Research Group of Thomas Loerting

Publication List

2017   2016   2015   2014   2013   2012   2011   2010   2009   2008   2007   2006   2005   2004   2003   2002   2001   2000   1999   1998   Theses   Non peer reviewed
138.

Supercooled and Glassy Water: metastable liquid(s), amorphous solid(s) and a no-man's land.
Philip Handle, Francesco Sciortino, Thomas Loerting;
Proc. Natl. Acad. Sci. U.S.A. (2017) Accepted for publication.

137.

Formation and Decomposition of CO2-Filled Ice.
Bernhard Massani, Christian Mitterdorfer, Thomas Loerting;
J. Chem. Phys. 147 (2017) 134503.
external link doi:10.1063/1.4996270, PDF-file Article

136.

Balance between hydration enthalpy and entropy is important for ice binding surfaces in Antifreeze Proteins.
Michael Schauperl, Maren Podewitz, Teresa S. Ortner, Franz Waibl, Alexander Thoeny, Thomas Loerting, Klaus R. Liedl;
Sci. Rep. 7 (2017) 11901.
external link doi:10.1038/s41598-017-11982-8, PDF-file Article

135.

Genuine antiplasticizing effect of water on a glass-former drug.
Guadalupe Ruiz, Michela Romanini, Astrid Hauptmann, Thomas Loerting, Evgenyi Shalaev, Josep Lluis Tamarit, Luis Carlos Pardo, Roberto Macovec;
Sci. Rep. 7 (2017) 7470.
external link doi:10.1038/s41598-017-07643-5, PDF-file Article

134.

Relaxation dynamics and transformation kinetics of deeply supercooled water: Temperature, pressure, doping, and proton/deuteron isotope effects.
Sonja Lemke, Philip Handle, Lucie Plaga, Josef N. Stern, Markus Seidl, Violeta Fuentes-Landete, Katrin Amann-Winkel, Karsten Köster, Catalin Gainaru, Thomas Loerting, Roland Böhmer;
J. Chem. Phys. 147 (2017) 034506.
external link doi:10.1063/1.4993790, PDF-file Article

133.

Diffusive dynamics during the high-to-low density transition in amorphous ice.
Fivos Perakis, Katrin Amann-Winkel, Felix Lehmkühler, Michael Sprung, Daniel Pettersson, Jonas A. Sellberg, Harshad Pathak, Alexander Späh, Filippo Cavalca, Daniel Schlesinger, Alessandro Ricci, Avni Jain, Bernhard Massani, Flora Aubree, Chris J. Benmore, Thomas Loerting, Gerhard Grübel, Lars G. M. Pettersson, Anders Nilsson;
Proc. Natl. Acad. Sci. U.S.A. 114 (2017) 8193–8198.
external link doi:10.1073/pnas.1705303114, PDF-file Article

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132.

Crystallisation of the amorphous ices in the intermediate pressure regime.
Josef Stern, Thomas Loerting;
Sci. Rep. 7 (2017) 3995.
external link doi:10.1038/s41598-017-03583-2, PDF-file Article

131.

Carbonic acid monoethyl ester as a pure solid and its conformational isomerism in the gas-phase.
Jürgen Bernard, Eva-Maria Köck, Roland G. Huber, Klaus R. Liedl, Ludwig Call, Robert Schlögl, Hinrich Grothe, Thomas Loerting;
RSC Adv. 7 (2017) 22222–22233.
external link doi:10.1039/c7ra02792c, PDF-file Article

130.

Does the emulsification procedure influence freezing and thawing of aqueous droplets?
Astrid Hauptmann, Karl Handle, Philipp Baloh, Hinrich Grothe, Thomas Loerting;
J. Chem. Phys. 145(21) (2016) 211923.
external link doi:10.1063/1.4965434, PDF-file Article

129.

Doping-enhanced dipolar dynamics in ice V as a precursor of hydrogen ordering in ice XIII.
Karsten W. Köster, Agnes Raidt, Violeta Fuentes-Landete, Catalin Gainaru, Thomas Loerting, Roland Böhmer;
Phys. Rev. B 94 (2016) 184306.
external link doi:10.1103/PhysRevB.94.184306, PDF-file Article

128.

Micro-tomographic investigation of ice and clathrate formation and decomposition under thermodynamic monitoring.
Stefan Arzbacher, Jörg Petrasch, Alexander Ostermann, Thomas Loerting;
Materials 9 (2016) 668.
external link doi:10.3390/ma9080668, PDF-file Article

127.

