Efficient Red/Near‐Infrared‐Emissive Carbon Nanodots with Multiphoton Excited Upconversion Fluorescence

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Zeitschriftentitel:	Advanced Science
Personen und Körperschaften:	Liu, Kai‐Kai, Song, Shi‐Yu, Sui, Lai‐Zhi, Wu, Si‐Xuan, Jing, Peng‐Tao, Wang, Ruo‐Qiu, Li, Qing‐Yi, Wu, Guo‐Rong, Zhang, Zhen‐Zhong, Yuan, Kai‐Jun, Shan, Chong‐Xin
In:	Advanced Science, 6, 2019, 17
Format:	E-Article
Sprache:	Englisch
veröffentlicht:	Wiley
Schlagwörter:	General Physics and Astronomy General Engineering Biochemistry, Genetics and Molecular Biology (miscellaneous) General Materials Science General Chemical Engineering Medicine (miscellaneous)

author_facet	Liu, Kai‐Kai Song, Shi‐Yu Sui, Lai‐Zhi Wu, Si‐Xuan Jing, Peng‐Tao Wang, Ruo‐Qiu Li, Qing‐Yi Wu, Guo‐Rong Zhang, Zhen‐Zhong Yuan, Kai‐Jun Shan, Chong‐Xin Liu, Kai‐Kai Song, Shi‐Yu Sui, Lai‐Zhi Wu, Si‐Xuan Jing, Peng‐Tao Wang, Ruo‐Qiu Li, Qing‐Yi Wu, Guo‐Rong Zhang, Zhen‐Zhong Yuan, Kai‐Jun Shan, Chong‐Xin
author	Liu, Kai‐Kai Song, Shi‐Yu Sui, Lai‐Zhi Wu, Si‐Xuan Jing, Peng‐Tao Wang, Ruo‐Qiu Li, Qing‐Yi Wu, Guo‐Rong Zhang, Zhen‐Zhong Yuan, Kai‐Jun Shan, Chong‐Xin
spellingShingle	Liu, Kai‐Kai Song, Shi‐Yu Sui, Lai‐Zhi Wu, Si‐Xuan Jing, Peng‐Tao Wang, Ruo‐Qiu Li, Qing‐Yi Wu, Guo‐Rong Zhang, Zhen‐Zhong Yuan, Kai‐Jun Shan, Chong‐Xin Advanced Science Efficient Red/Near‐Infrared‐Emissive Carbon Nanodots with Multiphoton Excited Upconversion Fluorescence General Physics and Astronomy General Engineering Biochemistry, Genetics and Molecular Biology (miscellaneous) General Materials Science General Chemical Engineering Medicine (miscellaneous)
author_sort	liu, kai‐kai
spelling	Liu, Kai‐Kai Song, Shi‐Yu Sui, Lai‐Zhi Wu, Si‐Xuan Jing, Peng‐Tao Wang, Ruo‐Qiu Li, Qing‐Yi Wu, Guo‐Rong Zhang, Zhen‐Zhong Yuan, Kai‐Jun Shan, Chong‐Xin 2198-3844 2198-3844 Wiley General Physics and Astronomy General Engineering Biochemistry, Genetics and Molecular Biology (miscellaneous) General Materials Science General Chemical Engineering Medicine (miscellaneous) http://dx.doi.org/10.1002/advs.201900766 <jats:title>Abstract</jats:title><jats:p>Red/near‐infrared (NIR) emissive carbon nanodots (CNDs) with photoluminescence (PL) quantum yield (QY) of 57% are prepared via an in situ solvent‐free carbonization strategy for the first time. 1‐Photon and 2‐photon cellular imaging is demonstrated by using the CNDs as red/NIR fluorescence agent due to the high PL QY and low biotoxicity. Further study shows that the red/NIR CNDs exhibit multiphoton excited (MPE) upconversion fluorescence under excitation of 800–2000 nm, which involves three NIR windows (NIR‐I, 650–950 nm; NIR‐II, 1100–1350; NIR‐III, 1600–1870 nm). 2‐Photon, 3‐photon, and 4‐photon excited fluorescence of the CNDs under excitation of different wavelengths is achieved. This study develops an in situ solvent‐free carbonization method for efficient red/NIR emissive CNDs with MPE upconversion fluorescence, which may push forward the application of the CNDs in bioimaging.</jats:p> Efficient Red/Near‐Infrared‐Emissive Carbon Nanodots with Multiphoton Excited Upconversion Fluorescence Advanced Science
doi_str_mv	10.1002/advs.201900766
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title	Efficient Red/Near‐Infrared‐Emissive Carbon Nanodots with Multiphoton Excited Upconversion Fluorescence
