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DTSTAMP:20231214T180716Z
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DTSTART;TZID=America/New_York:20231214T120000
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DESCRIPTION:Chalcogens are elements in group 16 of the periodic table\, whi
 le chalcogenides are a combination of chalcogens elements that exhibit pha
 se-change properties. Phase change chalcogenides (PCCs) are materials that
  undergo reversible phase changes between amorphous and crystalline states
  with the application or removal of heat. My research focuses on the chara
 cterization of the phase change chalcogenides (Tellurium-Te\, Selenium-Se\
 , Germanium-Ge\, Antimony-Sb) deposited on nanostructure\, exploring poten
 tial applications in optical data storage and non-volatile memory while en
 suring advanced thermal heat management systems. Silicon nanostructure has
  unique transfer properties\, and integrating PCMs enhances the thermal ma
 nagement of the PCM. The research goal is to understand the interactions b
 etween PCMs and silicon nanostructures to improve thermal heat dissipation
  and the life cycle of the phase change from amorphous to crystalline with
 out destroying the fundamental atomic structure.\n\nSpeaker(s): Chinonso E
 zeobi\n\nVirtual: https://events.vtools.ieee.org/m/387169
LOCATION:Virtual: https://events.vtools.ieee.org/m/387169
ORGANIZER:mapowers@ieee.org
SEQUENCE:16
SUMMARY:Characterization of Phase Change Materials on Silicon Nanostructure
URL;VALUE=URI:https://events.vtools.ieee.org/m/387169
X-ALT-DESC:Description: <br /><p>Chalcogens are elements in group 16 of the
  periodic table\, while chalcogenides are a combination of chalcogens elem
 ents that exhibit phase-change properties. Phase change chalcogenides (PCC
 s) are materials that undergo reversible phase changes between amorphous a
 nd crystalline states with the application or removal of heat. My research
  focuses on the characterization of the phase change chalcogenides (Tellur
 ium-Te\, Selenium-Se\, Germanium-Ge\, Antimony-Sb) deposited on nanostruct
 ure\, exploring potential applications in optical data storage and non-vol
 atile memory while ensuring advanced thermal heat management systems. Sili
 con nanostructure has unique transfer properties\, and integrating PCMs en
 hances the thermal management of the PCM. The research goal is to understa
 nd the interactions between PCMs and silicon nanostructures to improve the
 rmal heat dissipation and the life cycle of the phase change from amorphou
 s to crystalline without destroying the fundamental atomic structure.</p>
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