Preparation and characterization of optically functional hollow sphere hybrid materials by surface-initiated RATRP and "click" chemistry 被引量：5

Preparation and characterization of optically functional hollow sphere hybrid materials by surface-initiated RATRP and "click" chemistry

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摘要 The random copolymers grafted onto the surfaces of SiO2 hollow sphere via reverse atom transfer radical polymerization （RATRP） and ＂click＂ chemistry were investigated. A sufficient amount of peroxides, as initiating moieties, were introduced onto the surface of hollow spheres. Then styrene and 4-vinylbenzyl azide were polymerized via surface-initiated reverse atom transfer radical polymerization （SI-RATRP） using the peroxide group modified hollow sphere as initiator, resulting in hollow spheres （HS） with grafted polystyrene-co-poly（4-vinylbenzyl azide） copolymer brushes as （HS-g-PS-co-PVBA） intermedi- ate material. Subsequently, N-propargyl-carbazole （PC） was covalently bonded to HS-g-PS-co-PVBA by the ＂click＂ reaction, resulting in the HS-g-PS-co-PVBPC hybrid material. The excitation spectrum is dominated by a broad band from 350 nm to 400 nm with the maximum peak at 362 nm, attributed to the characteristic absorption of the carbazole grouD of HS-g-PS-co-PVBPC hybrid material. The random copolymers grafted onto the surfaces of SiO2 hollow sphere via reverse atom transfer radical polymerization （RATRP） and ＂click＂ chemistry were investigated. A sufficient amount of peroxides, as initiating moieties, were introduced onto the surface of hollow spheres. Then styrene and 4-vinylbenzyl azide were polymerized via surface-initiated reverse atom transfer radical polymerization （SI-RATRP） using the peroxide group modified hollow sphere as initiator, resulting in hollow spheres （HS） with grafted polystyrene-co-poly（4-vinylbenzyl azide） copolymer brushes as （HS-g-PS-co-PVBA） intermedi- ate material. Subsequently, N-propargyl-carbazole （PC） was covalently bonded to HS-g-PS-co-PVBA by the ＂click＂ reaction, resulting in the HS-g-PS-co-PVBPC hybrid material. The excitation spectrum is dominated by a broad band from 350 nm to 400 nm with the maximum peak at 362 nm, attributed to the characteristic absorption of the carbazole grouD of HS-g-PS-co-PVBPC hybrid material.

作者 Xin-Hu Lv Li-Ping Wang Guang Li Xue-Xi Gao Pan-Pan Pan Li-Mei Zhang

机构地区 College of Materials Science and Engineering School of Physical Science and Information Technology

出处《Chinese Chemical Letters》 SCIE CAS CSCD 2013年第4期335-337,共3页 中国化学快报（英文版）

基金 the financial support by the Natural Science Foundation of China(No.21203085) Promotive Research Fund for Young and Middle-aged Scientists of Shandong Province(doctor fund)(Nos.BS2011CL011 and BS2012CL009)

关键词 Hollow sphereRATRP＂Click＂ chemistry4-Vinylbenzyl azide Hollow sphereRATRP＂Click＂ chemistry4-Vinylbenzyl azide

分类号 TB33 [一般工业技术—材料科学与工程]

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Chinese Chemical Letters

2013年第4期

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