Emerging and perspectives in microlasers based on rare-earth ions activated micro-/nanomaterials

Microlasers have drawn considerable attention for applications in future optoelectronic nanoscience and nanotechnology, owing to the capability of scaling physical dimension of devices down to micro-/nanometer level. Currently, the most popular optical gain micro-/nanomaterials for microlasers are i...

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Veröffentlicht in:	Progress in materials science 2021-08, Vol.121, p.100814, Article 100814
Hauptverfasser:	Chen, Zhi, Dong, Guoping, Barillaro, Giuseppe, Qiu, Jianrong, Yang, Zhongmin
Format:	Artikel
Sprache:	eng
Schlagworte:	Down-shifting/converting Materials science Metal ions Microlasers Nanomaterials Nanotechnology Optical feedback Optical feedback micro-/nanoresonators Optoelectronics Organic semiconductors Perovskites Photoluminescence Rare earth elements Rare-earth ions activated micro-/nanomaterials Stability Surface defects Ultraviolet spectra Upconverting
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creator	Chen, Zhi Dong, Guoping Barillaro, Giuseppe Qiu, Jianrong Yang, Zhongmin
description	Microlasers have drawn considerable attention for applications in future optoelectronic nanoscience and nanotechnology, owing to the capability of scaling physical dimension of devices down to micro-/nanometer level. Currently, the most popular optical gain micro-/nanomaterials for microlasers are inorganic semiconductors, organic dyes and polymers, and organic-inorganic hybrid perovskites. However, these optical gain micro-/nanomaterials are faced with severe issues of either complicated manufacturing process or low stability under air, thermal, and photo-irradiation ambient. Comparatively, rare-earth (RE) ions-activated micro-/nanomaterials show unique merits for building-up microlasers, including low-cost fabrication, high environmental stability, abundant spectrum bands (ultraviolet to mid-infrared), high photoluminescence quantum yield (PLQY), etc. Recently, new RE ions-activated luminescent materials have been exploited as low surface defects and high PLQY in terms of diverse micro-/nanostructures, which have stimulated great progress in emerging RE ions activated microlasers, in combination with design and fabrication of novel optical feedback micro-/nanoresonators. Herein, recent advances in RE ions activated microlasers are reviewed from the aspects of Materials and Theories (including optical gain media and feedback micro-/nanomaterials), as well as some enlightening works on Upconverting Pumped Microlasers and Down-Shifting/Converting Pumped Microlasers; finally, future Perspectives are given by providing inspiration for exploitation of RE ions activated micro-/nanolasers with desired performances.
doi_str_mv	10.1016/j.pmatsci.2021.100814
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subjects	Down-shifting/converting Materials science Metal ions Microlasers Nanomaterials Nanotechnology Optical feedback Optical feedback micro-/nanoresonators Optoelectronics Organic semiconductors Perovskites Photoluminescence Rare earth elements Rare-earth ions activated micro-/nanomaterials Stability Surface defects Ultraviolet spectra Upconverting
title	Emerging and perspectives in microlasers based on rare-earth ions activated micro-/nanomaterials
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