The reactivity of carboxy-terminated poly(1-vinylpyrrolidin-2-one) (PVP-COOH) 40-mers 1 with various small bi-functionalized molecules has been investigated. A number of new differently functionalized PVP 3-11 have been successfully obtained demonstrating that the presence of the bulky PVP chain did not hamper the reactivity of the carboxy group. This would imply that in solution the carboxyl group is not buried inside the coil, but well exposed to the solvent, as further confirmed by a molecular dynamics conformational study.
Functionalization and molecular dynamics study of carboxy-terminated poly(1-vinylpyrrolidin-2-one) : a potential soluble carrier of biomolecules / C. Baldoli, C. Oldani, S. Maiorana, P. Ferruti, E. Ranucci, M. Bencini, A. Contini. - In: JOURNAL OF POLYMER SCIENCE. PART A, POLYMER CHEMISTRY. - ISSN 0887-624X. - 46:5(2008), pp. 1683-1698.
Functionalization and molecular dynamics study of carboxy-terminated poly(1-vinylpyrrolidin-2-one) : a potential soluble carrier of biomolecules
C. OldaniSecondo
;S. Maiorana;P. Ferruti;E. Ranucci;M. BenciniPenultimo
;A. ContiniUltimo
2008
Abstract
The reactivity of carboxy-terminated poly(1-vinylpyrrolidin-2-one) (PVP-COOH) 40-mers 1 with various small bi-functionalized molecules has been investigated. A number of new differently functionalized PVP 3-11 have been successfully obtained demonstrating that the presence of the bulky PVP chain did not hamper the reactivity of the carboxy group. This would imply that in solution the carboxyl group is not buried inside the coil, but well exposed to the solvent, as further confirmed by a molecular dynamics conformational study.
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