title_unstemmed	Efficient Red/Near‐Infrared‐Emissive Carbon Nanodots with Multiphoton Excited Upconversion Fluorescence
title_full	Efficient Red/Near‐Infrared‐Emissive Carbon Nanodots with Multiphoton Excited Upconversion Fluorescence
title_fullStr	Efficient Red/Near‐Infrared‐Emissive Carbon Nanodots with Multiphoton Excited Upconversion Fluorescence
title_full_unstemmed	Efficient Red/Near‐Infrared‐Emissive Carbon Nanodots with Multiphoton Excited Upconversion Fluorescence
title_short	Efficient Red/Near‐Infrared‐Emissive Carbon Nanodots with Multiphoton Excited Upconversion Fluorescence
title_sort	efficient red/near‐infrared‐emissive carbon nanodots with multiphoton excited upconversion fluorescence
topic	General Physics and Astronomy General Engineering Biochemistry, Genetics and Molecular Biology (miscellaneous) General Materials Science General Chemical Engineering Medicine (miscellaneous)
url	http://dx.doi.org/10.1002/advs.201900766
publishDate	2019
physical
description	<jats:title>Abstract</jats:title><jats:p>Red/near‐infrared (NIR) emissive carbon nanodots (CNDs) with photoluminescence (PL) quantum yield (QY) of 57% are prepared via an in situ solvent‐free carbonization strategy for the first time. 1‐Photon and 2‐photon cellular imaging is demonstrated by using the CNDs as red/NIR fluorescence agent due to the high PL QY and low biotoxicity. Further study shows that the red/NIR CNDs exhibit multiphoton excited (MPE) upconversion fluorescence under excitation of 800–2000 nm, which involves three NIR windows (NIR‐I, 650–950 nm; NIR‐II, 1100–1350; NIR‐III, 1600–1870 nm). 2‐Photon, 3‐photon, and 4‐photon excited fluorescence of the CNDs under excitation of different wavelengths is achieved. This study develops an in situ solvent‐free carbonization method for efficient red/NIR emissive CNDs with MPE upconversion fluorescence, which may push forward the application of the CNDs in bioimaging.</jats:p>
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author	Liu, Kai‐Kai, Song, Shi‐Yu, Sui, Lai‐Zhi, Wu, Si‐Xuan, Jing, Peng‐Tao, Wang, Ruo‐Qiu, Li, Qing‐Yi, Wu, Guo‐Rong, Zhang, Zhen‐Zhong, Yuan, Kai‐Jun, Shan, Chong‐Xin
author_facet	Liu, Kai‐Kai, Song, Shi‐Yu, Sui, Lai‐Zhi, Wu, Si‐Xuan, Jing, Peng‐Tao, Wang, Ruo‐Qiu, Li, Qing‐Yi, Wu, Guo‐Rong, Zhang, Zhen‐Zhong, Yuan, Kai‐Jun, Shan, Chong‐Xin, Liu, Kai‐Kai, Song, Shi‐Yu, Sui, Lai‐Zhi, Wu, Si‐Xuan, Jing, Peng‐Tao, Wang, Ruo‐Qiu, Li, Qing‐Yi, Wu, Guo‐Rong, Zhang, Zhen‐Zhong, Yuan, Kai‐Jun, Shan, Chong‐Xin
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description	<jats:title>Abstract</jats:title><jats:p>Red/near‐infrared (NIR) emissive carbon nanodots (CNDs) with photoluminescence (PL) quantum yield (QY) of 57% are prepared via an in situ solvent‐free carbonization strategy for the first time. 1‐Photon and 2‐photon cellular imaging is demonstrated by using the CNDs as red/NIR fluorescence agent due to the high PL QY and low biotoxicity. Further study shows that the red/NIR CNDs exhibit multiphoton excited (MPE) upconversion fluorescence under excitation of 800–2000 nm, which involves three NIR windows (NIR‐I, 650–950 nm; NIR‐II, 1100–1350; NIR‐III, 1600–1870 nm). 2‐Photon, 3‐photon, and 4‐photon excited fluorescence of the CNDs under excitation of different wavelengths is achieved. This study develops an in situ solvent‐free carbonization method for efficient red/NIR emissive CNDs with MPE upconversion fluorescence, which may push forward the application of the CNDs in bioimaging.</jats:p>