Water: a Tale of Two Liquids.
Paola Gallo, Katrin Amann-Winkel, Charles Angell, Mikhail Anisimov, Frédéric Chaupin, Charusita Chakravarty, Erik Lascaris, Thomas Loerting, Athanassios Panagiotopoulos, John Russo, Jonas A. Sellberg, Harry E. Stanley, Hajime Tanaka, Carlos Vega De Las Heras, Limei Xu, Lars Pettersson;
Chem. Rev. 116(13) (2016) 7463–7500.
external link doi:10.1021/acs.chemrev.5b00750, PDF-file Article

126.

X-ray and Neutron Scattering of Water.
Katrin Amann-Winkel, Marie-Claire Bellissent-Funel, Livia E. Bove, Thomas Loerting, Anders Nilsson, Alessandro Paciaroni, Daniel Schlesinger, Lawrie Skinner;
Chem. Rev. 116(13) (2016) 7570–7589.
external link doi:10.1021/acs.chemrev.5b00663, PDF-file Article

125.

Ex situ studies of relaxation and crystallization in high-density amorphous ice annealed at 0.1 and 0.2 GPa: Includes response to: “Comment on: ‘Relaxation time of high-density amorphous ice’” by G.P. Johari.
Philip H. Handle, Markus Seidl, Violeta Fuentes-Landete, Thomas Loerting;
Thermochim. Acta 636 (2016) 11–22.
external link doi:10.1016/j.tca.2016.04.012, PDF-file Article

124.

Neutron scattering analysis of water's glass transition and micropore collapse in amorphous solid water.
Catherine R. Hill, Christian Mitterdorfer, Tristan G. A. Youngs, Daniel T. Bowron, Helen J. Fraser, Thomas Loerting;
Phys. Rev. Lett. 116 (2016) 215501.
external link doi:10.1103/PhysRevLett.116.215501, PDF-file Article

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123.

Glass polymorphism in glycerol-water mixtures: I. A computer simulation study.
David A. Jahn, Jessina Wong, Johannes Bachler, Thomas Loerting, Nicolas Giovambattista;
Phys. Chem. Chem. Phys. 18 (2016) 11042–11057.
external link doi:10.1039/C6CP00075D, PDF-file Article

122.

Glass polymorphism in glycerol-water mixtures: II. Experimental studies.
Johannes Bachler, Violeta Fuentes-Landete, David A. Jahn, Jessina Wong, Nicolas Giovambattista, Thomas Loerting;
Phys. Chem. Chem. Phys. 18 (2016) 11058–11068.
external link doi:10.1039/C5CP08069J, PDF-file Article

121.

Dynamics anomaly in high-density amorphous ice between 0.7 and 1.1 GPa.
Philip H. Handle, Thomas Loerting;
Phys. Rev. B 93 (2016) 064204.
external link doi:10.1103/PhysRevB.93.064204, PDF-file Article

120.

Chapter 3: Solids and fluids at low temperatures.
Steve Vance, Matt Kropf, Thomas Loerting, Josef Stern, Baptiste Journaux, Corey Jamieson, Morgan L. Cable;
In: Yoseph Bar-Cohen (Ed.), Low Temperature Materials and Mechanisms Taylor & Francis (2016) 27–54.
external link ISBN: 978-1-4987-0038-2, PDF-file Article

119.

Colloquium: water's controversial glass transitions.
Katrin Amann-Winkel, Roland Böhmer, Franz Fujara, Catalin Gainaru, Burkhard Geil, Thomas Loerting;
Rev. Mod. Phys. 88 (2016) 011002.
external link doi:10.1103/RevModPhys.88.011002, PDF-file Article

118.

Experimental evidence for two distinct deeply supercooled liquid states of water. Response to "Comment on 'Water's second glass transition'", by G. P. Johari, Thermochim. Acta (2015).
Josef Stern, Markus Seidl, Catalin Gainaru, Violeta Fuentes-Landete, Katrin Amann-Winkel, Philip Handle, Karsten W. Köster, Helge Nelson, Roland Böhmer, Thomas Loerting;
Thermochim. Acta 617 (2015) 200–207.
external link doi:10.1016/j.tca.2015.08.030, PDF-file Article

117.

