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DALIAN UNIVERSITY OF TECHNOLOGY Login 中文
HE Wei

Professor
Supervisor of Doctorate Candidates
Supervisor of Master's Candidates


Gender:Female
Alma Mater:University of Connecticut
Degree:Doctoral Degree
School/Department:School of Chemical Engineering
Discipline:Polymer Materials. Polymer Chemistry and Physics
Business Address:Chemical Engineering Laboratory Complex C-425, West Campus of Dalian University of Technology, No. 2 Linggong Road
Contact Information:wlhe@dlut.edu.cn
E-Mail:wlhe@dlut.edu.cn
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Current position: Home >> Scientific Research >> Paper Publications

Controllable functionalization of hydroxyl-terminated self-assembled monolayers via catalytic oxa-Michael reaction

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Indexed by:期刊论文

Date of Publication:2018-11-01

Journal:BIOINTERPHASES

Included Journals:PubMed、SCIE、Scopus

Volume:13

Issue:6

Page Number:06E407

ISSN No.:1934-8630

Abstract:Traditional strategies for the functionalization of materials displaying hydroxyl groups either require active esterification reagents or involve the nucleophilic attack of the hydroxyl group toward electrophilic groups. The former tends to hydrolyze in aqueous solutions while the latter occurs under harsh conditions. Herein, the authors reported a new method for the functionalization of hydroxyl groups on the surface via catalytic oxa-Michael addition with vinyl sulfones. Using hydroxyl group terminated self-assembled monolayers as a model surface, a series of organocatalysts were screened and triphenylphosphine stood out for the best catalytic activity. The catalytic reaction on the surface was characterized by x-ray photoelectron spectroscopy. The information of reaction kinetics was obtained using static water contact angle measurements. Once conjugated with ligands onto the functionalized surfaces, the multivalence binding of proteins was investigated by quartz crystal microbalance experiments. By varying the reaction conditions, e.g., catalyst types and reaction times, ligands can be anchored with a controllable density, which would be helpful to establish the relationships between ligand density and bioactivity.