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DTSTART:20070311T020000
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UID:c4bab801-3c7e-4344-9984-3b4e302d7e53.220525@calendar.missouristate.edu
CREATED:20220328T154842Z
LAST-MODIFIED:20220328T154842Z
LOCATION:Kemper Hall 206
SUMMARY:PAMS Seminar: "Investigations of Mn-Co-NiO Based Heterostructured 
 Nanocrystals" by Farhan Ishrak (PAMS student)
DESCRIPTION:Farhan Ishrak (PAMS student)\n\n\nAbstract:Development of high
 ly efficient\, nanoscale based magnetic devices is an important goal for 
 our society. We are investigating the synthesis\, along with the structur
 al and magnetic properties\, of Mn- and Co-incorporated NiO heterostructu
 red nanoparticles (HNPs). The synthesis of the HNPs is accomplished by fi
 rst producing NiO nanoparticles using a thermal decomposition method. Sub
 sequently\, Mn-Co overgrowth phases are grown on the NiO nanoparticles vi
 a hydrothermal nanophase epitaxy. The crystalline structure and gross mor
 phology of the synthesized HNPs are analyzed using XRD and SEM techniques
 . The composite architecture adds multifunctionality to HNPs\, leading to
  a wide variety of potential applications\, including energy storage\, ma
 gnetic devices\, photonics\, and biomedicine. I will discuss the synthesi
 s and characterization (XRD and SEM) of Ni(1-x-y)MnxCoyO heterostructured
  nanocrystals that were produced using procedures outlined above.
X-ALT-DESC;FMTTYPE=text/html:<html><head><title></title></head><body><p><b
 >Farhan Ishrak&nbsp\;(PAMS student)</b></p>\n<p>Abstract:<br>Development 
 of highly efficient\, nanoscale based magnetic devices is an important go
 al for our society. We are investigating the synthesis\, along with the s
 tructural and magnetic properties\, of Mn- and Co-incorporated NiO hetero
 structured nanoparticles (HNPs). The synthesis of the HNPs is accomplishe
 d by first producing NiO nanoparticles using a thermal decomposition meth
 od. Subsequently\, Mn-Co overgrowth phases are grown on the NiO nanoparti
 cles via hydrothermal nanophase epitaxy. The crystalline structure and gr
 oss morphology of the synthesized HNPs are analyzed using XRD and SEM tec
 hniques. The composite architecture adds multifunctionality to HNPs\, lea
 ding to a wide variety of potential applications\, including energy stora
 ge\, magnetic devices\, photonics\, and biomedicine. I will discuss the s
 ynthesis and characterization (XRD and SEM) of Ni(1-x-y)MnxCoyO heterostr
 uctured nanocrystals that were produced using procedures outlined above.<
 /p></body></html>
DTSTART;TZID=America/Chicago:20220329T160000
DTEND;TZID=America/Chicago:20220329T170000
SEQUENCE:0
URL:https://physics.missouristate.edu/seminars.htm
CATEGORIES:Public,Alumni,Current Students,Faculty,Future Students,Staff
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