Yazar "Mantey, Kevin" için listeleme
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Dynamic transition of nanosilicon from indirect to direct-like nature by strain-induced structural relaxation
Mantey, Kevin; Morgan, Huw; Boparai, Jack; Yamani, Zain; Bahçeci, Ersin; Nayfeh, Munir Hasan (AIP Advances, 2021)Silicon nanoclusters exhibit light emission with direct-like ns-mu s time dynamics; however, they show variable synthesis and structure, optical, and electronic characteristics. The widely adopted model is a core-shell in ... -
Experimental and theoretical study of ultraviolet-induced structural/optical instability in nano silicon-based luminescence
Malloy, James; Mantey, Kevin; Maximenko, Yulia; Bahçeci, Ersin; Morgan, Huw; Yamani, Zain; Boparai, Jack; Puthalath, Krithik; Nayfeh, Munir Hasan (American Institute of Physics Inc., 2018)Nano silicon is emerging as an active element for UV applications due to quantum confinement-induced widening of the Si bandgap, amenability to integration on Si, and less sensitivity to temperature. NanoSi-based UV ... -
Ionization-induced optical heterogeneity and ion-like direct emission in 1-nm silicon nanoparticle grains: Prospect for fast optical modulation
Mantey, Kevin; Morgan, Huw; Nayfeh, Ammar; Bahçeci, Ersin; Nayfeh, Munir H. (American Institute of Physics Inc., 2022)Silicon, a highly symmetric and homogeneous material, does not exhibit fast optical modulation. Recent classical electrodynamics simulations, however, demonstrated transient optical heterogeneity in silicon nanostructures, ... -
Iron oxide-Si nanoparticle magnetic core-shell induced by the interaction of d-orbitals of Fe2+ with reconstructed Si dimer-like defects
Elhalawany, Noha; Mantey, Kevin; Hoang, Tuan; Bahçeci, Ersin; Xu, Jiacheng; Ateş, Hakan; Gorin, Dmitry; Yamani, Zain; Nayfeh, Munir H. (American Institute of Physics Inc., 2020)Redox-type charge exchange between Si nanoparticles and aqueous metal ions m(x+) was recently used to synthesize core-shell nanocomposites in which their functionalities have been integrated. The process requires the ... -
Polarization-based surface enhanced Raman scattering from single colloidal DNA decorated with 3 nm silicon nanoparticles
Mantey, Kevin; Quagliano, Lucia; Rezk, Ayman; Palleschi, Simonetta; Abuhassan, Laila; Nayfeh, Ammar; Bahçeci, Ersin; Nayfeh, Munir H. (American Institute of Physics Inc., 2021)Surface enhanced Raman scattering (SERS), in which sample molecules are placed in the proximity of conducting nanostructures, subjects the molecules to intense electron oscillation (plasmon) field. The intense field, ...
