| 論文名 |
A water soluble initiator prepared through host-guest chemical interaction for microfabrication of 3D hydrogels via two-photon polymerization. |
| 著者 |
Jinfeng Xing
Jinhao Liu
Tingbin Zhang
Ling Zhang
Meiling Zheng
Xuanming Duan
|
| キーワード |
|
| 出版年月 |
1970年1月 |
| 発表先 |
J Mater Chem B. 2014 Jul 21;2(27):4318-4323. doi: 10.1039/c4tb00414k. Epub 2014 Jun 6. |
| WEBサイト |
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| 論文概要(和文) |
二光子重合による3Dヒドロゲルの微細加工のためのホスト-ゲスト化学相互作用を通じて調製された水溶性開始剤 |
| 論文概要(英文) |
Hydrogels with a precise 3D configuration (3D hydrogels) are required for a number of biomedical applications such as tissue engineering and drug delivery. Two-photon polymerization (TPP) is an advanced method to fabricate 3D hydrogels. However, TPP of 3D hydrogels has been challenged by the lack of TPP initiators with high efficiency in aqueous medium. In this study, a water soluble TPP initiator (WI) with high fabrication efficiency was prepared by combining hydrophobic 2,7-bis(2-(4-pentaneoxy-phenyl)-vinyl)anthraquinone (N) with a C2v symmetrical structure and 2-hydroxypropyl-β-cyclodextrins through host-guest chemical interaction. Both one and two-photon optical properties of WI have been investigated. In aqueous medium, WI showed a two-photon absorption cross-section of around 200 GM at the wavelength of 780 nm which was much higher compared with those of commercial initiators. The threshold energy of TPP for the resin with WI as a photoinitiator (the molar ratio of N in resin is 0.03%) was 8.6 mW. 3D hydrogels with a woodpile microstructure were further fabricated by using an average power of 9.7 mW and a scanning speed of 30 μm s-1. |
