Water Interface: Insights from recent study
14:00-16:00
Talk & Lecture
1
1761965
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2019-11-21
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Venue: Lecture Hall, Anzhong Building, Zijingang CampusAbout the speaker:Enge Wang is the Professor of Physics, Peking University. He is also the Chairman of Advisor Board of Institute of Physics and the Honorary Director of Kavli Institute of Theoretical Sciences, Chinese Academy of Sciences. He was the Director of the Institute of Physics, the President of Peking University, and the Vice President of Chinese Academy of Sciences from 1999 to 2017. He was selected as the Vice President of the International Union of Pure and Applied Physics (IUPAP) in 2017, the International Councilor of American Physical Society (APS) in 2018, and the Chairman of Global Cooperation Alliance of Science Centers (GCASC) in 2019. He researches condensed matter physics; the approach is a combination of theoretical and experimental study of light-element materials, such as anomalous behaviors of water under confinement.Abstract: Despite water being a ubiquitous substance, it is surprising that some basic questions are still debated. Here using a combination of experimental (cryogenic STM/AFM) and theoretical (first-principle electronic structures and molecular dynamics) methods, we systematically studied the unusual structure and dynamics of water interface at atomic scale, and the sub-molecular imagining, clustering, proton transfer and hydration number of water on salt. An imaging mechanism based on a subtle control over the tip-molecule coupling is proposed, which allows a sub-molecular level resolution for water moleculae. Full quantum effect sheds light on our understanding of water nature on surface.
Enge Wang, Professor of Physics, President Emeritus of Peking University, Academician of Chinese Academy of Sciences
Enge Wang
2019-11-22 16:20:06
Zijingang Campus
The Journey to the Electrification of Transportation
10:00-11:00
Talk & Lecture
2
1757236
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2019-11-20
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Speaker: Prof. Pat Wheeler, University of NottinghamVenue: Room 201, Electric Engineering Building, Yuquan Campus Abstract: As an electrical engineer the push for the electrification of transportation presents exciting technical challenges, particularly in terms of motor drives, power electronics and electrical energy storage. This presentation will explore the state of the art and identify the roadmaps for future technology requirements in this application area. The presentation will use examples for the ongoing industrially linked research work at the University of Nottingham, including electric superbikes, electric propulsion for aeroplanes and future electric cars.About the speaker:Prof Pat Wheeler received his BEng and PhD degree from the University of Bristol, UK in 1990 and 1994 respectively. In 1993 he moved to the University of Nottingham and worked as a research assistant in the Department of Electrical and Electronic Engineering. Since January 2008 he has been a Full Professor. His research interests include Power Conversion for industrial, aerospace and energy applications. He has published over 600 academic publications in leading international conferences and journals.
Prof. Pat Wheeler, University of Nottingham
Prof. Pat Wheeler
2019-11-22 14:14:39
Yuquan Campus
Materials and Packaging Research for Power Electronics Integration
14:00-16:00
Talk & Lecture
3
1757229
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2019-11-20
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Venue: Room 401, Applied Electronics Building , Yuquan CampusAbout the speaker: Yi (Yasmine) Yan received the B.S. degree in polymer materials science and engineering from Wuhan Institute of Technology, Hubei, China, in 2009, the M.S. degree in material chemical engineering from Tianjin University, Tianjin, China, in 2012 and the Ph.D. degree in materials science and engineering from Virginia Tech (CPES), Blacksburg, VA, in 2017. Yi Yan currently works in Texas Instruments Incorporated (Santa Clara, CA) as a Packaging Engineer and a Project Manager.Abstract: Part 1: Advanced Joining in Power Electronics by Silver Sintering: Silver sintering is emerging as an advanced joining technology for manufacturing power electronics devices/modules. Compared with traditional soldered joints, sintered silver joints have the advantages of lead-free, higher thermal and electrical conductivities, higher reliability, and ability to support higher junction temperature. It has been extensively reported that the sintered joint performance and reliability depend strongly on the properties of the powder material, the surface finish on bonding parts, and temperature-time-pressure profile. The purpose of this research is to help the audience to gain better understanding of the joining process by reviewing fundamental principles of silver sintering and adhesion at the interfaces, discussing effect of sintering atmosphere, and offering practical considerations for developing a die-attach process based on silver sintering.Part 2: Additive Manufacturing (3D Printing) of Magnetic Components: Integration of inductors and transformers in power electronics circuits is challenging due to the large core volume or unconventional geometries required to distribute flux or control coupling. The technical challenges in this research mainly involve formulating stable soft magnetic materials and metallic materials for the 3D printer, and utilizing appropriate 3D printing technology to fabricate magnetic components. An extrusion-based 3D printer is the selected equipment for fabricating the magnetic components due to the high flexibility of its feed materials. A commercial nanosilver paste is a suitable winding material for printing. Several types of low-temperature curable magnetic pastes are formulated as the feed materials for printing the magnetic cores. For demonstrating the feasibility of 3D printing magnetic components, magnetic components with complex structures are designed and the effects of printer parameters and material viscosity on print quality are investigated. The purpose of this research is to help the audience open the mind to utilize the 3D printing technology in the areas of power electrics integration.
