One-Step Synthesis of Nitrogen-Doped Hydrophilic Mesoporous Carbons from Chitosan-Based Triconstituent System for Drug Release

In situ nitrogen-doped hydrophilic mesoporous carbon spheres with different carbon-to-silicon (C/Si) ratios (NMCs- x /3, x = 5, 6, 7, and 8) were prepared by one-step method coupled with a spray drying and carbonizing technique, in which triblock copolymer (F127) and tetraethyl orthosilicate (TEOS)...

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Published in:Nanoscale research letters Vol. 14; no. 1; pp. 259 - 12
Main Authors: Wang, Xianshu, Pan, Hongyan, Lin, Qian, Wu, Hong, Jia, Shuangzhu, Shi, Yongyong
Format: Journal Article
Language:English
Published: New York Springer US 30.07.2019
Springer Nature B.V
SpringerOpen
Subjects:
Adsorption
Biocompatibility
Block copolymers
Carbon
Carbon sources
Carbonization
Chemistry and Materials Science
Chitosan
Contact angle
Drug delivery carrier
Drug delivery systems
Drying
Hydrophilicity
Hydroxycamptothecin
Materials Science
Measuring instruments
Molecular Medicine
Nano Express
Nanochemistry
Nanoscale Science and Technology
Nanotechnology
Nanotechnology and Microengineering
Nitrogen
Nitrogen-doped mesoporous carbon spheres
Pore size
Pore size distribution
Porosity
Silicon
Size distribution
Spray drying
Surface chemistry
Tetraethoxysilane
Tetraethyl orthosilicate
X ray photoelectron spectroscopy
Nitrogen-doped mesoporous carbon spheres
Hydroxycamptothecin
Chitosan
Hydrophilicity
Drug delivery carrier
ISSN:1931-7573, 1556-276X
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Abstract In situ nitrogen-doped hydrophilic mesoporous carbon spheres with different carbon-to-silicon (C/Si) ratios (NMCs- x /3, x = 5, 6, 7, and 8) were prepared by one-step method coupled with a spray drying and carbonizing technique, in which triblock copolymer (F127) and tetraethyl orthosilicate (TEOS) were used as template agents, and biocompatible chitosan (CS) was used as the carbon source and nitrogen source. These carbon materials were characterized by TG, BET, XRD, Raman, FTIR, TEM, XPS, and contact angle measuring device. The adsorption and release properties of mesoporous carbon materials for the poorly soluble antitumor drug hydroxycamptothecin (HCPT) were investigated. Results showed that nanospherical mesoporous carbon materials were successfully prepared with high specific surface area (2061.6 m 2 /g), narrowly pore size distribution (2.01–3.65 nm), and high nitrogen content (4.75–6.04%). Those NMCs- x showed a satisfactory hydrophilicity, which gradually increased with the increasing of surface N content. And the better hydrophilicity of NMCs- x was, the larger adsorption capacity for HCPT. The absorption capacity of NMCs- x towards HCPT was in the following orders: q NMCs-5/3 > q NMCs-6/3 > q NMCs-7/3 > q NMCs-8/3 . NMCs-5/3 had the largest saturated adsorption capacity of HCPT (1013.51 mg g −1 ) and higher dissolution rate (93.75%).
AbstractList In situ nitrogen-doped hydrophilic mesoporous carbon spheres with different carbon-to-silicon (C/Si) ratios (NMCs-x/3, x = 5, 6, 7, and 8) were prepared by one-step method coupled with a spray drying and carbonizing technique, in which triblock copolymer (F127) and tetraethyl orthosilicate (TEOS) were used as template agents, and biocompatible chitosan (CS) was used as the carbon source and nitrogen source. These carbon materials were characterized by TG, BET, XRD, Raman, FTIR, TEM, XPS, and contact angle measuring device. The adsorption and release properties of mesoporous carbon materials for the poorly soluble antitumor drug hydroxycamptothecin (HCPT) were investigated. Results showed that nanospherical mesoporous carbon materials were successfully prepared with high specific surface area (2061.6 m /g), narrowly pore size distribution (2.01-3.65 nm), and high nitrogen content (4.75-6.04%). Those NMCs-x showed a satisfactory hydrophilicity, which gradually increased with the increasing of surface N content. And the better hydrophilicity of NMCs-x was, the larger adsorption capacity for HCPT. The absorption capacity of NMCs-x towards HCPT was in the following orders: q > q > q > q . NMCs-5/3 had the largest saturated adsorption capacity of HCPT (1013.51 mg g ) and higher dissolution rate (93.75%).
