第36卷第10期
2020年10月无 机 化 学 学 报CHINESE JOURNAL OF INORGANIC CHEMISTRY Vol.36 No. 101934-1940
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李振华袁薇*勺铲
*李富友* (复旦大学化学系,上海 200433)
收稿日期:2020-05-23 o 收修改稿日期:2020-05-31 o
国家重点基础研究发展计划(No.2017YFA0205100)资助项目。
* 通信联系人o E-mail : ***************** , f ************* 摘要:为解决三线态-三线态湮灭上转换发光材料CTTA-UC)生物应用时固载化困难的问题,通过一步细乳液聚合法合成了以 正十六烷为内核,以红光激发的硅猷菁为敏化剂和发光高效的红荧烯为受体,具有优异上转换发光性能的核壳结构纳米胶囊 (TTA-UCNP)o TTA-UCNP 粒径约为190 nm,均一性及分散性良好。体系引入了抗氧化剂D-柠檬烯和聚异丁烯,有效消除了氧 气分子对上转换发光过程的淬灭,保证了上转换发光的稳定性。在动物成像应用中,TTA-UCNP 成功实现了活体层次前哨淋 巴结高信噪比的成像及长时间示踪。spank站点集合营
关键词:上转换发光;生物成像;三线态-三线态湮灭;细乳液聚合法
中图分类号:TB34 文献标识码:A 文章编号:1001-4861(2020)10-1934-07
DOI : 10.11862/CJIC.2020.211
Triple-Triplet Annihilation Upconversion Nanocapsules for in Vivo Bioimaging
LI Zhen-Hua YUAN Wei * LI Fu-You *
塑料染(Department of C hemistry, Fudan University, Shanghai 200433, Chinci)
Abstract: To solve the problem that it is difficult to immobilize triple-triplet annihilation based upconversion (TTA- UC) for biological application, water soluble nanocapsules with n - hexadecane core containing a TTA-UC system were synthesized by a one-step miniemulsion polymerization . In the TTA-UC system, silicon phthalocyanine excited by red light source as sensitizer and rubrene with high efficiency as receptor were introduced into n-hexadecane to endow the nanocapsules with upconversion emission. The TTA-UC nanocapsules (TT-UCNP) have a typical core- shell structure with a uniform size of 190 nm. To eliminate the quenching effect of molecular oxygen on upconver sion luminescence, Z)-limonene and polyis
obutylene were selected as anti-oxidant, and the TTA-UCNP showed bright upconversion emission. The TTA-UCNP have been successfully applied in in vivo imaging of sentinel lymph node (SLN) with high signal-to-noise ratio and long-term tracing.
Keywords : upconverted luminescence; bioimaging; triple-triplet annihilation; miniemulsion polymerization 0引言
光学成像尤其是生物光学成像,因其实时、无 创、宜观、快速等优势,在疾病发病机制研究、早期
诊断等方面发挥着重要作用。但生物光学成像的
应用往往受限于生物组织自身背景噪音的干扰,包 括自发荧光、组织散射反射信号,以及较小的组织
蒸馏水发生器穿透深度等,因此为了达到更好的成像效果,各种 新型材料和成像技术被不断地开发和研究叫如提 高成像探针发光效率,延长信号收集波长至近红外 区(700-900 nm),甚至近红外二区(1 000-1 700 nm)®】。其中备受关注的上转换发光材料具有反斯 托克斯位移的发光过程,即将低能量长波长的光子
转换为高能量短波长的光子,能够有效避免生物组
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