Anomalous behavior of the homogeneous ice nucleation rate in "no-man's land".
Hartawan Laksmono, Trevor A. McQueen, Jonas A. Sellberg, N. Duane Loh, Congcong Huang, Daniel Schlesinger, Raymond G. Sierra, Christina Y. Hampton, Dennis Nordlund, Martin Beye, Andrew V. Martin, Anton Barty, M. Marvin Seibert, Marc Messerschmidt, Garth J. Williams, Sébastien Boutet, Katrin Amann-Winkel, Thomas Loerting, Lars G. M. Pettersson, Michael J. Bogan, Anders Nilsson;
J. Phys. Chem. Lett. 6 (2015) 2826–2832.
external link doi:10.1021/acs.jpclett.5b01164, PDF-file Article, PDF-file Supporting Information

116.

Dynamics enhanced by HCl doping triggers full Pauling entropy release at the ice XII–XIV transition.
Karsten W. Köster, Violeta Fuentes-Landete, Agnes Raidt, Markus Seidl, Catalin Gainaru, Thomas Loerting, Roland Böhmer;
Nat. Commun. 6 (2015) 7349.
external link doi:10.1038/ncomms8349, PDF-file Article

Scientific coverage: external link iPoint – Universität Innsbruck, PDF-file APA-Aussendung

115.

Vibrational study of anharmonicity, supramolecular structure, and hydrogen bonding in two octanol isomers.
Stefan Bauer, Josef Stern, Fabian Böhm, Catalin Gainaru, Martina Havenith, Thomas Loerting, Roland Böhmer;
Vib. Spectrosc. 79 (2015) 59–66.
external link doi:10.1016/j.vibspec.2015.05.001, PDF-file Article

114.

Crystalline and amorphous ices.
Violeta Fuentes-Landete, Christian Mitterdorfer, Philip H. Handle, Guadalupe N. Ruiz, Juergen Bernard, Anatoli Bogdan, Markus Seidl, Katrin Amann-Winkel, Josef Stern, Stephan Fuhrmann, Thomas Loerting;
In: P. G. Debenedetti, M. A. Ricci and F. Bruni (Eds.), Proceedings of the International School of Physics "Enrico Fermi", Volume 187: Water: Fundamentals as the Basis for Understanding the Environment and Promoting Technology. Amsterdam: IOS and Bologna: SIF 2015, 173–208.
external link doi:10.3254/978-1-61499-507-4-173, PDF-file Article

113.

Tomography based numerical simulation of the demagnetizing field in soft magnetic composites.
Stefan Arzbacher, Peter Amann, Bernd Weidenfeller, Thomas Loerting, Alexander Ostermann, Jörg Petrasch;
J. Appl. Phys. 117 (2015) 163905.
external link doi:10.1063/1.4917490, PDF-file Article

112.

Ice nucleation by water-soluble macromolecules.
Bernhard G. Pummer, Carsten Budke, Stefanie Augustin-Bauditz, Dennis Niedermeier, Laura Felgitsch, Christopher J. Kampf, Roland G. Huber, Klaus R. Liedl, Thomas Loerting, Thomas Moschen, Michael Schauperl, Martin Tollinger, Cindy E. Morris, Heike Wex, Hinrich Grothe, Ulrich Pöschl, Thomas Koop, Janine Fröhlich-Nowoisky;
Atmos. Chem. Phys. 15 (2015) 4077–4091.
external link doi:10.5194/acp-15-4077-2015, PDF-file Article, PDF-file Supplement

111.

Shrinking water's no man's land by lifting its low-temperature boundary.
Markus Seidl, Alice Fayter, Josef N. Stern, Gerhard Zifferer, Thomas Loerting;
Phys. Rev. B 91 (2015) 144201.
external link doi:10.1103/PhysRevB.91.144201, PDF-file Article

110.

Temperature induced amorphisation of hexagonal ice.
Philip H. Handle, Thomas Loerting;
Phys. Chem. Chem. Phys. 17 (2015) 5403–5412.
external link doi:10.1039/C4CP05587J, PDF-file Article

109.

Multiple glass transitions and freezing events of aqueous citric acid.
Anatoli Bogdan, Mario J. Molina, Heikki Tenhu, Thomas Loerting;
J. Phys. Chem. A 119 (2015) 4515–4523; Special Issue: Mario Molina Festschrift.
external link doi:10.1021/jp510331h, PDF-file Article

108.

