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VERSION:2.0
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BEGIN:VEVENT
SUMMARY:Smart Colloidal Nanocrystals  Towards Smart Electronics
DTSTART:20230308T143000Z
DTEND:20230308T160000Z
DTSTAMP:20260624T085146Z
UID:76b8a354-d06a-4b5c-b7aa-35490d791b78
SEQUENCE:2
CREATED:20230302T091714Z
DESCRIPTION:Resumo:Smart colloidal nanocrystals\, namely colloidal chalcog
 enides and halide perovskites\, have recently received much attention due 
 to their extraordinary properties\, such as tunable\, very sharp emission\
 , faster carrier recombination\, low-threshold lasing properties\, and hig
 her stability in ambient atmosphere. How do these properties change with d
 ifferent shapes\, especially for two-dimensional systems\, e.g.\, nanoplat
 elets? How the exciton behaves when they are assembled in solution? Also\,
  how do they transport charge electronically inside smart devices in solo 
 form or composite with MXene (unique 2D materials)? What about their photo
 detection limit in visible or near-IR? I will talk about these and what we
  reported in our recent work. Also\, I will talk about future prospects in
  different electrochemical energy conversion applications of these materia
 ls.
LAST-MODIFIED:20230306T120507Z
LOCATION:Sala de Seminários do DF\,  Pavilhão de Física\, 2º piso
URL:http://df.vps.tecnico.ulisboa.pt/pt/eventos/smart-colloidal-nanocrysta
 ls-towards-smart-electronics/
X-ALT-DESC;FMTTYPE=text/html:<p data-block-key="u69re"><b>Resumo:</b></p><
 p data-block-key="ecd4c">Smart colloidal nanocrystals\, namely colloidal c
 halcogenides and halide perovskites\, have recently received much attentio
 n due to their extraordinary properties\, such as tunable\, very sharp emi
 ssion\, faster carrier recombination\, low-threshold lasing properties\, a
 nd higher stability in ambient atmosphere.<br/><br/> How do these properti
 es change with different shapes\, especially for two-dimensional systems\,
  e.g.\, nanoplatelets? How the exciton behaves when they are assembled in 
 solution? Also\, how do they transport charge electronically inside smart 
 devices in solo form or composite with MXene (unique 2D materials)?<br/><b
 r/> What about their photodetection limit in visible or near-IR? I will ta
 lk about these and what we reported in our recent work. Also\, I will talk
  about future prospects in different electrochemical energy conversion app
 lications of these materials.</p>
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