Berhane Temelso scite author profile

For (H(2)O)(n) where n = 1-10, we used a scheme combining molecular dynamics sampling with high level ab initio calculations to locate the global and many low lying local minima for each cluster. For each isomer, we extrapolated the RI-MP2 energies to their complete basis set limit, included a CCSD(T) correction using a smaller basis set and added finite temperature corrections within the rigid-rotor-harmonic-oscillator (RRHO) model using scaled and unscaled harmonic vibrational frequencies. The vibrational scaling factors were determined specifically for water clusters by comparing harmonic frequencies with VPT2 fundamental frequencies. We find the CCSD(T) correction to the RI-MP2 binding energy to be small (<1%) but still important in determining accurate conformational energies. Anharmonic corrections are found to be non-negligble; they do not alter the energetic ordering of isomers, but they do lower the free energies of formation of the water clusters by as much as 4 kcal/mol at 298.15 K.

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Structures of Cage, Prism, and Book Isomers of Water Hexamer from Broadband Rotational Spectroscopy

Pérez

Muckle

Zaleski

et al. 2012

Science

420

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Theory predicts the water hexamer to be the smallest water cluster with a three-dimensional hydrogen-bonding network as its minimum energy structure. There are several possible low-energy isomers, and calculations with different methods and basis sets assign them different relative stabilities. Previous experimental work has provided evidence for the cage, book, and cyclic isomers, but no experiment has identified multiple coexisting structures. Here, we report that broadband rotational spectroscopy in a pulsed supersonic expansion unambiguously identifies all three isomers; we determined their oxygen framework structures by means of oxygen-18-substituted water (H(2)(18)O). Relative isomer populations at different expansion conditions establish that the cage isomer is the minimum energy structure. Rotational spectra consistent with predicted heptamer and nonamer structures have also been identified.

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Concerted hydrogen-bond breaking by quantum tunneling in the water hexamer prism

Richardson

Pérez

Lobsiger

et al. 2016

Science

312

323

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Citation for published item:ihrdsonD teremy yF nd ¡ erezD grist¡ ol nd vosigerD imon nd eidD edm eF nd emelsoD ferhne nd hieldsD qeorge gF nd uisielD igniew nd lesD hvid tF nd teD frooks rF nd elthorpeD turt gF @PHITA 9gonerted hydrogenEond reking y quntum tunneling in the wter hexmer prismF9D ieneFD QSI @TPUWAF ppF IQIHEIQIQF Further information on publisher's website: Use policyThe full-text may be used and/or reproduced, and given to third parties in any format or medium, without prior permission or charge, for personal research or study, educational, or not-for-prot purposes provided that:• a full bibliographic reference is made to the original source • a link is made to the metadata record in DRO • the full-text is not changed in any way The full-text must not be sold in any format or medium without the formal permission of the copyright holders.Please consult the full DRO policy for further details.

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Accurate Predictions of Water Cluster Formation, (H₂O)_n=2−10

et al. 2010

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An efficient mixed molecular dynamics/quantum mechanics model has been applied to the water cluster system. The use of the MP2 method and correlation consistent basis sets, with appropriate correction for BSSE, allows for the accurate calculation of electronic and free energies for the formation of clusters of 2-10 water molecules. This approach reveals new low energy conformers for (H(2)O)(n=7,9,10). The water heptamer conformers comprise five different structural motifs ranging from a three-dimensional prism to a quasi-planar book structure. A prism-like structure is favored energetically at low temperatures, but a chair-like structure is the global Gibbs free energy minimum past 200 K. The water nonamers exhibit less complexity with all the low energy structures shaped like a prism. The decamer has 30 conformers that are within 2 kcal/mol of the Gibbs free energy minimum structure at 298 K. These structures are categorized into four conformer classes, and a pentagonal prism is the most stable structure from 0 to 320 K. Results can be used as benchmark values for empirical water models and density functionals, and the method can be applied to larger water clusters.

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Broadband Fourier transform rotational spectroscopy for structure determination: The water heptamer

Pérez

Lobsiger

Seifert

et al. 2013

Chemical Physics Letters

231

243

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Over the recent years chirped-pulse, Fourier-transform microwave (CP-FTMW) spectrometers have changed the scope of rotational spectroscopy. The broad frequency and large dynamic range make possible structural determinations in molecular systems of increasingly larger size from measurements of heavy atom (13 C, 15 N, 18 O) isotopes recorded in natural abundance in the same spectrum as that of the parent isotopic species. The design of a broadband spectrometer operating in the 2-8 GHz frequency range with further improvements in sensitivity is presented. The current CP-FTMW spectrometer performance is benchmarked in the analyses of the rotational spectrum of the water heptamer, (H 2 O) 7 , in both 2-8 GHz and 6-18 GHz frequency ranges. Two isomers of the water heptamer have been observed in a pulsed supersonic molecular expansion. High level ab initio structural searches were performed to provide plausible low-energy candidates which were directly compared with accurate structures provided from broadband rotational spectra. The full substitution structure of the most stable species has been obtained through the analysis of all possible singly-substituted isotopologues (H 2 18 O and HDO), and a least-squares r m (1) geometry of the oxygen framework determined from 16 different isotopic species compares with the calculated O-O equilibrium distances at the 0.01 Å level.

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Berhane Temelso

Benchmark Structures and Binding Energies of Small Water Clusters with Anharmonicity Corrections

Structures of Cage, Prism, and Book Isomers of Water Hexamer from Broadband Rotational Spectroscopy

Concerted hydrogen-bond breaking by quantum tunneling in the water hexamer prism

Accurate Predictions of Water Cluster Formation, (H₂O)_n=2−10

Broadband Fourier transform rotational spectroscopy for structure determination: The water heptamer

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About

Berhane Temelso

Benchmark Structures and Binding Energies of Small Water Clusters with Anharmonicity Corrections

Structures of Cage, Prism, and Book Isomers of Water Hexamer from Broadband Rotational Spectroscopy

Concerted hydrogen-bond breaking by quantum tunneling in the water hexamer prism

Accurate Predictions of Water Cluster Formation, (H2O)n=2−10

Broadband Fourier transform rotational spectroscopy for structure determination: The water heptamer

Contact Info

Product

Resources

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Accurate Predictions of Water Cluster Formation, (H₂O)_n=2−10