The glass transition in high-density amorphous ice.
Thomas Loerting, Violeta Fuentes-Landete, Philip H. Handle, Markus Seidl, Katrin Amann-Winkel, Catalin Gainaru, Roland Böhmer;
J. Non-Cryst. Solids 407 (2015) 423–430.
external link doi:10.1016/j.jnoncrysol.2014.09.003, PDF-file Article

107.

Visualization of freezing process in situ upon cooling and warming of aqueous solutions.
Anatoli Bogdan, Mario J. Molina, Heikki Tenhu, Erminald Bertel, Natalia Bogdan, Thomas Loerting;
Sci. Rep. 4 (2014) 7414.
external link doi:10.1038/srep07414, PDF-file Article, PDF-file Legends for videos, video file Video 1 (AVI, 5 MB), video file Video 2 (AVI, 2 MB), video file Video 3 (AVI, 2 MB), video file Video 4 (AVI, 7 MB), video file Video 5 (AVI, 2 MB)

106.

Anomalously large isotope effect in the glass transition of water.
Catalin Gainaru, Alexander L. Agapov, Violeta Fuentes-Landete, Katrin Amann-Winkel, Helge Nelson, Karsten W. Köster, Alexander I. Kolesnikov, Vladimir N. Novikov, Ranko Richert, Roland Böhmer, Thomas Loerting, Alexei P. Sokolov;
Proc. Natl. Acad. Sci. U.S.A. 111 (2014) 17402–17407.
external link doi:10.1073/pnas.1411620111, PDF-file Article, PDF-file Supporting Information

Scientific coverage: external link iPoint – Universität Innsbruck

105.

Phase separation during freezing upon warming of aqueous solutions.
Anatoli Bogdan, Thomas Loerting;
J. Chem. Phys. 141 (2014) 18C533.
external link doi:10.1063/1.4898379, PDF-file Article

104.

Ice nucleation by water-soluble macromolecules.
Bernhard G. Pummer, Carsten Budke, Stefanie Augustin-Bauditz, Dennis Niedermeier, Laura Felgitsch, Christopher J. Kampf, Roland G. Huber, Klaus R. Liedl, Thomas Loerting, Thomas Moschen, Michael Schauperl, Martin Tollinger, Cindy E. Morris, Heike Wex, Hinrich Grothe, Ulrich Pöschl, Thomas Koop, Janine Fröhlich-Nowoisky;
Atmos. Chem. Phys. Discuss. 14 (2014) 24273–24309.
external link doi:10.5194/acpd-14-24273-2014, PDF-file Article, PDF-file Article with links, PDF-file Supplement

103.

Pressure-induced transformations in LiCl–H2O at 77 K.
Guadalupe N. Ruiz, Livia E. Bove, Horacio R. Corti, Thomas Loerting;
Phys. Chem. Chem. Phys. 16 (2014) 18553–18562.
external link doi:10.1039/C4CP01786B, PDF-file Article

102.

Small-angle neutron scattering study of micropore collapse in amorphous solid water.
Christian Mitterdorfer, Marion Bauer, Tristan G. A. Youngs, Daniel T. Bowron, Catherine R. Hill, Helen J. Fraser, John L. Finney, Thomas Loerting;
Phys. Chem. Chem. Phys. 16 (2014) 16013–16020.
external link doi:10.1039/C4CP00593G, PDF-file Article, PDF-file Supplementary Information

101.

Proton ordering of cubic ice Ic: spectroscopy and computer simulations.
Philipp Geiger, Christoph Dellago, Markus Macher, Cesare Franchini, Georg Kresse, Jürgen Bernard, Josef N. Stern, Thomas Loerting;
J. Phys. Chem. C 118 (2014) 10989–10997.
external link doi:10.1021/jp500324x, PDF-file Article

100.

Simulation of high-density water: its glass transition for various water models.
Martin Jehser, Markus Seidl, Clemens Rauer, Thomas Loerting, Gerhard Zifferer;
J. Chem. Phys. 140 (2014) 134504.
external link doi:10.1063/1.4869861, PDF-file Article

99.

Cordierite under hydrostatic compression: anomalous elastic behavior as a precursor for a pressure-induced phase transition.
Ronald Miletich, G. Diego Gatta, Thomas Willi, Peter W. Mirwald, Paolo Lotti, Marco Merlini, Nicola Rotiroti, Thomas Loerting;
Am. Mineral. 99 (2014) 479–493.
external link doi:10.2138/am.2014.4487, PDF-file Article

98.

