCI/EI论文两百余篇，专利及软件百余件被应用。 近年来，生态环境材料领域针对国家节能减排的重大需求，以全生命周期资源科学利用和环境保护为目标，在材料生命周期工程技术，材料源头毒害替代技术，制造过程节能减排新技术, 高效使用服役技术与再生循环技术等领域取得了重要突破。生态环境材料的研发与应用正在逐渐缓和材料生产与资源环境间的巨大矛盾，最终有望彻底改变材料行业传统的经济利益导向与资源依赖型发展模式，实现材料领域的可持续发展，并辐射建筑、交通等相关下游行业，全面满足我国生态文明建设的对材料的需求。 2019年时值生态环境材料概念提出30周年，报告回顾生态环境材料概念的提出背景与发展历史；介绍生态环境材料的重要基础理论——材料生命周期评价（LCA）方法和技术体系，尤其是系统考虑资源、能源、排放与质量、生产控制等多因素综合影响的定量化新方法；综述生态环境材料领域前沿技术的研究与应用成果。

研究方向： 空间科学与应用 报告题目： 中国空间科技发展展望 报告摘要： 查看详情 个人简介： 查看详情