Multistate and phase change selection in constitutional multivalent systems. Barboiu, M. Topics in current chemistry, 322(June 2011):33–53, January, 2012.
Multistate and phase change selection in constitutional multivalent systems. [link]Paper  doi  abstract   bibtex   
Molecular architectures and materials can be constitutionally self-sorted in the presence of different biomolecular targets or external physical stimuli or chemical effectors, thus responding to an external selection pressure. The high selectivity and specificity of different bioreceptors or self-correlated internal interactions may be used to describe the complex constitutional behaviors through multistate component selection from a dynamic library. The self-selection may result in the dynamic amplification of self-optimized architectures during the phase change process. The sol-gel resolution of dynamic molecular/supramolecular libraries leads to higher self-organized constitutional hybrid materials, in which organic (supramolecular)/inorganic domains are reversibily connected.
@article{Barboiu2012,
	title = {Multistate and phase change selection in constitutional multivalent systems.},
	volume = {322},
	issn = {0340-1022},
	url = {http://www.ncbi.nlm.nih.gov/pubmed/21710378},
	doi = {10.1007/128_2011_196},
	abstract = {Molecular architectures and materials can be constitutionally self-sorted in the presence of different biomolecular targets or external physical stimuli or chemical effectors, thus responding to an external selection pressure. The high selectivity and specificity of different bioreceptors or self-correlated internal interactions may be used to describe the complex constitutional behaviors through multistate component selection from a dynamic library. The self-selection may result in the dynamic amplification of self-optimized architectures during the phase change process. The sol-gel resolution of dynamic molecular/supramolecular libraries leads to higher self-organized constitutional hybrid materials, in which organic (supramolecular)/inorganic domains are reversibily connected.},
	number = {June 2011},
	journal = {Topics in current chemistry},
	author = {Barboiu, Mihail},
	month = jan,
	year = {2012},
	pmid = {21710378},
	keywords = {\#nosource, Carbonic Anhydrase Inhibitors, Carbonic Anhydrase Inhibitors: chemistry, Chemistry, Chemistry: methods, Combinatorial Chemistry Techniques, Phase Transition},
	pages = {33--53},
}
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