From parallel to single crystallization kinetics in high-density amorphous ice.
Markus Seidl, Katrin Amann-Winkel, Philip H. Handle, Gerhard Zifferer, Thomas Loerting;
Phys. Rev. B 88 (2013) 174105.
external link doi:10.1103/PhysRevB.88.174105, PDF-file Article, PDF-file Supplemental Material

97.

Water's second glass transition.
Katrin Amann-Winkel, Catalin Gainaru, Philip H. Handle, Markus Seidl, Helge Nelson, Roland Böhmer, Thomas Loerting;
Proc. Natl. Acad. Sci. U.S.A. 110 (2013) 17720–17725.
external link doi:10.1073/pnas.1311718110, PDF-file Article

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96.

Comment on "Experimental evidence for excess entropy discontinuities in glass-forming solutions" [J. Chem. Phys. 136, 074515 (2012)].
Anatoli Bogdan, Thomas Loerting;
J. Chem. Phys. 139 (2013) 047101.
external link doi:10.1063/1.4812929, PDF-file Article

95.

Matrix isolation studies of carbonic acid – the vapour phase above the β-polymorph.
Jürgen Bernard, Roland G. Huber, Klaus R. Liedl, Hinrich Grothe, Thomas Loerting;
J. Am. Chem. Soc. 135 (2013) 7732–7737.
external link doi:10.1021/ja4020925, PDF-file Article, PDF-file Supporting Information

94.

Solution coating around ice particles of incipient cirrus clouds.
Anatoli Bogdan, Mario J. Molina, Markku Kulmala, Heikki Tenhu, Thomas Loerting;
Proc. Natl. Acad. Sci. U.S.A. 110 (2013) E2439; Letter to Editor.
external link doi:10.1073/pnas.1304471110, PDF-file Article (Bogdan et al.), PDF-file Reply (Kuhs et al.)

93.

Amorphous ices.
Nicolas Giovambattista, Katrin Amann-Winkel, Thomas Loerting;
In: H. Eugene Stanley (Ed.), Advances in Chemical Physics: Volume 152: Liquid Polymorphism. John Wiley & Sons 2013, 139–173.
external link doi:10.1002/9781118540350.ch7, PDF-file Article

92.

Ultra-slow dynamics in low density amorphous ice revealed by deuteron NMR: indications for a glass transition.
Florian Löw, Katrin Amann-Winkel, Thomas Loerting, Burkhard Geil, Franz Fujara;
Phys. Chem. Chem. Phys. 15 (2013) 9308–9314.
external link doi:10.1039/C3CP50818H, PDF-file Article

91.

Limits of metastability in amorphous ices: 2H-NMR relaxation.
Florian Löw, Katrin Amann-Winkel, Burkhard Geil, Thomas Loerting, Carolin Wittich, Franz Fujara;
Phys. Chem. Chem. Phys. 15 (2013) 576–580.
external link doi:10.1039/C2CP43543H, PDF-file Article

90.

Limits of metastability in amorphous ices: the neutron scattering Debye-Waller factor.
Katrin Amann-Winkel, Florian Löw, Philip H. Handle, Wiebke Knoll, Judith Peters, Burkhard Geil, Franz Fujara, Thomas Loerting;
Phys. Chem. Chem. Phys. 14 (2012) 16386–16391.
external link doi:10.1039/C2CP42797D, PDF-file Article

89.

Formation and stability of bulk carbonic acid (H2CO3) by protonation of tropospheric calcite.
Juergen Bernard, Markus Seidl, Erwin Mayer, Thomas Loerting;
ChemPhysChem 13 (2012) 3087–3091.
external link doi:10.1002/cphc.201200422, PDF-file Article

88.

Relaxation time of high-density amorphous ice.
Philip H. Handle, Markus Seidl, Thomas Loerting;
Phys. Rev. Lett. 108 (2012) 225901.
external link doi:10.1103/PhysRevLett.108.225901, PDF-file Article

Scientific coverage: PDF-file APA-Aussendung, external link iPoint – Universität Innsbruck

87.

Interplay of the glass transition and the liquid-liquid phase transition in water.
Nicolas Giovambattista, Thomas Loerting, Boris R. Lukanov, Francis W. Starr;
Sci. Rep. 2 (2012) 390.
external link doi:10.1038/srep00390, PDF-file Article, PDF-file Supplementary Information

86.