In situ nitrogen-doped hydrophilic mesoporous carbon spheres with different carbon-to-silicon (C/Si) ratios (NMCs-x/3, x = 5, 6, 7, and 8) were prepared by one-step method coupled with a spray drying and carbonizing technique, in which triblock copolymer (F127) and tetraethyl orthosilicate (TEOS) were used as template agents, and biocompatible chitosan (CS) was used as the carbon source and nitrogen source. These carbon materials were characterized by TG, BET, XRD, Raman, FTIR, TEM, XPS, and contact angle measuring device. The adsorption and release properties of mesoporous carbon materials for the poorly soluble antitumor drug hydroxycamptothecin (HCPT) were investigated. Results showed that nanospherical mesoporous carbon materials were successfully prepared with high specific surface area (2061.6 m2/g), narrowly pore size distribution (2.01–3.65 nm), and high nitrogen content (4.75–6.04%). Those NMCs-x showed a satisfactory hydrophilicity, which gradually increased with the increasing of surface N content. And the better hydrophilicity of NMCs-x was, the larger adsorption capacity for HCPT. The absorption capacity of NMCs-x towards HCPT was in the following orders: qNMCs-5/3 > qNMCs-6/3 > qNMCs-7/3 > qNMCs-8/3. NMCs-5/3 had the largest saturated adsorption capacity of HCPT (1013.51 mg g−1) and higher dissolution rate (93.75%).
In situ nitrogen-doped hydrophilic mesoporous carbon spheres with different carbon-to-silicon (C/Si) ratios (NMCs-x/3, x = 5, 6, 7, and 8) were prepared by one-step method coupled with a spray drying and carbonizing technique, in which triblock copolymer (F127) and tetraethyl orthosilicate (TEOS) were used as template agents, and biocompatible chitosan (CS) was used as the carbon source and nitrogen source. These carbon materials were characterized by TG, BET, XRD, Raman, FTIR, TEM, XPS, and contact angle measuring device. The adsorption and release properties of mesoporous carbon materials for the poorly soluble antitumor drug hydroxycamptothecin (HCPT) were investigated. Results showed that nanospherical mesoporous carbon materials were successfully prepared with high specific surface area (2061.6 m2/g), narrowly pore size distribution (2.01-3.65 nm), and high nitrogen content (4.75-6.04%). Those NMCs-x showed a satisfactory hydrophilicity, which gradually increased with the increasing of surface N content. And the better hydrophilicity of NMCs-x was, the larger adsorption capacity for HCPT. The absorption capacity of NMCs-x towards HCPT was in the following orders: qNMCs-5/3 > qNMCs-6/3 > qNMCs-7/3 > qNMCs-8/3. NMCs-5/3 had the largest saturated adsorption capacity of HCPT (1013.51 mg g-1) and higher dissolution rate (93.75%).In situ nitrogen-doped hydrophilic mesoporous carbon spheres with different carbon-to-silicon (C/Si) ratios (NMCs-x/3, x = 5, 6, 7, and 8) were prepared by one-step method coupled with a spray drying and carbonizing technique, in which triblock copolymer (F127) and tetraethyl orthosilicate (TEOS) were used as template agents, and biocompatible chitosan (CS) was used as the carbon source and nitrogen source. These carbon materials were characterized by TG, BET, XRD, Raman, FTIR, TEM, XPS, and contact angle measuring device. The adsorption and release properties of mesoporous carbon materials for the poorly soluble antitumor drug hydroxycamptothecin (HCPT) were investigated. Results showed that nanospherical mesoporous carbon materials were successfully prepared with high specific surface area (2061.6 m2/g), narrowly pore size distribution (2.01-3.65 nm), and high nitrogen content (4.75-6.04%). Those NMCs-x showed a satisfactory hydrophilicity, which gradually increased with the increasing of surface N content. And the better hydrophilicity of NMCs-x was, the larger adsorption capacity for HCPT. The absorption capacity of NMCs-x towards HCPT was in the following orders: qNMCs-5/3 > qNMCs-6/3 > qNMCs-7/3 > qNMCs-8/3. NMCs-5/3 had the largest saturated adsorption capacity of HCPT (1013.51 mg g-1) and higher dissolution rate (93.75%).
