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BEGIN:VEVENT
DTSTAMP:20260612T082836Z
DTSTART;VALUE=DATE-TIME:20251020T130000
DTEND;VALUE=DATE-TIME:20251020T140000
SUMMARY:WCPM: Kirk Bevan\, McGill University
TZID:Europe/London
UID:20251020-8ac672c498efcc010198f00955a4027b@warwick.ac.uk
CREATED:20251010T114216Z
DESCRIPTION:Location: Lecture Theatre 0.04 IMC Networking Lunch: The Rech
 arge Room\, next to Lecture Theatre 004\, from 12:30pm - 1pm. Title: Map
 ping Device Current Flow Concepts to Electrochemistry Abstract: Within t
 he ongoing long-term green energy transition\, electrochemistry has beco
 me a vastly interdisciplinary field stretching from engineering through 
 to physics and chemistry. This broad scope has\, to some degree\, led to
  a conceptualization disconnect between these disparate fields in the st
 udy of electrochemical systems. Within the physics and engineering liter
 ature electron flow is often conceptualized in terms of the single-parti
 cle (electronic structure) picture\, that has found enormous success in 
 the use of band diagrams to design a wide range of devices from transist
 ors to solid-state lasers. From this emerges the natural question as to 
 what degree the single-particle picture might be employed to understand 
 electrochemical phenomena in a device context? In this talk we will expl
 ore the Gerischer-Hopfield framework for electron transfer and explore h
 ow\, as a single-particle picture formulation\, it enables an electronic
  structure conceptualization of a wide range of electrochemical phenomen
 a. Key examples will be highlighted where the Gerischer-Hopfield framewo
 rk provides a “current flow” perspective towards understanding distinct 
 electrochemical phenomena\, including: (1) pseudo-capacitance\; (2) elec
 trochemical luminescence\; (3) rocking-chair batteries\; and (4) fully q
 uantized electron transfer. Ultimately\, this talk is intended to convey
  that the tools employed to conceptualize electron flow in solids can be
  extended to find great utility in bridging electrochemistry across engi
 neering\, physics\, and chemistry. Bio: The Bevan Research Group explore
 s nanoscale materials and devices via “technology computer aided design”
  (TCAD) to develop next-generation energy\, computing\, and sensing tech
 nologies. The ultimate goal of this research is to drive the discovery o
 f new technologies through “electronic design automation” (EDA). Through
  the application and development of advanced theoretical and machine lea
 rning methods\, group members research materials problems limiting devel
 opment of the aforementioned technological fields. Recent\, ongoing\, an
 d previous research applications include: next-generation batteries\, ph
 oto-electrolysis\, supercapacitors\, semiconductor devices\, oxide elect
 ronics\, molecular devices\, CO2 reduction\, electrocatalysis\, and adva
 nced materials synthesis/growth. These efforts are rooted in the explora
 tion of materials from their fundamental governing principles (e.g.\, qu
 antum)\, whereby material properties are tailored through atomic-scale a
 nd nano-scale modeling methods. Research is often conducted in close col
 laboration with experimental groups to enable the rapid discovery of new
  materials & devices for energy\, electronic\, and sensing applications.
 
LOCATION:Lecture Theatre 0.04 IMC
CATEGORIES:WCPM
LAST-MODIFIED:20251010T114216Z
ORGANIZER;CN=Jin Kang:
END:VEVENT
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