A carbon nanomaterial derived from a nanoscale covalent organic framework for photothermal therapy in the NIR-II biowindow

Herein, we report a microporous carbon nanomaterial that was generated from a nanoscale covalent organic framework precursor via a simple pyrolysis approach. The obtained carbon-based nanoparticles possessed a broad NIR absorption capacity and exhibited a high level of photothermal conversion abilit...

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Published inChemical communications (Cambridge, England) Vol. 56; no. 56; pp. 7793 - 7796
Main Authors Guan, Qun, Zhou, Le-Le, Zhou, Li-Na, Li, Mengdi, Qin, Guo-Xin, Li, Wen-Yan, Li, Yan-An, Dong, Yu-Bin
Format Journal Article
LanguageEnglish
Published England Royal Society of Chemistry 14.07.2020
Subjects
Animals
Carbon
Carbon - chemistry
chemical compounds
Humans
in vivo studies
irradiation
MCF-7 Cells
Metal-Organic Frameworks - chemistry
Mice
Microscopy, Electron, Scanning
Microscopy, Electron, Transmission
Nanomaterials
Nanoparticles
Nanostructures - chemistry
Photothermal conversion
Photothermal Therapy - methods
photothermotherapy
Porosity
porous media
Powder Diffraction
Pyrolysis
Spectroscopy, Near-Infrared - methods
Theranostic Nanomedicine
Xenograft Model Antitumor Assays
Online AccessGet full text
ISSN1359-7345
1364-548X
1364-548X
DOI10.1039/d0cc00861c

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Abstract Herein, we report a microporous carbon nanomaterial that was generated from a nanoscale covalent organic framework precursor via a simple pyrolysis approach. The obtained carbon-based nanoparticles possessed a broad NIR absorption capacity and exhibited a high level of photothermal conversion ability ( η = 50.6%) in the NIR-II biowindow. Its excellent PTT antitumor efficiency was fully evidenced by in vitro and in vivo experiments under 1064 nm laser irradiation. A nanoscale carbon nanomaterial was synthesized through pyrolysis of its NCOF precursor, and the obtained carbon nanoparticles (CNPs) can be highly efficient NIR-II photothermal agents for antitumor treatment via PTT.
AbstractList Herein, we report a microporous carbon nanomaterial that was generated from a nanoscale covalent organic framework precursor via a simple pyrolysis approach. The obtained carbon-based nanoparticles possessed a broad NIR absorption capacity and exhibited a high level of photothermal conversion ability (η = 50.6%) in the NIR-II biowindow. Its excellent PTT antitumor efficiency was fully evidenced by in vitro and in vivo experiments under 1064 nm laser irradiation.
Herein, we report a microporous carbon nanomaterial that was generated from a nanoscale covalent organic framework precursor via a simple pyrolysis approach. The obtained carbon-based nanoparticles possessed a broad NIR absorption capacity and exhibited a high level of photothermal conversion ability ( η = 50.6%) in the NIR-II biowindow. Its excellent PTT antitumor efficiency was fully evidenced by in vitro and in vivo experiments under 1064 nm laser irradiation. A nanoscale carbon nanomaterial was synthesized through pyrolysis of its NCOF precursor, and the obtained carbon nanoparticles (CNPs) can be highly efficient NIR-II photothermal agents for antitumor treatment via PTT.
Herein, we report a microporous carbon nanomaterial that was generated from a nanoscale covalent organic framework precursor via a simple pyrolysis approach. The obtained carbon-based nanoparticles possessed a broad NIR absorption capacity and exhibited a high level of photothermal conversion ability ( η = 50.6%) in the NIR-II biowindow. Its excellent PTT antitumor efficiency was fully evidenced by in vitro and in vivo experiments under 1064 nm laser irradiation.
Herein, we report a microporous carbon nanomaterial that was generated from a nanoscale covalent organic framework precursor via a simple pyrolysis approach. The obtained carbon-based nanoparticles possessed a broad NIR absorption capacity and exhibited a high level of photothermal conversion ability (η = 50.6%) in the NIR-II biowindow. Its excellent PTT antitumor efficiency was fully evidenced by in vitro and in vivo experiments under 1064 nm laser irradiation.Herein, we report a microporous carbon nanomaterial that was generated from a nanoscale covalent organic framework precursor via a simple pyrolysis approach. The obtained carbon-based nanoparticles possessed a broad NIR absorption capacity and exhibited a high level of photothermal conversion ability (η = 50.6%) in the NIR-II biowindow. Its excellent PTT antitumor efficiency was fully evidenced by in vitro and in vivo experiments under 1064 nm laser irradiation.
Author Li, Wen-Yan
Zhou, Li-Na
Li, Mengdi
Li, Yan-An
Zhou, Le-Le
Guan, Qun
Qin, Guo-Xin
Dong, Yu-Bin
AuthorAffiliation Chemical Engineering and Materials Science
Key Laboratory of Molecular and Nano Probes
Ministry of Education
Shandong Normal University
Collaborative Innovation Center of Functionalized Probes for Chemical Imaging in Universities of Shandong
College of Chemistry
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Snippet Herein, we report a microporous carbon nanomaterial that was generated from a nanoscale covalent organic framework precursor via a simple pyrolysis approach....
Herein, we report a microporous carbon nanomaterial that was generated from a nanoscale covalent organic framework precursor via a simple pyrolysis approach....
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StartPage 7793
SubjectTerms Animals
Carbon
Carbon - chemistry
chemical compounds
Humans
in vivo studies
irradiation
MCF-7 Cells
Metal-Organic Frameworks - chemistry
Mice
Microscopy, Electron, Scanning
Microscopy, Electron, Transmission
Nanomaterials
Nanoparticles
Nanostructures - chemistry
Photothermal conversion
Photothermal Therapy - methods
photothermotherapy
Porosity
porous media
Powder Diffraction
Pyrolysis
Spectroscopy, Near-Infrared - methods
Theranostic Nanomedicine
Xenograft Model Antitumor Assays
Title A carbon nanomaterial derived from a nanoscale covalent organic framework for photothermal therapy in the NIR-II biowindow
URI https://www.ncbi.nlm.nih.gov/pubmed/32555850
https://www.proquest.com/docview/2423535187
https://www.proquest.com/docview/2415288546
https://www.proquest.com/docview/2985624618
Volume 56
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