BEGIN:VCALENDAR METHOD:REQUEST PRODID:Microsoft Exchange Server 2010 VERSION:2.0 BEGIN:VTIMEZONE TZID:Eastern Standard Time BEGIN:STANDARD DTSTART:16010101T020000 TZOFFSETFROM:-0400 TZOFFSETTO:-0500 RRULE:FREQ=YEARLY;INTERVAL=1;BYDAY=1SU;BYMONTH=11 END:STANDARD BEGIN:DAYLIGHT DTSTART:16010101T020000 TZOFFSETFROM:-0500 TZOFFSETTO:-0400 RRULE:FREQ=YEARLY;INTERVAL=1;BYDAY=2SU;BYMONTH=3 END:DAYLIGHT END:VTIMEZONE BEGIN:VEVENT ORGANIZER;CN="Gupta, Sumeet Kumar":mailto:guptask@purdue.edu ATTENDEE;ROLE=REQ-PARTICIPANT;PARTSTAT=NEEDS-ACTION;RSVP=TRUE;CN=Lane W. Ma rtin:mailto:lwmartin@berkeley.edu ATTENDEE;ROLE=REQ-PARTICIPANT;PARTSTAT=NEEDS-ACTION;RSVP=TRUE;CN=ecefaculty @ecn.purdue.edu:mailto:ecefaculty@ecn.purdue.edu ATTENDEE;ROLE=REQ-PARTICIPANT;PARTSTAT=NEEDS-ACTION;RSVP=TRUE;CN=ecegradstu dent-list@ecn.purdue.edu:mailto:ecegradstudent-list@ecn.purdue.edu ATTENDEE;ROLE=REQ-PARTICIPANT;PARTSTAT=NEEDS-ACTION;RSVP=TRUE;CN=ecepostdoc s-list@ecn.purdue.edu:mailto:ecepostdocs-list@ecn.purdue.edu ATTENDEE;ROLE=REQ-PARTICIPANT;PARTSTAT=NEEDS-ACTION;RSVP=TRUE;CN=Bnc-facult y-all-list@ecn.purdue.edu:mailto:Bnc-faculty-all-list@ecn.purdue.edu ATTENDEE;ROLE=REQ-PARTICIPANT;PARTSTAT=NEEDS-ACTION;RSVP=TRUE;CN=BNC-EngSta ff:mailto:BNC-EngStaff@groups.purdue.edu ATTACH:CID:D0438101C0CFD14BAAE09E2B9EA3A116@namprd22.prod.outlook.com DESCRIPTION;LANGUAGE=en-US:Hello\n\nIt is my great pleasure to host Prof. L ane Martin (Department of Materials Science and Engineering\, University o f California\, Berkeley and Materials Sciences Division\, Lawrence Berkele y National Laboratory) for his talk in the ECE Seminar Series. The details are below and attached. Please feel free to forward to other folks at Pu rdue\, as you deem fit. Hope to see you in the seminar.\n\nThanks\n\nSumee t\n\nWhen: February 11\, 2021 (Thursday)\, 10:00 AM – 11:00 AM (ET)\n\n\ nWhere: https://purdue-edu.zoom.us/j/3164232249\n\n\nTitle: Ferroic Compl ex Oxides for Next-Generation Devices\n\n\nAbstract: Complex-oxide materia ls possess a range of interesting properties and phenomena that make them candidates for next-generation devices and applications. But before these materials can be integrated into state-of-the-art devices\, it is importan t to understand how to control and engineer their response in a determinis tic manner. In this talk\, we will discuss some of the state-of-the-art sc ience\, engineering\, and utilization of complex ferroic materials and the ir potential for emergent order and phenomena that can enable new device f unction. We will explore the role of the epitaxial thin-film growth proces s and the use of epitaxial constraints to engineer a range of systems with special attention to ferroelectric and relaxor materials. In recent years \, the use of epitaxial strain has enabled the production of model version s of these complicated materials and the subsequent deterministic study of field-dependent response. Here\, we will investigate the potential of fer roelectric materials for non-volatile\, ultra-low voltage memory and logic applications\, the realization of multi-state/neuromorphic function\, and even high energy density capacitive energy storage applications. We will try to introduce the listener to these complex materials and their potenti al for new applications – in effect working to motivate device engineers to explore these materials. The discussion will range from the developmen t of fundamental understanding of the physics that lies at the heart of th e observed effects\, to an illustration of routes to manipulate and contro l these effects\, to the demonstration of rudimentary solid-state devices based on these materials.