Ferroelectric transition vanishes in (NH4)2SO4 precipitated in small-sized aqueous droplets.
Anatoli Bogdan, Mario J. Molina, Heikki Tenhu, Tuukka Petäjä, Thomas Loerting;
J. Phys. Chem. C 116 (2012) 9372–9377.
external link doi:10.1103/10.1021/jp3024205, PDF-file Article

85.

Local structural order in carbonic acid polymorphs: Raman and FT-IR spectroscopy.
Christian Mitterdorfer, Juergen Bernard, Frederik Klauser, Katrin Winkel, Ingrid Kohl, Klaus R. Liedl, Hinrich Grothe, Erwin Mayer, Thomas Loerting;
J. Raman Spectrosc. 43 (2012) 108–115.
external link doi:10.1002/jrs.3001, PDF-file Article

84.

Note: Molecular dynamics studies of high-density amorphous ice: Influence of long-range Coulomb interactions.
Markus Seidl, Ferenc Karsai, Thomas Loerting, Gerhard Zifferer;
J. Chem. Phys. 136 (2012) 026101.
external link doi:10.1063/1.3676058, PDF-file Article

83.

Clathrate hydrate formation after CO2–H2O vapour deposition.
Christian Mitterdorfer, Marion Bauer, Thomas Loerting;
Phys. Chem. Chem. Phys. 13 (2011) 19765–19772; Special Issue: Physics and Chemistry of Ice and Water.
external link doi:10.1039/C1CP21856E, PDF-file Article

82.

Cryoflotation: densities of amorphous and crystalline ices.
Thomas Loerting, Marion Bauer, Ingrid Kohl, Katrin Watschinger, Katrin Winkel, Erwin Mayer;
J. Phys. Chem. B 115 (2011) 14167–14175; Special Issue: H. Eugene Stanley Festschrift.
external link doi:10.1021/jp204752w, PDF-file Article

81.

Single freezing and triple melting of micrometer-scaled (NH4)2SO4/H2O droplets.
Anatoli Bogdan, Mario J. Molina, Heikki Tenhu, Thomas Loerting;
Phys. Chem. Chem. Phys. 13 (2011) 19704–19706; Special Issue: Physics and Chemistry of Ice and Water.
external link doi:10.1039/C1CP21770D, PDF-file Article

80.

Equilibrated high-density amorphous ice and its first-order transition to the low-density form.
Katrin Winkel, Erwin Mayer, Thomas Loerting;
J. Phys. Chem. B 115 (2011) 14141–14148; Special Issue: H. Eugene Stanley Festschrift.
external link doi:10.1021/jp203985w, PDF-file Article, video file MPEG (18 MB, 01:41 min)

79.

Comment on Y. Yoshimura: "Pressure-induced phase transition of ice in aqueous KOH solution"
Philip H. Handle, Thomas Loerting;
High Pressure Res. 31 (2011) 488–490.
external link doi:10.1080/08957959.2011.602677, PDF-file Article (Handle et al.), PDF-file Reply (Yoshimura)

78.

Impact of substrate, aging, and size on the two freezing events of (NH4)2SO4/H2O droplets.
Anatoli Bogdan, Thomas Loerting;
J. Phys. Chem. C 115 (2011) 10682–10693.
external link doi:10.1021/jp2007396, PDF-file Article

77.

How many amorphous ices are there?
Thomas Loerting, Katrin Winkel, Markus Seidl, Marion Bauer, Christian Mitterdorfer, Philip H. Handle, Christoph G. Salzmann, Erwin Mayer, John L. Finney, Daniel T. Bowron;
Phys. Chem. Chem. Phys. 13 (2011) 8783–8794.
external link doi:10.1039/c0cp02600j, PDF-file Article

76.

Volumetric study consistent with a glass-to-liquid transition in amorphous ices under pressure.
Markus Seidl, Michael S. Elsaesser, Katrin Winkel, Gerhard Zifferer, Erwin Mayer, Thomas Loerting;
Phys. Rev. B 83 (2011) 100201.
external link doi:10.1103/PhysRevB.83.100201, PDF-file Article

75.

Structural study of low concentration LiCl aqueous solutions in the liquid, supercooled, and hyperquenched glassy states.
Katrin Winkel, Markus Seidl, Thomas Loerting, Livia E. Bove, Silvia Imberti, Valeria Molinero, Fabio Bruni, Rosaria Mancinelli, Maria A. Ricci;
J. Chem. Phys. 134 (2011) 024515.
external link doi:10.1063/1.3528000, PDF-file Article

74.