In situ nitrogen-doped hydrophilic mesoporous carbon spheres with different carbon-to-silicon (C/Si) ratios (NMCs- x /3, x = 5, 6, 7, and 8) were prepared by one-step method coupled with a spray drying and carbonizing technique, in which triblock copolymer (F127) and tetraethyl orthosilicate (TEOS) were used as template agents, and biocompatible chitosan (CS) was used as the carbon source and nitrogen source. These carbon materials were characterized by TG, BET, XRD, Raman, FTIR, TEM, XPS, and contact angle measuring device. The adsorption and release properties of mesoporous carbon materials for the poorly soluble antitumor drug hydroxycamptothecin (HCPT) were investigated. Results showed that nanospherical mesoporous carbon materials were successfully prepared with high specific surface area (2061.6 m 2 /g), narrowly pore size distribution (2.01–3.65 nm), and high nitrogen content (4.75–6.04%). Those NMCs- x showed a satisfactory hydrophilicity, which gradually increased with the increasing of surface N content. And the better hydrophilicity of NMCs- x was, the larger adsorption capacity for HCPT. The absorption capacity of NMCs- x towards HCPT was in the following orders: q NMCs-5/3 > q NMCs-6/3 > q NMCs-7/3 > q NMCs-8/3 . NMCs-5/3 had the largest saturated adsorption capacity of HCPT (1013.51 mg g −1 ) and higher dissolution rate (93.75%).
In situ nitrogen-doped hydrophilic mesoporous carbon spheres with different carbon-to-silicon (C/Si) ratios (NMCs-x/3, x = 5, 6, 7, and 8) were prepared by one-step method coupled with a spray drying and carbonizing technique, in which triblock copolymer (F127) and tetraethyl orthosilicate (TEOS) were used as template agents, and biocompatible chitosan (CS) was used as the carbon source and nitrogen source. These carbon materials were characterized by TG, BET, XRD, Raman, FTIR, TEM, XPS, and contact angle measuring device. The adsorption and release properties of mesoporous carbon materials for the poorly soluble antitumor drug hydroxycamptothecin (HCPT) were investigated. Results showed that nanospherical mesoporous carbon materials were successfully prepared with high specific surface area (2061.6 m2/g), narrowly pore size distribution (2.01–3.65 nm), and high nitrogen content (4.75–6.04%). Those NMCs-x showed a satisfactory hydrophilicity, which gradually increased with the increasing of surface N content. And the better hydrophilicity of NMCs-x was, the larger adsorption capacity for HCPT. The absorption capacity of NMCs-x towards HCPT was in the following orders: qNMCs-5/3> qNMCs-6/3> qNMCs-7/3> qNMCs-8/3. NMCs-5/3 had the largest saturated adsorption capacity of HCPT (1013.51 mg g−1) and higher dissolution rate (93.75%).
Abstract In situ nitrogen-doped hydrophilic mesoporous carbon spheres with different carbon-to-silicon (C/Si) ratios (NMCs-x/3, x = 5, 6, 7, and 8) were prepared by one-step method coupled with a spray drying and carbonizing technique, in which triblock copolymer (F127) and tetraethyl orthosilicate (TEOS) were used as template agents, and biocompatible chitosan (CS) was used as the carbon source and nitrogen source. These carbon materials were characterized by TG, BET, XRD, Raman, FTIR, TEM, XPS, and contact angle measuring device. The adsorption and release properties of mesoporous carbon materials for the poorly soluble antitumor drug hydroxycamptothecin (HCPT) were investigated. Results showed that nanospherical mesoporous carbon materials were successfully prepared with high specific surface area (2061.6 m2/g), narrowly pore size distribution (2.01–3.65 nm), and high nitrogen content (4.75–6.04%). Those NMCs-x showed a satisfactory hydrophilicity, which gradually increased with the increasing of surface N content. And the better hydrophilicity of NMCs-x was, the larger adsorption capacity for HCPT. The absorption capacity of NMCs-x towards HCPT was in the following orders: q NMCs-5/3 > q NMCs-6/3 > q NMCs-7/3 > q NMCs-8/3. NMCs-5/3 had the largest saturated adsorption capacity of HCPT (1013.51 mg g−1) and higher dissolution rate (93.75%).