\n\nSpeaker Bio: Professor Lane W. Martin is a Pr ofessor and Vice/Associate Chair of the Department of Materials Science an d Engineering at the University of California\, Berkeley and a Faculty Sen ior Scientist in the Materials Sciences Division at Lawrence Berkeley Nati onal Laboratory. Lane received his B.S. in Materials Science and Engineeri ng from Carnegie Mellon University in Dec. 2003 and his M.S. and Ph.D. in Materials Science and Engineering from the University of California\, Berk eley in May 2006 and 2008\, respectively. From 2008 to 2009\, Lane served as a Postdoctoral Fellow in the Quantum Materials Program\, Materials Scie nces Division\, Lawrence Berkeley National Laboratory. From 2009 to 2014\, Lane was an Assistant Professor in the Department of Materials Science an d Engineering at the University of Illinois\, Urbana-Champaign. Lane retur ned to the University of California\, Berkeley as an Associate Professor f rom 2014-2018. He was promoted to Full Professor in July 2018 and named As sociate Chair in Aug. 2018. Lane has published >220 papers\, his work has been cited >19\,000 times (resulting in an h-index = 60\; i10-index = 164) \, and he has given ~150 invited/plenary/keynote talks during his career. Lane’s work has garnered a number of awards including: the IEEE-Ultrason ics\, Ferroelectrics\, and Frequency Control (UFFC) Society Ferroelectrics Young Investigator Award\, the 2020-2021 Defense Science Study Group\, mu ltiple-time Highly Cited Researcher (ranked in the top 1% by citations for field and publication year in Web of Science)\, the Robert L. Coble Award for Young Scholars from the American Ceramic Society (2016)\, the America n Association for Crystal Growth (AACG) Young Author Award (2015)\, the Pr esidential Early Career Award for Scientists and Engineers (2014)\, the De an’s Award for Research Excellence for the University of Illinois\, Urba na-Champaign (2013)\, the National Science Foundation CAREER Award (2012)\ , the Army Research Office Young Investigator Program Award (2010)\, and o thers. Lane’s contributions to physical and materials science are broad reaching\, but his focus is on advancing the synthesis\, characterization\ , and utilization of emergent function (be that electronic\, ferroic\, mul tiferroic\, etc.) in complex oxides. Lane applies innovative synthesis of highly controlled\, epitaxial thin-film materials with special attention t o accessing new states of matter\, uses growth and epitaxy to access new i nsights about foundational materials physics\, and pushes the edge of mate rial response via strain\, defect\, and interfacial engineering. Lane embr aces cross-disciplinary\, collaborative research and leverages it to drive innovation.\n\n\n UID:040000008200E00074C5B7101A82E008000000006449653658FBD601000000000000000 01000000006C8678B19AA24439824EDDDB50DB04B SUMMARY;LANGUAGE=en-US:Webinar by Prof. Lane Martin UC Berkeley/LBNL: Feb 1 1 10AM-11AM DTSTART;TZID=Eastern Standard Time:20210211T100000 DTEND;TZID=Eastern Standard Time:20210211T110000 CLASS:PUBLIC PRIORITY:5 DTSTAMP:20210205T004831Z TRANSP:OPAQUE STATUS:CONFIRMED SEQUENCE:0 LOCATION;LANGUAGE=en-US:https://purdue-edu.zoom.us/j/3164232249 X-MICROSOFT-CDO-APPT-SEQUENCE:0 X-MICROSOFT-CDO-OWNERAPPTID:2119312996 X-MICROSOFT-CDO-BUSYSTATUS:TENTATIVE X-MICROSOFT-CDO-INTENDEDSTATUS:BUSY X-MICROSOFT-CDO-ALLDAYEVENT:FALSE X-MICROSOFT-CDO-IMPORTANCE:1 X-MICROSOFT-CDO-INSTTYPE:0 X-MICROSOFT-DONOTFORWARDMEETING:FALSE X-MICROSOFT-DISALLOW-COUNTER:FALSE X-MICROSOFT-LOCATIONDISPLAYNAME:https://purdue-edu.zoom.us/j/3164232249 X-MICROSOFT-LOCATIONSOURCE:None X-MICROSOFT-LOCATIONS:[{"DisplayName":"https://purdue-edu.zoom.us/j/3164232 249"\,"LocationAnnotation":""\,"LocationUri":""\,"LocationStreet":""\,"Loc ationCity":""\,"LocationState":""\,"LocationCountry":""\,"LocationPostalCo de":""\,"LocationFullAddress":""}] BEGIN:VALARM DESCRIPTION:REMINDER TRIGGER;RELATED=START:-PT15M ACTION:DISPLAY END:VALARM END:VEVENT END:VCALENDAR