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- Title
Controlling and probing heat generation in an optical heater system.
- Authors
Tuxun, Hairegu; Cai, Zefeng; Ji, Min; Zhang, Baobao; Zhang, Chengyun; Li, Jinping; Yu, Xudong; Fu, Zhengkun; Zhang, Zhenglong; Zheng, Hairong
- Abstract
Table 1 lists the temperatures obtained from the FIR of the Er SP 3+ sp ion in Y SB 2 sb O SB 3 sb :Er SP 3+ sp /Yb SP 3+ sp , with and without Ag NIs. Keywords: optical thermometry; plasmonic optical heater; rare-earth doped microrod; silver nano-islands EN optical thermometry plasmonic optical heater rare-earth doped microrod silver nano-islands 979 986 8 03/11/22 20220201 NES 220201 1 Introduction Precise temperature control at the micro/nanoscale is a significant challenge in nanotechnology across physics, chemistry, and biology [[1]]. Ag NIs coated Y SB 2 sb O SB 3 sb :Er SP 3+ sp /Yb SP 3+ sp microrods were obtained from NaYF SB 4 sb :Er SP 3+ sp /Yb SP 3+ sp microrods through a PT catalysis reaction caused by a surface plasmon effect [[30]]. The optical thermometer Y SB 2 sb O SB 3 sb :Er SP 3+ sp /Yb SP 3+ sp has good contact with Ag NIs, and Ag NIs are uniformly dispersed on the surface of the Y SB 2 sb O SB 3 sb :Er SP 3+ sp /Yb SP 3+ sp .
- Subjects
LUMINESCENCE; HEATING; ANTI-Stokes scattering; HEAT radiation &; absorption; TRANSITION metal catalysts
- Publication
Nanophotonics (21928606), 2022, Vol 11, Issue 5, p979
- ISSN
2192-8606
- Publication type
Article
- DOI
10.1515/nanoph-2021-0604