Cooperative effects in two-dimensional ring-like networks of three-center hydrogen bonding interactions

Cooperative effects in two-dimensional cyclic networks containing intermolecular three-centered hydrogen bonding interactions of the type H1&#;A&#;H2 are investigated by means of ab intio molecular orbital and density functional theory calculations. Ring-like clusters consisting of three and...

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Main Authors:	Parra, Ruben D., Bulusu, Satya S., Zeng, Xiao Cheng
Format:	Text
Language:	unknown
Published:	DigitalCommons@University of Nebraska - Lincoln 2005
Subjects:	Chemistry Carbonic acid
Online Access:	https://digitalcommons.unl.edu/chemzeng/21 https://digitalcommons.unl.edu/context/chemzeng/article/1020/viewcontent/19_cooperative.pdf

id	ftunivnebraskali:oai:digitalcommons.unl.edu:chemzeng-1020
record_format	openpolar
spelling	ftunivnebraskali:oai:digitalcommons.unl.edu:chemzeng-1020 2023-11-12T04:15:47+01:00 Cooperative effects in two-dimensional ring-like networks of three-center hydrogen bonding interactions Parra, Ruben D. Bulusu, Satya S. Zeng, Xiao Cheng 2005-05-11T07:00:00Z application/pdf https://digitalcommons.unl.edu/chemzeng/21 https://digitalcommons.unl.edu/context/chemzeng/article/1020/viewcontent/19_cooperative.pdf unknown DigitalCommons@University of Nebraska - Lincoln https://digitalcommons.unl.edu/chemzeng/21 https://digitalcommons.unl.edu/context/chemzeng/article/1020/viewcontent/19_cooperative.pdf Xiao Cheng Zeng Publications Chemistry text 2005 ftunivnebraskali 2023-10-30T10:17:56Z Cooperative effects in two-dimensional cyclic networks containing intermolecular three-centered hydrogen bonding interactions of the type H1&#;A&#;H2 are investigated by means of ab intio molecular orbital and density functional theory calculations. Ring-like clusters consisting of three and up to nine monomers of the cis–cis isomer of carbonic acid H2CO3 are used as basic models, where each unit acts simultaneously as a double hydrogen-bond donor and double hydrogen-bond acceptor. Cooperative effects based on binding energies are evident for (H2CO3)n, where n goes from 2 to 9. Thus, the ZPVE-corrected dissociation energy per bifurcated hydrogen bond increases from 11.52 kcal/mol in the dimer to 20.42 kcal/mol in the nonamer, i.e., a 77% cooperative enhancement. Cooperative effects are also manifested in such indicators as geometries, and vibrational frequencies and intensities. The natural bond orbital analysis method is used to rationalize the results in terms of the substantial charge delocalization taking place in the cyclic clusters. Cooperativity seems close to reaching an asymptotic limit in the largest ring considered, n=9. Text Carbonic acid University of Nebraska-Lincoln: DigitalCommons@UNL
institution	Open Polar
collection	University of Nebraska-Lincoln: DigitalCommons@UNL
op_collection_id	ftunivnebraskali
language	unknown
topic	Chemistry
spellingShingle	Chemistry Parra, Ruben D. Bulusu, Satya S. Zeng, Xiao Cheng Cooperative effects in two-dimensional ring-like networks of three-center hydrogen bonding interactions
topic_facet	Chemistry
description	Cooperative effects in two-dimensional cyclic networks containing intermolecular three-centered hydrogen bonding interactions of the type H1&#;A&#;H2 are investigated by means of ab intio molecular orbital and density functional theory calculations. Ring-like clusters consisting of three and up to nine monomers of the cis–cis isomer of carbonic acid H2CO3 are used as basic models, where each unit acts simultaneously as a double hydrogen-bond donor and double hydrogen-bond acceptor. Cooperative effects based on binding energies are evident for (H2CO3)n, where n goes from 2 to 9. Thus, the ZPVE-corrected dissociation energy per bifurcated hydrogen bond increases from 11.52 kcal/mol in the dimer to 20.42 kcal/mol in the nonamer, i.e., a 77% cooperative enhancement. Cooperative effects are also manifested in such indicators as geometries, and vibrational frequencies and intensities. The natural bond orbital analysis method is used to rationalize the results in terms of the substantial charge delocalization taking place in the cyclic clusters. Cooperativity seems close to reaching an asymptotic limit in the largest ring considered, n=9.
format	Text
author	Parra, Ruben D. Bulusu, Satya S. Zeng, Xiao Cheng
author_facet	Parra, Ruben D. Bulusu, Satya S. Zeng, Xiao Cheng
author_sort	Parra, Ruben D.
title	Cooperative effects in two-dimensional ring-like networks of three-center hydrogen bonding interactions
title_short	Cooperative effects in two-dimensional ring-like networks of three-center hydrogen bonding interactions
title_full	Cooperative effects in two-dimensional ring-like networks of three-center hydrogen bonding interactions
title_fullStr	Cooperative effects in two-dimensional ring-like networks of three-center hydrogen bonding interactions
title_full_unstemmed	Cooperative effects in two-dimensional ring-like networks of three-center hydrogen bonding interactions
title_sort	cooperative effects in two-dimensional ring-like networks of three-center hydrogen bonding interactions
publisher	DigitalCommons@University of Nebraska - Lincoln
publishDate	2005
url	https://digitalcommons.unl.edu/chemzeng/21 https://digitalcommons.unl.edu/context/chemzeng/article/1020/viewcontent/19_cooperative.pdf
genre	Carbonic acid
genre_facet	Carbonic acid
op_source	Xiao Cheng Zeng Publications
op_relation	https://digitalcommons.unl.edu/chemzeng/21 https://digitalcommons.unl.edu/context/chemzeng/article/1020/viewcontent/19_cooperative.pdf
_version_	1782333060265541632

Cooperative effects in two-dimensional ring-like networks of three-center hydrogen bonding interactions

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