一种超坚固和结晶的可还原氢键有机骨架，用于协同化学-光动力疗法。

An Ultra-Robust and Crystalline Redeemable Hydrogen-Bonded Organic Framework for Synergistic Chemo-Photodynamic Therapy.

机构信息

State Key Laboratory of Structural Chemistry, Fujian Institute of Research on the Structure of Matter, Chinese Academy of Sciences, Fujian Fuzhou, 350002, P. R. China.

Department of Chemistry, University of Science and Technology of China, Anhui Hefei, 230026, P. R. China.

出版信息

Angew Chem Int Ed Engl. 2018 Jun 25;57(26):7691-7696. doi: 10.1002/anie.201800354. Epub 2018 Jun 6.

DOI:10.1002/anie.201800354

PMID:29696754

Abstract

The low structural stability of hydrogen-bonded organic frameworks (HOFs) is a thorny issue retarding the development of HOFs. A rational design approach is now proposed for construction of a stable HOF. The resultant HOF (PFC-1) exhibits high surface area of 2122 m g and excellent chemical stability (intact in concentrated HCl for at least 117 days). A new method of acid-assisted crystalline redemption is used to readily cure the thermal damage to PFC-1. With periodic integration of photoactive pyrene in the robust framework, PFC-1 can efficiently encapsulate Doxorubicin (Doxo) for synergistic chemo-photodynamic therapy, showing comparable therapeutic efficacy with the commercial Doxo yet considerably lower cytotoxicity. This work demonstrates the notorious stability issue of HOFs can be properly addressed through rational design, paving a way to develop robust HOFs and offering promising application perspectives.

摘要

氢键有机骨架（HOFs）的结构稳定性低是阻碍其发展的一个难题。现在提出了一种合理的设计方法来构建稳定的 HOF。所得到的 HOF（PFC-1）具有 2122 m 2/g 的高表面积和优异的化学稳定性（在浓度至少为 117 天的浓 HCl 中完整无损）。使用酸辅助结晶赎回的新方法可以轻易地修复 PFC-1 的热损伤。通过在坚固的框架中周期性地整合光活性苝，PFC-1 可以有效地封装阿霉素（Doxo）以进行协同化学-光动力治疗，显示出与商业 Doxo 相当的治疗效果，但细胞毒性要低得多。这项工作表明，通过合理的设计可以妥善解决 HOFs 的稳定性问题，为开发坚固的 HOFs 铺平了道路，并提供了有前途的应用前景。

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一种超坚固和结晶的可还原氢键有机骨架，用于协同化学-光动力疗法。

An Ultra-Robust and Crystalline Redeemable Hydrogen-Bonded Organic Framework for Synergistic Chemo-Photodynamic Therapy.

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