Nanofiber electrospinning in samarium complex-doped PMMA

Yue Li; Baojie Chen; Edwin Yue Bun Pun; Hai Lin

doi:10.1039/c7nj03043f

Nanofiber electrospinning in samarium complex-doped PMMA

Yue Li, Baojie Chen, Edwin Yue Bun Pun, Hai Lin^*

^*Corresponding author for this work

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

16 Citations (Scopus)

Abstract

Herein, an electrospinning process of samarium complex-doped PMMAs was carried out to fabricate ultrafine fibers with a uniform diameter of about 230 nm. Under ultraviolet excitation, luminescence comparison between bulks and nanofibers verifies the existence of spectral reshaping, which alters the emission ratio of ligands to Sm³⁺; moreover, the effectiveness of electrospun fibrosis in enhancing the fluorescence emission is further identified in the case of Phen-containing. In addition, color tunability is achieved with the fluorescence changing from reddish-orange in bulks to near-white light in nanofibers. The nanosizing in rare-earth phosphors by electrospun fibrosis is proven to optimize the fluorescence properties, which provides a new route to develop the effective light-converting materials.

Original language	English
Pages (from-to)	15195-15203
Journal	New Journal of Chemistry
Volume	41
Issue number	24
Online published	30 Oct 2017
DOIs	https://doi.org/10.1039/c7nj03043f
Publication status	Published - 21 Dec 2017

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title = "Nanofiber electrospinning in samarium complex-doped PMMA",

abstract = "Herein, an electrospinning process of samarium complex-doped PMMAs was carried out to fabricate ultrafine fibers with a uniform diameter of about 230 nm. Under ultraviolet excitation, luminescence comparison between bulks and nanofibers verifies the existence of spectral reshaping, which alters the emission ratio of ligands to Sm3+; moreover, the effectiveness of electrospun fibrosis in enhancing the fluorescence emission is further identified in the case of Phen-containing. In addition, color tunability is achieved with the fluorescence changing from reddish-orange in bulks to near-white light in nanofibers. The nanosizing in rare-earth phosphors by electrospun fibrosis is proven to optimize the fluorescence properties, which provides a new route to develop the effective light-converting materials.",

author = "Yue Li and Baojie Chen and Pun, {Edwin Yue Bun} and Hai Lin",

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T1 - Nanofiber electrospinning in samarium complex-doped PMMA

AU - Li, Yue

AU - Chen, Baojie

AU - Pun, Edwin Yue Bun

AU - Lin, Hai

PY - 2017/12/21

Y1 - 2017/12/21

N2 - Herein, an electrospinning process of samarium complex-doped PMMAs was carried out to fabricate ultrafine fibers with a uniform diameter of about 230 nm. Under ultraviolet excitation, luminescence comparison between bulks and nanofibers verifies the existence of spectral reshaping, which alters the emission ratio of ligands to Sm3+; moreover, the effectiveness of electrospun fibrosis in enhancing the fluorescence emission is further identified in the case of Phen-containing. In addition, color tunability is achieved with the fluorescence changing from reddish-orange in bulks to near-white light in nanofibers. The nanosizing in rare-earth phosphors by electrospun fibrosis is proven to optimize the fluorescence properties, which provides a new route to develop the effective light-converting materials.

AB - Herein, an electrospinning process of samarium complex-doped PMMAs was carried out to fabricate ultrafine fibers with a uniform diameter of about 230 nm. Under ultraviolet excitation, luminescence comparison between bulks and nanofibers verifies the existence of spectral reshaping, which alters the emission ratio of ligands to Sm3+; moreover, the effectiveness of electrospun fibrosis in enhancing the fluorescence emission is further identified in the case of Phen-containing. In addition, color tunability is achieved with the fluorescence changing from reddish-orange in bulks to near-white light in nanofibers. The nanosizing in rare-earth phosphors by electrospun fibrosis is proven to optimize the fluorescence properties, which provides a new route to develop the effective light-converting materials.

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U2 - 10.1039/c7nj03043f

DO - 10.1039/c7nj03043f

M3 - RGC 21 - Publication in refereed journal

SN - 1144-0546

VL - 41

SP - 15195

EP - 15203

JO - New Journal of Chemistry

JF - New Journal of Chemistry

IS - 24

ER -

Nanofiber electrospinning in samarium complex-doped PMMA

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