ArticleNumber 259
Author Shi, Yongyong
Pan, Hongyan
Jia, Shuangzhu
Lin, Qian
Wu, Hong
Wang, Xianshu
Author_xml – sequence: 1
  givenname: Xianshu
  surname: Wang
  fullname: Wang, Xianshu
  organization: School of Chemistry and Chemical Engineering, Guizhou University, Key Laboratory of Green Chemical and Clean Energy Technology, School of Pharmacy, Guizhou University of Traditional Chinese Medicine
– sequence: 2
  givenname: Hongyan
  surname: Pan
  fullname: Pan, Hongyan
  organization: School of Chemistry and Chemical Engineering, Guizhou University, Key Laboratory of Green Chemical and Clean Energy Technology
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  givenname: Qian
  surname: Lin
  fullname: Lin, Qian
  email: celinqianphy@163.com
  organization: School of Chemistry and Chemical Engineering, Guizhou University, Key Laboratory of Green Chemical and Clean Energy Technology
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  givenname: Hong
  surname: Wu
  fullname: Wu, Hong
  organization: School of Chemistry and Chemical Engineering, Guizhou University, Key Laboratory of Green Chemical and Clean Energy Technology
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  givenname: Shuangzhu
  surname: Jia
  fullname: Jia, Shuangzhu
  organization: School of Chemistry and Chemical Engineering, Guizhou University, Key Laboratory of Green Chemical and Clean Energy Technology
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  givenname: Yongyong
  surname: Shi
  fullname: Shi, Yongyong
  organization: School of Chemistry and Chemical Engineering, Guizhou University, Key Laboratory of Green Chemical and Clean Energy Technology
BackLink https://www.ncbi.nlm.nih.gov/pubmed/31363913$$D View this record in MEDLINE/PubMed
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Issue 1
Keywords Nitrogen-doped mesoporous carbon spheres
Hydroxycamptothecin
Chitosan
Hydrophilicity
Drug delivery carrier
Language English
License Open AccessThis article is distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution, and reproduction in any medium, provided you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made.
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Snippet In situ nitrogen-doped hydrophilic mesoporous carbon spheres with different carbon-to-silicon (C/Si) ratios (NMCs- x /3, x = 5, 6, 7, and 8) were prepared by...
In situ nitrogen-doped hydrophilic mesoporous carbon spheres with different carbon-to-silicon (C/Si) ratios (NMCs-x/3, x = 5, 6, 7, and 8) were prepared by...
Abstract In situ nitrogen-doped hydrophilic mesoporous carbon spheres with different carbon-to-silicon (C/Si) ratios (NMCs-x/3, x = 5, 6, 7, and 8) were...
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StartPage 259
SubjectTerms Adsorption
Biocompatibility
Block copolymers
Carbon
Carbon sources
Carbonization
Chemistry and Materials Science
Chitosan
Contact angle
Drug delivery carrier
Drug delivery systems
Drying
Hydrophilicity
Hydroxycamptothecin
Materials Science
Measuring instruments
Molecular Medicine
Nano Express
Nanochemistry
Nanoscale Science and Technology
Nanotechnology
Nanotechnology and Microengineering
Nitrogen
Nitrogen-doped mesoporous carbon spheres
Pore size
Pore size distribution
Porosity
Silicon
Size distribution
Spray drying
Surface chemistry
Tetraethoxysilane
Tetraethyl orthosilicate
X ray photoelectron spectroscopy
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Title One-Step Synthesis of Nitrogen-Doped Hydrophilic Mesoporous Carbons from Chitosan-Based Triconstituent System for Drug Release
URI https://link.springer.com/article/10.1186/s11671-019-3075-y
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