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101.
Bouke P. van Eijck Wijnand T. M. Mooij Jan Kroon 《Journal of computational chemistry》2001,22(8):805-815
A method is described to perform ab initio energy minimization for crystals of flexible molecules. The intramolecular energies and forces are obtained directly from ab initio calculations, whereas the intermolecular contributions follow from a potential that had been parameterized earlier on highly accurate quantum‐chemical calculations. Glycol and glycerol were studied exhaustively as prototypes. Lists of hypothetical crystal structures were generated using an empirical force field, after which ab initio energy minimizations were performed for a few hundreds of these. The experimental crystal structures were found among the structures with lowest energy, provided that sufficiently large basis sets were used. Moreover, their crystal geometries were well reproduced. This approach enables a systematic comparison between the merits of force fields at various levels of sophistication. © 2001 John Wiley & Sons, Inc. J Comput Chem 22: 805–815, 2001 相似文献
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J. Kroon J.A. Kanters J.G.C.M. van Duijneveldt-van De Rijdt F.B. van Duijneveldt J.A. Vliegenthart 《Journal of Molecular Structure》1975,24(1):109-129
196 hydrogen bonds taken from 45 crystal structures of polyalcohols, saccharides and related compounds have been submitted to a statistical analysis. The resulting histograms for some of the geometrical parameters are interpreted as Boltzmann distributions, and force constants are derived from them. The energy of different O-H ·· O configurations is obtained from ab initio SCF calculations on some 40 near-equilibrium geometries of the (H2O)2 dimer. The observed and calculated results led to the following conclusions.(1) Non-linear H bonds occur frequently because of a trivial geometrical factor together with an energetical preference for non-linearity in most nonoptimal geometries.(2) A distinct preference was neither observed nor calculated for hydrogen bonding in the direction of one of the acceptor lone pairs.(3) Nearly all observed O-H ·· O arrangements have a calculated energy that is less than about l kcal mol ?1 above that of the calculated optimum geometry.(4) The range of accessible dimer geometries is largely determined by the classical Coulomb energy. 相似文献
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Charge transport versus recombination in dye-sensitized solar cells employing nanocrystalline TiO2 and SnO2 films 总被引:1,自引:0,他引:1
Green AN Palomares E Haque SA Kroon JM Durrant JR 《The journal of physical chemistry. B》2005,109(25):12525-12533
We report a comparison of charge transport and recombination dynamics in dye-sensitized solar cells (DSSCs) employing nanocrystalline TiO(2) and SnO(2) films and address the impact of these dynamics upon photovoltaic device efficiency. Transient photovoltage studies of electron transport in the metal oxide film are correlated with transient absorption studies of electron recombination with both oxidized sensitizer dyes and the redox couple. For all three processes, the dynamics are observed to be 2-3 orders of magnitude faster for the SnO(2) electrode. The origins of these faster dynamics are addressed by studies correlating the electron recombination dynamics to dye cations with chronoamperometric studies of film electron density. These studies indicate that the faster recombination dynamics for the SnO(2) electrodes result both from a 100-fold higher electron diffusion constant at matched electron densities, consistent with a lower trap density for this metal oxide relative to TiO(2), and from a 300 mV positive shift of the SnO(2) conduction band/trap states density of states relative to TiO(2). The faster recombination to the redox couple results in an increased dark current for DSSCs employing SnO(2) films, limiting the device open-circuit voltage. The faster recombination dynamics to the dye cation result in a significant reduction in the efficiency of regeneration of the dye ground state by the redox couple, as confirmed by transient absorption studies of this reaction, and in a loss of device short-circuit current and fill factor. The importance of this loss pathway was confirmed by nonideal diode equation analyses of device current-voltage data. The addition of MgO blocking layers is shown to be effective at reducing recombination losses to the redox electrolyte but is found to be unable to retard recombination dynamics to the dye cation sufficiently to allow efficient dye regeneration without resulting in concomitant losses of electron injection efficiency. We conclude that such a large acceleration of electron dynamics within the metal oxide films of DSSCs may in general be detrimental to device efficiency due to the limited rate of dye regeneration by the redox couple and discuss the implications of this conclusion for strategies to optimize device performance. 相似文献