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Published November 2, 2009 When crystal formation is purely entropy driven, as is the case for superstructures of nanoparticles with hard-sphere interactions, new simulations that can run at finite temperature are needed. |
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Published July 6, 2009 Materials Science Statistical Mechanics A semi-automated method that incorporates physically realistic assumptions from the start, dramatically improves the efficiency of first principles calculations for describing complex materials. |
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Published June 8, 2009 CuO in thin-film form could be a prototype material for exploring magnetism that is similar to what is found in high-temperature superconductors. |
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Published June 1, 2009 Materials Science Superconductivity Following diamond and silicon, germanium is the third elemental semiconductor to host superconductivity at ambient pressure. |
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Published May 26, 2009 The ability to hole-dope Bi2Se3 is an important step toward exploring the thermoelectric properties of this material. |
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Published May 4, 2009 Materials Science Nonlinear Dynamics Quantum Mechanics Neutron scattering measurements indicate that intrinsic localized modes are found in thermal equilibrium in NaI, a simple ionic crystal. |
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Published March 30, 2009 Materials Science Superconductivity The addition of tellurium helps to grow large single crystals of an iron-based superconductor. |
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Published February 19, 2009 Diamond is famous for its exceptional hardness and structural stability. Researchers are exploring different ways to push these mechanical properties beyond their current limits. |
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