Dopant selection strategy for high-quality factor localized surface plasmon resonance from doped metal oxide nanocrystals
Thin films of degenerately doped metal oxides such as those of Sn-doped In2O3 (Sn: In2O3)
are commercially significant for their broad utilization as transparent conducting electrodes
in optoelectronic devices. Over the past decade, nanocrystals (NCs) of Sn: In2O3 and other
doped metal oxides have also attracted interest for localized surface plasmon resonance
(LSPR) that occurs in the near-to mid-infrared region. The suitability of this LSPR for some
applications depends on its capacity to concentrate light in small regions of space, known as …
are commercially significant for their broad utilization as transparent conducting electrodes
in optoelectronic devices. Over the past decade, nanocrystals (NCs) of Sn: In2O3 and other
doped metal oxides have also attracted interest for localized surface plasmon resonance
(LSPR) that occurs in the near-to mid-infrared region. The suitability of this LSPR for some
applications depends on its capacity to concentrate light in small regions of space, known as …
Dopant Selection Strategy for High-Quality Factor Localized Surface Plasmon Resonance from Doped Metal Oxide Nanocrystals
Thin films of degenerately doped metal oxides such as those of Sn-doped In2O3 (Sn: In2O3)
are commercially significant for their broad utilization as transparent conducting electrodes
in optoelectronic devices. Over the past decade, nanocrystals (NCs) of Sn: In2O3 and other
doped metal oxides have also attracted interest for localized surface plasmon resonance
(LSPR) that occurs in the near-to mid-infrared region. The suitability of this LSPR for some
applications depends on its capacity to concentrate light in small regions of space, known as …
are commercially significant for their broad utilization as transparent conducting electrodes
in optoelectronic devices. Over the past decade, nanocrystals (NCs) of Sn: In2O3 and other
doped metal oxides have also attracted interest for localized surface plasmon resonance
(LSPR) that occurs in the near-to mid-infrared region. The suitability of this LSPR for some
applications depends on its capacity to concentrate light in small regions of space, known as …
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