Different freezing behaviour of millimetre- and micrometer-scaled (NH4)2SO4/H2O droplets.
Anatoli Bogdan, Mario J. Molina, Heikki Tenhu, Erwin Mayer, Erminald Bertel, Thomas Loerting;
J. Phys.: Condens. Matter 23 (2011) 035103.
external link doi:10.1088/0953-8984/23/3/035103, PDF-file Article, external link LabTalk-article (research highlight)

73.

Pressure-amorphized cubic structure II clathrate hydrate: crystallization in slow motion.
Marion Bauer, Daniel M. Többens, Erwin Mayer, Thomas Loerting;
Phys. Chem. Chem. Phys. 13 (2011) 2167–2171.
external link doi:10.1039/c0cp01351j, PDF-file Article

72.

Spectroscopic observation of matrix-isolated carbonic acid trapped from the gas phase.
Juergen Bernard, Markus Seidl, Ingrid Kohl, Klaus R. Liedl, Erwin Mayer, Óscar Gálvez, Hinrich Grothe, Thomas Loerting;
Angew. Chem. Int. Ed. 50 (2011) 1939–1943.
external link doi:10.1002/anie.201004729, PDF-file Article, PDF-file Supporting Information, external link Back Cover

Spektroskopische Beobachtung von matrixisolierter Kohlensäure, abgeschieden aus der Gasphase.
Juergen Bernard, Markus Seidl, Ingrid Kohl, Klaus R. Liedl, Erwin Mayer, Óscar Gálvez, Hinrich Grothe, Thomas Loerting;
Angew. Chem. 123 (2011) 1981–1985.
external link doi:10.1002/ange.201004729, PDF-file Article, PDF-file Supporting Information, external link Rücktitelbild

Scientific coverage: external link Science, external link Wiley Presse-Mitteilung, PDF-file APA-Aussendung, external link iPoint – Universität Innsbruck

71.

The many faces of "evidence" for dependent and independent variables in the 'Stewart approach': reply to Lang.
Daniel Doberer, Thomas Loerting, Karl Kirchner, Georg-Christian Funk;
Intensive Care Med 36 (2010) 1626–1627.
external link doi:10.1007/s00134-010-1899-0, PDF-file Article

70.

Aqueous carbonic acid (H2CO3).
Thomas Loerting, Juergen Bernard;
ChemPhysChem 11 (2010) 2305–2309.
external link doi:10.1002/cphc.201000220, PDF-file Article

69.

Formation of mixed-phase particles during freezing of polar stratospheric ice clouds.
Anatoli Bogdan, Mario J. Molina, Heikki Tenhu, Erwin Mayer, Thomas Loerting;
Nat. Chem. 2 (2010) 197–201.
external link doi:10.1038/nchem.540, PDF-file Article

Scientific coverage: external link iPoint – Universität Innsbruck, external link AlphaGalileo

68.

Reversibility and isotope effect of the calorimetric glass → liquid transition of low-density amorphous ice.
Michael S. Elsaesser, Katrin Winkel, Erwin Mayer, Thomas Loerting;
Phys. Chem. Chem. Phys. 12 (2010) 708–712.
external link doi:10.1039/b917662d, PDF-file Article

67.

Hexagonal ice transforms at high pressures and compression rates directly into "doubly metastable" ice phases.
Marion Bauer, Katrin Winkel, Daniel M. Toebbens, Erwin Mayer, Thomas Loerting;
J. Chem. Phys. 131 (2009) 224514.
external link doi:10.1063/1.3271651, PDF-file Article, PDF-file Supporting Information, PDF-file Research Highlight at JCP online

66.

High-density amorphous ice: molecular dynamics simulations of the glass transition at 0.3 GPa.
Markus Seidl, Thomas Loerting, Gerhard Zifferer;
J. Chem. Phys. 131 (2009) 114502.
external link doi:10.1063/1.3224857, PDF-file Article

65.

Molecular dynamics simulations on the glass-to-liquid transition in high density amorphous ice.
Markus Seidl, Thomas Loerting, Gerhard Zifferer;
external link Z. Phys. Chem. 223 (2009) 1047–1062; Special issue dedicated to Prof. Alfons Geiger on the occasion of his 65th birthday.
external link doi:10.1524/zpch.2009.6057, PDF-file Article

64.

