Kumagai T et al (2008) Direct observation of hydrogen-bond exchange within a single water dimer. Meng S, Wang EG, Gao SW (2004) Water adsorption on metal surfaces: a general picture from density functional theory studies. Michaelides A, Ranea VA, de Andres PL, King DA (2003) General model for water monomer adsorption on close-packed transition and noble metal surfaces. Shimizu TK et al (2008) Surface species formed by the adsorption and dissociation of water molecules on a Ru(0001) surface containing a small coverage of carbon atoms studied by scanning tunneling microscopy. Okuyama H, Hamada I (2011) Hydrogen-bond imaging and engineering with a scanning tunnelling microscope. Kumagai T et al (2009) Tunneling dynamics of a hydroxyl group adsorbed on Cu(110). Motobayashi K, Matsumoto C, Kim Y, Kawai M (2008) Vibrational study of water dimers on Pt(111) using a scanning tunneling microscope. Stroscio JA, Eigler DM (1991) Atomic and molecular manipulation with the scanning tunneling microscope. Nature 446:64–67Įigler DM, Schweizer EK (1990) Positioning single atoms with as a scanning tunneling microscope. Sugimoto Y et al (2007) Chemical identification of individual surface atoms by atomic force microscopy. Phys Rev Lett 82:1724–1727Ĭhiang CL, Xu C, Han ZM, Ho W (2014) Real-space imaging of molecular structure and chemical bonding by single-molecule inelastic tunneling probe. Stipe BC, Rezaei HA, Ho W (1999) Localization of inelastic tunneling and the determination of atomic-scale structure with chemical specificity. Stipe BC, Rezaei MA, Ho W (1998) Single-molecule vibrational spectroscopy and microscopy.
Gross L, Mohn F, Moll N, Liljeroth P, Meyer G (2009) The chemical structure of a molecule resolved by atomic force microscopy. Giessibl FJ (2003) Advances in atomic force microscopy. Repp J, Meyer G, Stojkovic SM, Gourdon A, Joachim C (2005) Molecules on insulating films: scanning-tunneling microscopy imaging of individual molecular orbitals. J Electron Spectrosc Relat Phenom 177:99–129Īndreani C, Colognesi D, Mayers J, Reiter GF, Senesi R (2005) Measurement of momentum distribution of light atoms and molecules in condensed matter systems using inelastic neutron scattering.
Nilsson A et al (2010) X-ray absorption spectroscopy and X-ray Raman scattering of water and ice an experimental view.
Shen YR, Ostroverkhov V (2006) Sum-frequency vibrational spectroscopy on water interfaces: polar orientation of water molecules at interfaces. Chem Rev 110:2174–2216Ĭeriotti M et al (2016) Nuclear quantum effects in water and aqueous systems: experiment, theory, and current challenges. Marx D, Chandra A, Tuckerman ME (2010) Aqueous basic solutions: hydroxide solvation, structural diffusion, and comparison to the hydrated proton. Marx D (2006) Proton transfer 200 years after von Grotthuss: insights from ab initio simulations. Phys Rev Lett 108:193003Įrrea I et al (2016) Quantum hydrogen-bond symmetrization in the superconducting hydrogen sulfide system. Pamuk B et al (2012) Anomalous nuclear quantum effects in ice. Paesani F, Voth GA (2009) The properties of water: insights from quantum simulations. Soper AK, Benmore CJ (2008) Quantum differences between heavy and light water. J Am Chem Soc 138:3145–3151īenoit M, Marx D, Parrinello M (1998) Tunnelling and zero-point motion in high-pressure ice. Maier S, Lechner BAJ, Somorjai GA, Salmeron M (2016) Growth and structure of the first layers of ice on Ru(0001) and Pt(111). Mu RT, Zhao ZJ, Dohnalek Z, Gong JL (2017) Structural motifs of water on metal oxide surfaces. Maier S, Salmeron M (2015) How does water wet a surface? Acc Chem Res 48:2783–2790 J Chem Phys 134:024703Ĭarrasco J, Hodgson A, Michaelides A (2012) A molecular perspective of water at metal interfaces. Kumagai T, Okuyama H, Hatta S, Aruga T, Hamada I (2011) Water clusters on Cu(110): chain versus cyclic structures. Clarendon P., Oxfordįeibelman PJ (2010) The first wetting layer on a solid. Chem Soc Rev 38:253–278Įisenberg DS, Kauzmann W (1969) The structure and properties of water. Kudo A, Miseki Y (2009) Heterogeneous photocatalyst materials for water splitting. Nature 414:625–627Īkiya N, Savage PE (2002) Roles of water for chemical reactions in high-temperature water. Zou Z, Ye J, Sayama K, Arakawa H (2001) Direct splitting of water under visible light irradiation with an oxide semiconductor photocatalyst. Hodgson A, Haq S (2009) Water adsorption and the wetting of metal surfaces.
Verdaguer A, Sacha GM, Bluhm H, Salmeron M (2006) Molecular structure of water at interfaces: wetting at the nanometer scale. Henderson MA (2002) The interaction of water with solid surfaces: fundamental aspects revisited. Thiel PA, Madey TE (1987) The interaction of water with solid surfaces: fundamental aspects.
0 kommentar(er)
