Self-monitored Nd-doped MoSe2 nanosheets with near-infrared luminescent sensing for photothermal therapy

The acquisition of real-time temperature monitoring during photothermal therapy is significant to prevent unnecessary damage to healthy tissues. However, owing to complexity and diverse factors in microenvironment of cells, there still remain considerable challenges in achieving noninvasive temperat...
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Autor*in:	Congcong Wang [verfasserIn] Yu Meng [verfasserIn] Zewen Su [verfasserIn] Junqiang Dong [verfasserIn] Yanbang Lian [verfasserIn] Youqiang Huang [verfasserIn] Yinyan Li [verfasserIn] Shiqing Xu [verfasserIn] Gongxun Bai [verfasserIn]

Format:	E-Artikel
Sprache:	Englisch

Erschienen:	2024

Schlagwörter:	Photothermal conversion Tumor ablation Temperature feedback Transition metal dichalcogenide Optical thermometer

Übergeordnetes Werk:	In: Journal of Materiomics - Elsevier, 2016, 10(2024), 1, Seite 163-172
Übergeordnetes Werk:	volume:10 ; year:2024 ; number:1 ; pages:163-172

Links:	Link aufrufen Link aufrufen Link aufrufen Journal toc

DOI / URN:	10.1016/j.jmat.2023.05.005

Katalog-ID:	DOAJ097494577

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spellingShingle	Congcong Wang misc TA401-492 misc Photothermal conversion misc Tumor ablation misc Temperature feedback misc Transition metal dichalcogenide misc Optical thermometer misc Materials of engineering and construction. Mechanics of materials Self-monitored Nd-doped MoSe2 nanosheets with near-infrared luminescent sensing for photothermal therapy
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topic	misc TA401-492 misc Photothermal conversion misc Tumor ablation misc Temperature feedback misc Transition metal dichalcogenide misc Optical thermometer misc Materials of engineering and construction. Mechanics of materials
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title_sort	self-monitored nd-doped mose2 nanosheets with near-infrared luminescent sensing for photothermal therapy
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title_auth	Self-monitored Nd-doped MoSe2 nanosheets with near-infrared luminescent sensing for photothermal therapy
abstract	The acquisition of real-time temperature monitoring during photothermal therapy is significant to prevent unnecessary damage to healthy tissues. However, owing to complexity and diverse factors in microenvironment of cells, there still remain considerable challenges in achieving noninvasive temperature measurement and manipulation in therapeutic process. Herein, biocompatible Nd-doped MoSe2 nanosheets have been developed on the premise of excellent photothermal effect, which manifest desirable photoluminescence and distinct temperature self-monitored capability in near-infrared I and II bio-windows. Based on thermally coupled energy levels of Nd ions, the real-time monitoring on temperature changes in intracellular environment can be realized which provide instant temperature feedbacks to avoid side effects from hyperthermia. Exclusive of detrimental elements such as F and Pb, the objective nanosheets manifest satisfactory biosafety and can induce effective tumor ablation under near-infrared irradiation with photothermal conversion efficiency up to 40.8%, providing an innovative vision for developing more precisely and safely photothermal approaches.
abstractGer	The acquisition of real-time temperature monitoring during photothermal therapy is significant to prevent unnecessary damage to healthy tissues. However, owing to complexity and diverse factors in microenvironment of cells, there still remain considerable challenges in achieving noninvasive temperature measurement and manipulation in therapeutic process. Herein, biocompatible Nd-doped MoSe2 nanosheets have been developed on the premise of excellent photothermal effect, which manifest desirable photoluminescence and distinct temperature self-monitored capability in near-infrared I and II bio-windows. Based on thermally coupled energy levels of Nd ions, the real-time monitoring on temperature changes in intracellular environment can be realized which provide instant temperature feedbacks to avoid side effects from hyperthermia. Exclusive of detrimental elements such as F and Pb, the objective nanosheets manifest satisfactory biosafety and can induce effective tumor ablation under near-infrared irradiation with photothermal conversion efficiency up to 40.8%, providing an innovative vision for developing more precisely and safely photothermal approaches.
abstract_unstemmed	The acquisition of real-time temperature monitoring during photothermal therapy is significant to prevent unnecessary damage to healthy tissues. However, owing to complexity and diverse factors in microenvironment of cells, there still remain considerable challenges in achieving noninvasive temperature measurement and manipulation in therapeutic process. Herein, biocompatible Nd-doped MoSe2 nanosheets have been developed on the premise of excellent photothermal effect, which manifest desirable photoluminescence and distinct temperature self-monitored capability in near-infrared I and II bio-windows. Based on thermally coupled energy levels of Nd ions, the real-time monitoring on temperature changes in intracellular environment can be realized which provide instant temperature feedbacks to avoid side effects from hyperthermia. Exclusive of detrimental elements such as F and Pb, the objective nanosheets manifest satisfactory biosafety and can induce effective tumor ablation under near-infrared irradiation with photothermal conversion efficiency up to 40.8%, providing an innovative vision for developing more precisely and safely photothermal approaches.
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title_short	Self-monitored Nd-doped MoSe2 nanosheets with near-infrared luminescent sensing for photothermal therapy
url	https://doi.org/10.1016/j.jmat.2023.05.005 https://doaj.org/article/379edcee1dc34c6daa0e44c1f890db25 http://www.sciencedirect.com/science/article/pii/S2352847823000850 https://doaj.org/toc/2352-8478
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author2	Yu Meng Zewen Su Junqiang Dong Yanbang Lian Youqiang Huang Yinyan Li Shiqing Xu Gongxun Bai
author2Str	Yu Meng Zewen Su Junqiang Dong Yanbang Lian Youqiang Huang Yinyan Li Shiqing Xu Gongxun Bai
ppnlink	DOAJ000063401
callnumber-subject	TA - General and Civil Engineering
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doi_str	10.1016/j.jmat.2023.05.005
callnumber-a	TA401-492
up_date	2024-07-04T01:28:29.372Z
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