Dr. Yi Yan, Packaging Engineer and Project Manager, Texas Instruments Incorporated
Yi (Yasmine) Yan
2019-11-21 13:48:31
Yuquan Campus
Wicked Problems and Network Diplomacy
19:00
Talk & Lecture
4
1747090
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2019-11-14
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Venue: National Che Kiang University Hall, 3rd floor, Campus Library, Zijingang CampusSpeaker: G. Thomas Goodnight, Professor of Communication, Annenberg School, University of Southern CaliforniaBiograghy:G. Thomas Goodnight served as Director of Doctoral Studies at the Annenberg School, USC, from 2003 to 2013. During this time the program grew from 20 students in residence to over a 100. It became and remains a top ranked international communications program. Goodnight also directed an outstanding doctoral program at Northwestern University, on faculty from 1975 through 2002. He has advised over fifty doctoral candidates. He sits as a senior fellow for the Public Diplomacy Center at USC. For the spring of 2017, he serves as a visiting scholar at the Annenberg Public Policy Center, the University of Pennsylvania. As a Fulbright Senior Scholar in Communication & Journalism, he met with communication faculty building a doctoral program at Católica University, Santiago Chile. Additionally, he has been a visiting scholar at Fudan and Meiji Universities. In 2014 he received the NCA Distinguished Scholar Award, and in 2013, the Alta Argumentation Senior Scholar award. In 2006, the International Society for the Study of Argument accorded him recognition for lifetime contributions. He has been named one of the top five scholars in the area of argumentation over the past fifty years.Dr. Goodnight’s research includes social, historical, linguistic, and network approaches to argumentation, rhetoric and communication. Specific topics for research, teaching, and project design include: Rhetoric. Public Address & Political Economy. Studies in the Public Sphere. Rhetoric of Science. Biopolitics & Biomes. Argumentation and Network Pragmatics. Communication Philosophy, Aesthetics & Inquiry. Critical Cosmopolitanism, IOs, NGOs and IDPs. Social Theory, Controversy, and Bubbles. New Institutional Theory & Discourse. Civic Engagement: Social Entrepreneurship & Activism. Presently, Goodnight volunteers with the Good Steward Global Initiative. Working with an interdisciplinary team, Goodnight brings to East Los Angeles USC’s Penny Harvest initiative. Goodnight research, advises, and teaches with colleagues from Sociology, Philosophy, Political Science, International Relations, Management, Anthropology and Public Health. This year and next his field work and collaborations take him to Uganda, Switzerland, Venice, Ontario, Chile and China as well as to numerous conferences across the states. In the last year, he has directed dissertations on post-traumatic stress, autism, and neo-soul.
G. Thomas Goodnight, Professor of Communication, USC
G. Thomas Goodnight
2019-11-18 11:31:23
Zijingang Campus
Axon regeneration: novel pathways and new insights
10:00
Talk & Lecture
5
1747056
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2019-11-14
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Venue: Room 205, Administrative Building, School of Medicine, Zijingang CampusSpeaker: Yishi Jin, Principal Investigator, Distinguished Professor, Neurobiology, University of California San Diego
Yishi Jin, member of American Academy of Arts and Sciences
Yishi Jin
2019-11-18 11:05:03
School of Medicine
Flexible Division and Unification Control Strategies for Resilience Enhancement in Networked Microgrids
14:00
Talk & Lecture
6
1742097
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2019-11-08
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Topic: Flexible Division and Unification Control Strategies for Resilience Enhancement in Networked MicrogridsTime: 14:00 p.m., Monday, Nov. 11thSpeaker: Mohammad Shahidehpour, Member of US National Academy of EngineeringVenue: Room 201, Electric Engineering Building Abstract: Networking a series of autonomous microgrids (MGs) is a strategic effort toward the resilience enhancement in extreme conditions. We consider flexible division and unification control strategies to help networked MGs prepare adequately for extreme events and adapt comprehensively to subsequent changing conditions, which enhance the system resilience. Networked MGs can switch between two distinct modes of division and unification by utilizing a sparse communication network without requiring any additional communication infrastructures or controllers. In division mode, each MG is regulated by its local master controller (MC) for active power sharing, which ensures that disruptions are handled effectively by local energy resources without utilizing those in adjacent MGs. Thus, any islanding or resynchronization of individual MGs would not introduce further disruptions to the remaining networked system. In unification mode, the remaining networked MGs, which are still functional, share all available energy resources and adapt to continuously changing operating conditions in order to respond to extreme events. The proposed control algorithm for devising a flexible networked MG system is a cost-effective scheme that can fully exploit the system operation flexibility corresponding to different operation stages for enhancing the resilience. The