Graphene quantum dot based charge-reversal nanomaterial for nucleus-targeted drug delivery and efficiency controllable photodynamic therapy
Graphene quantum dots (GQDs), the new zero‐dimensional carbon nanomaterial, have been demonstrated as a promising material for biomedical applications due to its good biocompatibility and low toxicity. However, the integration of multiple therapeutic approaches into a nanosized platform based on the...
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sg-ntu-dr.10356-1443122023-12-29T06:46:16Z Graphene quantum dot based charge-reversal nanomaterial for nucleus-targeted drug delivery and efficiency controllable photodynamic therapy Ju, Jian Regmi, Sagar Fu, Afu Lim, Sierin Liu, Quan School of Chemical and Biomedical Engineering Engineering::Chemical engineering Charge-reversal Graphene Quantum Dots Graphene quantum dots (GQDs), the new zero‐dimensional carbon nanomaterial, have been demonstrated as a promising material for biomedical applications due to its good biocompatibility and low toxicity. However, the integration of multiple therapeutic approaches into a nanosized platform based on the GQD has not been explored yet to our best knowledge. In this report, we regulate the generation of reactive oxygen species (ROS) when using the GQD as a photosensitizer by varying the doping amount of nitrogen atoms to achieve efficiency controllable photodynamic therapy. On the other hand, charge‐reversal (3‐Aminopropyl) triethoxysilane (APTES) was used to conjugate on the surface of GQD for nucleus targeting drug delivery for the first time. The treatment outcome of produced ROS and nucleus‐targeting drug delivery was investigated by fluorescence imaging. The results demonstrated that the N‐GQD‐DOX‐APTES in dual roles as a drug carrier and photosensitizer could achieve nucleus‐targeting delivery and strong ROS production simultaneously. This approach provides a promising strategy for the development of multifunctional therapy in one nano platform for biomedical applications. Ministry of Education (MOE) Nanyang Technological University Accepted version The authors would like to acknowledge financial support from Tier 2 grants (No. MOE2015-T2-2-112 and MOE2017-T2-2-057) funded by the Ministry of Education in Singapore, NTU-AIT-MUV Programme in Advanced Biomedical Imaging (No. NAM/15004) funded by Nanyang Technological University (NTU), Industry Alignment Fund (Pre-Positioning) (Grant No. H17/01/a0/008 and H1 7/01/ a0/0F9) supported by Biomedical Research Council, Singapore. 2020-10-28T02:52:06Z 2020-10-28T02:52:06Z 2019 Journal Article Ju, J., Regmi, S., Fu, A., Lim, S., & Liu, Q. (2019). Graphene quantum dot based charge-reversal nanomaterial for nucleus-targeted drug delivery and efficiency controllable photodynamic therapy. Journal of Biophotonics, 12(6), e201800367-. doi:10.1002/jbio.201800367 1864-063X https://hdl.handle.net/10356/144312 10.1002/jbio.201800367 30701677 6 12 e201800367 en Journal of Biophotonics This is the accepted version of the following article: Ju, J., Regmi, S., Fu, A., Lim, S., & Liu, Q. (2019). Graphene quantum dot based charge-reversal nanomaterial for nucleus-targeted drug delivery and efficiency controllable photodynamic therapy. Journal of Biophotonics, 12(6), 201800367-. doi:10.1002/jbio.201800367, which has been published in final form at 10.1002/jbio.201800367. This article may be used for non-commercial purposes in accordance with the Wiley Self-Archiving Policy [https://authorservices.wiley.com/authorresources/Journal-Authors/licensing/self-archiving.html]. application/pdf |
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Engineering::Chemical engineering Charge-reversal Graphene Quantum Dots Ju, Jian Regmi, Sagar Fu, Afu Lim, Sierin Liu, Quan Graphene quantum dot based charge-reversal nanomaterial for nucleus-targeted drug delivery and efficiency controllable photodynamic therapy |
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Graphene quantum dots (GQDs), the new zero‐dimensional carbon nanomaterial, have been demonstrated as a promising material for biomedical applications due to its good biocompatibility and low toxicity. However, the integration of multiple therapeutic approaches into a nanosized platform based on the GQD has not been explored yet to our best knowledge. In this report, we regulate the generation of reactive oxygen species (ROS) when using the GQD as a photosensitizer by varying the doping amount of nitrogen atoms to achieve efficiency controllable photodynamic therapy. On the other hand, charge‐reversal (3‐Aminopropyl) triethoxysilane (APTES) was used to conjugate on the surface of GQD for nucleus targeting drug delivery for the first time. The treatment outcome of produced ROS and nucleus‐targeting drug delivery was investigated by fluorescence imaging. The results demonstrated that the N‐GQD‐DOX‐APTES in dual roles as a drug carrier and photosensitizer could achieve nucleus‐targeting delivery and strong ROS production simultaneously. This approach provides a promising strategy for the development of multifunctional therapy in one nano platform for biomedical applications. |
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School of Chemical and Biomedical Engineering |
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School of Chemical and Biomedical Engineering Ju, Jian Regmi, Sagar Fu, Afu Lim, Sierin Liu, Quan |
| format |
Article |
| author |
Ju, Jian Regmi, Sagar Fu, Afu Lim, Sierin Liu, Quan |
| author_sort |
Ju, Jian |
| title |
Graphene quantum dot based charge-reversal nanomaterial for nucleus-targeted drug delivery and efficiency controllable photodynamic therapy |
| title_short |
Graphene quantum dot based charge-reversal nanomaterial for nucleus-targeted drug delivery and efficiency controllable photodynamic therapy |
| title_full |
Graphene quantum dot based charge-reversal nanomaterial for nucleus-targeted drug delivery and efficiency controllable photodynamic therapy |
| title_fullStr |
Graphene quantum dot based charge-reversal nanomaterial for nucleus-targeted drug delivery and efficiency controllable photodynamic therapy |
| title_full_unstemmed |
Graphene quantum dot based charge-reversal nanomaterial for nucleus-targeted drug delivery and efficiency controllable photodynamic therapy |
| title_sort |
graphene quantum dot based charge-reversal nanomaterial for nucleus-targeted drug delivery and efficiency controllable photodynamic therapy |
| publishDate |
2020 |
| url |
https://hdl.handle.net/10356/144312 |
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1787136479225446400 |