doi_str_mv	10.1002/advs.201900766
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spelling	Liu, Kai‐Kai Song, Shi‐Yu Sui, Lai‐Zhi Wu, Si‐Xuan Jing, Peng‐Tao Wang, Ruo‐Qiu Li, Qing‐Yi Wu, Guo‐Rong Zhang, Zhen‐Zhong Yuan, Kai‐Jun Shan, Chong‐Xin 2198-3844 2198-3844 Wiley General Physics and Astronomy General Engineering Biochemistry, Genetics and Molecular Biology (miscellaneous) General Materials Science General Chemical Engineering Medicine (miscellaneous) http://dx.doi.org/10.1002/advs.201900766 <jats:title>Abstract</jats:title><jats:p>Red/near‐infrared (NIR) emissive carbon nanodots (CNDs) with photoluminescence (PL) quantum yield (QY) of 57% are prepared via an in situ solvent‐free carbonization strategy for the first time. 1‐Photon and 2‐photon cellular imaging is demonstrated by using the CNDs as red/NIR fluorescence agent due to the high PL QY and low biotoxicity. Further study shows that the red/NIR CNDs exhibit multiphoton excited (MPE) upconversion fluorescence under excitation of 800–2000 nm, which involves three NIR windows (NIR‐I, 650–950 nm; NIR‐II, 1100–1350; NIR‐III, 1600–1870 nm). 2‐Photon, 3‐photon, and 4‐photon excited fluorescence of the CNDs under excitation of different wavelengths is achieved. This study develops an in situ solvent‐free carbonization method for efficient red/NIR emissive CNDs with MPE upconversion fluorescence, which may push forward the application of the CNDs in bioimaging.</jats:p> Efficient Red/Near‐Infrared‐Emissive Carbon Nanodots with Multiphoton Excited Upconversion Fluorescence Advanced Science
spellingShingle	Liu, Kai‐Kai, Song, Shi‐Yu, Sui, Lai‐Zhi, Wu, Si‐Xuan, Jing, Peng‐Tao, Wang, Ruo‐Qiu, Li, Qing‐Yi, Wu, Guo‐Rong, Zhang, Zhen‐Zhong, Yuan, Kai‐Jun, Shan, Chong‐Xin, Advanced Science, Efficient Red/Near‐Infrared‐Emissive Carbon Nanodots with Multiphoton Excited Upconversion Fluorescence, General Physics and Astronomy, General Engineering, Biochemistry, Genetics and Molecular Biology (miscellaneous), General Materials Science, General Chemical Engineering, Medicine (miscellaneous)
title	Efficient Red/Near‐Infrared‐Emissive Carbon Nanodots with Multiphoton Excited Upconversion Fluorescence
title_full	Efficient Red/Near‐Infrared‐Emissive Carbon Nanodots with Multiphoton Excited Upconversion Fluorescence
title_fullStr	Efficient Red/Near‐Infrared‐Emissive Carbon Nanodots with Multiphoton Excited Upconversion Fluorescence
title_full_unstemmed	Efficient Red/Near‐Infrared‐Emissive Carbon Nanodots with Multiphoton Excited Upconversion Fluorescence
title_short	Efficient Red/Near‐Infrared‐Emissive Carbon Nanodots with Multiphoton Excited Upconversion Fluorescence
title_sort	efficient red/near‐infrared‐emissive carbon nanodots with multiphoton excited upconversion fluorescence
title_unstemmed	Efficient Red/Near‐Infrared‐Emissive Carbon Nanodots with Multiphoton Excited Upconversion Fluorescence
topic	General Physics and Astronomy, General Engineering, Biochemistry, Genetics and Molecular Biology (miscellaneous), General Materials Science, General Chemical Engineering, Medicine (miscellaneous)
url	http://dx.doi.org/10.1002/advs.201900766