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VERSION:2.0
PRODID:IEEE vTools.Events//EN
CALSCALE:GREGORIAN
BEGIN:VTIMEZONE
TZID:Pacific/Honolulu
BEGIN:STANDARD
DTSTART:19470608T023000
TZOFFSETFROM:-1130
TZOFFSETTO:-1000
TZNAME:HST
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BEGIN:VEVENT
DTSTAMP:20260527T204817Z
UID:C6B89FD2-744F-431C-948B-0E3EF2942390
DTSTART;TZID=Pacific/Honolulu:20260507T150000
DTEND;TZID=Pacific/Honolulu:20260507T160000
DESCRIPTION:Join us for the dissertation defense of Saige Dacuycuy\, where 
 he will present his research on reconfigurable reflectarrays for 5G and be
 yond wireless communications. His work explores the use of novel electrica
 lly conductive materials \, including graphene nanoplatelets\, metallic th
 in films\, and Galinstan liquid metal \, as alternatives to traditional se
 miconductor components in reflectarray design. These devices aim to improv
 e signal coverage in environments where high-frequency 5G signals struggle
  with propagation loss and blockage\, offering a low-cost solution for dyn
 amic\, non-line-of-sight wireless communication.\n\nSpeaker(s): \, Saige\n
 \nAgenda: \n- Dissertation defense by Saige Dacuycuy\n- Refreshements\n\nR
 oom: 389\, Bldg: Holmes Hall\, 2540 Dole Street\, Honolulu\, Hawaii\, Unit
 ed States\, 96822\, Virtual: https://events.vtools.ieee.org/m/560589
LOCATION:Room: 389\, Bldg: Holmes Hall\, 2540 Dole Street\, Honolulu\, Hawa
 ii\, United States\, 96822\, Virtual: https://events.vtools.ieee.org/m/560
 589
ORGANIZER:drael@hawaii.edu
SEQUENCE:26
SUMMARY:Exploring Electrically Conductive Materials for Next- Generation Re
 configurable Reflectarrays 
URL;VALUE=URI:https://events.vtools.ieee.org/m/560589
X-ALT-DESC:Description: <br /><p>Join us for the dissertation defense of Sa
 ige Dacuycuy\, where he will present his research on reconfigurable reflec
 tarrays for 5G and beyond wireless communications. His work explores the u
 se of novel electrically conductive materials \, including graphene nanopl
 atelets\, metallic thin films\, and Galinstan liquid metal \, as alternati
 ves to traditional semiconductor components in reflectarray design. These 
 devices aim to improve signal coverage in environments where high-frequenc
 y 5G signals struggle with propagation loss and blockage\, offering a low-
 cost solution for dynamic\, non-line-of-sight wireless communication.</p><
 br /><br />Agenda: <br /><ul>\n<li>Dissertation defense by Saige Dacuycuy<
 /li>\n<li>Refreshements</li>\n</ul>
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