proposed control strategies are applied to a networked MG system and the performance is tested using time-domain PSCAD/EMTDC simulations.About the speaker:Dr. Mohammad Shahidehpour is a University Distinguished Professor, Bodine Chair Professor of Electrical and Computer Engineering, and Director of the Robert W. Galvin Center for Electricity Innovation at Illinois Institute of Technology (IIT). He has also been the Principal Investigator of $60M research grants and contracts on power system operation and control. His project on Perfect Power Systems has converted the entire IIT Campus to an islandable microgrid. His CSMART (Center for Smart Grid Applications, Research, and Technology) at IIT has promoted the smart grid cybersecurity research for managing the resilience of wireless networked communication and control systems in smart cities. His SPIKE initiative facilitated the design and the implementation of affordable microgrids in impoverished nations. He is the recipient of the 2009 honorary doctorate from the Polytechnic University of Bucharest. Dr. Shahidehpour was the recipient several technical awards including of the IEEE Burke Hayes Award for his research on hydrokinetics, IEEE/PES Outstanding Power Engineering Educator Award, IEEE/PES Ramakumar Family Renewable Energy Excellence Award, IEEE/PES Douglas M. Staszesky Distribution Automation Award, and the Edison Electric Institute’s Power Engineering Educator Award. He has co-authored 6 books and 650 technical papers on electric power system operation and planning, and served as the founding Editor-in-Chief of the IEEE Transactions on Smart Grid. Dr. Shahidehpour is a Fellow of IEEE, Fellow of the American Association for the Advancement of Science (AAAS), Fellow of the National Academy of Inventors (NAI), and a member of the US National Academy of Engineering (NAE).
Mohammad Shahidehpour, Member of US National Academy of Engineering
Mohammad Shahidehpour
2019-11-11 19:03:01
College of Electrical Engineering
Quality Control through Retailing Contracts--On the Role of Agricultural Cooperative
11:45
Talk & Lecture
7
1736756
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2019-11-04
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Speaker: Jianyu Yu, professor of Research Institute of Economics and Management, Southwestern University of Finance and EconomicsVenue: Room 418, School of Economics, Yuquan CampusAbstract: Agricultural cooperatives (coops) play an important role in coordinating production of different stakeholders along the agri-food production chain. However, empirical evidence in both developed and developing countries shows that coops are inefficient in providing quality and high-value added products. Question arises why coops still prevail in coordinating quality provision of retailers in the agri-food chain? In this paper, we develop a model to investigate the efficiency of contract and organizational arrangement when farmers' individual quality is not observed by the DS firm. We focus on two prevailing cases in agri-food sector: 1) DS firm directly deals with individual farmers based on a secret (non comitment) contract; 2) DS firm deals with farmers by contracting with a farmer-owned coop. Secret contracts create inefficiency (lower quality and lower quantity) because of the opportunistic behavior of DS firm; while coop may also entail inefficiency because the free-riding problem. We show how the DS firm can design a contract that corrects the free-riding distortion of a coop and achieves the efficiency when DS firm observe individual quality. This paper thus provides a new explanation on the positive role of coop in quality provision along agri-food chain.Introduction: Currently Jianyu Yu is a professor at the Research Institute of Economics and Management, Southwestern University of Finance and Economics. she received her PhD at Toulouse School of Economics, France in 2009. My research focuses on topics in industiral organization, with special insterest in the agricultural and food sector and agricultural policy. She has published several papers inEurpoean Review of Agricultural Economics, Journal of Retailing, Economics Letters.
Jianyu Yu, professor of Research Institute of Economics and Management, Southwestern University of Finance and Economics
Jianyu Yu
2019-11-08 16:56:56
School of Economics
PhD, Research Attachment & Scholarship Information Sharing Session
9:00
Talk & Lecture
8
1736400
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2019-11-04
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Speaker: Kevin Tan Shyong Wei, Zhang Yongliang, Associate professor of Yong Loo School of Medicine, National University of SingaporeVenue: Room 701, Administrative Building, School of Medicine, Zijingang Campus
Kevin Tan Shyong Wei, Zhang Yongliang, Associate professor of Yong Loo School of Medicine, National University of Singapore
Kevin Tan Shyong Wei, Zhang Yongliang
2019-11-08 18:25:54
School of Medicine
Characterization of Protein Communication Networks between Organs and Organisms
10:00
Talk & Lecture
9
1736405
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2019-11-01
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Speaker: Dr. Ilia DroujinineVenue: Conference Hall Room 245, CLSConvener: Prof. YU Luyang
Dr. Ilia Droujinine, PI of Scripps Research Institute
Ilia Droujinine
2019-11-07 18:51:26
College of Life Sciences