Henna Ruuska scite author profile

Henna Ruuska

4Publications

78Citation Statements Received

95Citation Statements Given

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102

Affiliations

Tampere University of Applied Sciences, Joensuu Science Park, Uppsala University

Publications

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Cluster Models for Calcite Surfaces: Ab Initio Quantum Chemical Studies

1999

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Cluster models for the calcite (CaCO 3 ) (001) surface were calculated by the ab initio Hartree-Fock method with the purpose of developing a model for studies of local surface reactions such as adsorption. The models were evaluated in terms of their density of states and charge distribution. The termination of a naked cluster model is important, and two methods of stabilizing the models were considered. An array of point charges, a method of stabilizing ionic models, was tested and found to work poorly. An alternative method was then tested in which cluster models of semi-ionic surfaces were stabilized by surrounding the cluster with water molecules. The water molecules around the cluster increased the stability of the model substantially and also made the model more realistic. An estimate for the energy of adsorption of water to the (001) surface of calcite is presented.

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Ab Initio Studies on Nanoscale Friction between Graphite Layers: Effect of Model Size and Level of Theory

2005

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Ab initio methods were used to investigate the nanoscale friction between two graphite layers placed in contact. The interaction energies were calculated for four two-layer models in series, C(6(n+1))2H(6n+1))-C(6)(n)2H(6)(n) with n = 1, 2, 3, and 4, and additionally for C(54)H(18)-C(6)H(6) and C(150)H(30)-C(6)H(6). The study was done with the Hartree-Fock method using basis sets 3-21G and 6-31G and with the second-order Møller-Plesset theory using basis set 6-31G. A density functional method (B3PW91) was also tested for reference purposes. The main interest was how the model size and level of theory affect the nanoscale friction coefficient. Most of the calculated friction coefficients fell within the range of values of 0.07-0.14.

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Ab initio model study on a water molecule between graphite layers

Ruuska

Pakkanen

2003

Carbon

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Surface reactivities of (111), (100), and (110) planes of c-BN: A quantum mechanical approach

Ruuska

Larsson

2007

Diamond and Related Materials

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Henna Ruuska

Cluster Models for Calcite Surfaces: Ab Initio Quantum Chemical Studies

Ab Initio Studies on Nanoscale Friction between Graphite Layers: Effect of Model Size and Level of Theory

Ab initio model study on a water molecule between graphite layers

Surface reactivities of (111), (100), and (110) planes of c-BN: A quantum mechanical approach

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