Relaxation effects in low density amorphous ice: two distinct structural states observed by neutron diffraction.
Katrin Winkel, Daniel T. Bowron, Thomas Loerting, Erwin Mayer, John L. Finney;
J. Chem. Phys. 130 (2009) 204502.
external link doi:10.1063/1.3139007, PDF-file Article, PDF-file Research Highlight at JCP online, PDF-file JCP Editors' Choice

Relaxation effects in low density amorphous ice: two distinct structural states observed by neutron diffraction.
Katrin Winkel, Daniel T. Bowron, Thomas Loerting, Erwin Mayer, John L. Finney;
Virt. J. Biol. Phys. Res. 17 (2009), June 1.

63.

Raman spectroscopic study of the phase transition of amorphous to crystalline β-carbonic acid.
Ingrid Kohl, Katrin Winkel, Marion Bauer, Klaus R. Liedl, Thomas Loerting, Erwin Mayer;
Angew. Chem. Int. Ed. 48 (2009) 2690–2694.
external link doi:10.1002/anie.200805300, PDF-file Article, PDF-file Supporting Information, external link Frontispiece of Communications articles

Raman-spektroskopische Studie der Phasenumwandlung von amorpher in kristalline β-Kohlensäure.
Ingrid Kohl, Katrin Winkel, Marion Bauer, Klaus R. Liedl, Thomas Loerting, Erwin Mayer;
Angew. Chem. 121 (2009) 2728–2732.
external link doi:10.1002/ange.200805300, PDF-file Article, PDF-file Supporting Information, external link Frontispiz der Zuschriften-Artikel

62.

Multiple amorphous-amorphous transitions.
Thomas Loerting, Vadim V. Brazhkin, Tetsuya Morishita;
In: Stuart A. Rice (Ed.), Advances in Chemical Physics: Volume 143. John Wiley & Sons 2009, 29–82.
external link doi:10.1002/9780470508602.ch2, PDF-file Article

61.

Structural transitions in amorphous H2O and D2O: the effect of temperature.
Katrin Winkel, Marion Bauer, Erwin Mayer, Markus Seidl, Michael S. Elsaesser, Thomas Loerting;
J. Phys.: Condens. Matter 20 (2008) 494212.
external link doi:10.1088/0953-8984/20/49/494212, PDF-file Article

60.

Hydrogen bonding in the perhydrate and hydrates of 1,4-diazabicyclo[2.2.2]octane (DABCO).
Gerhard Laus, Volker Kahlenberg, Klaus Wurst, Thomas Loerting, Herwig Schottenberger;
CrystEngComm 10 (2008) 1638–1644.
external link doi:10.1039/b807303a, PDF-file Article

59.

Compression-rate dependence of the phase transition from hexagonal ice to ice II and/or ice III.
Marion Bauer, Michael S. Elsaesser, Katrin Winkel, Erwin Mayer, Thomas Loerting;
Phys. Rev. B 77 (2008) 220105.
external link doi:10.1103/PhysRevB.77.220105, PDF-file Article

58.

Water polyamorphism: reversibility and (dis)continuity.
Katrin Winkel, Michael S. Elsaesser, Erwin Mayer, Thomas Loerting;
J. Chem. Phys. 128 (2008) 044510.
external link doi:10.1063/1.2830029, PDF-file Article

57.

Die Schmelzkurve von Eis III – Hinweis auf anomales Druckverhalten von Wasser.
Peter W. Mirwald, Thomas Loerting;
Mitt. Öst. Mineralog. Ges. 153 (2007) 79.
PDF-file Article

56.

Chemisorption of hydrogen on the missing-row Pt(110)-(1x2) surface.
M. Minca, S. Penner, T. Loerting, A. Menzel, E. Bertel, R. Zucca, J. Redinger;
Topics in Catalysis 46 (2007) 161–167.
external link doi:10.1007/s11244-007-0326-4, PDF-file Article

55.

N,N'-di(alkyloxy)imidazolium salts: new patent-free ionic liquids and NHC precatalysts.
Gerhard Laus, Alexander Schwaerzler, Philipp Schuster, Gino Bentivoglio, Michael Hummel, Klaus Wurst, Volker Kahlenberg, Thomas Loerting, Johannes Schuetz, Paul Peringer, Günther Bonn, Gerhard Nauer, Herwig Schottenberger;
Z. Naturforsch. B 62 (2007) 295–308.
PDF-file Article

54.

Fluctuations and phase separation in Br/Pt(110).
Enrico Dona, Thomas Loerting, Simon Penner, Mariana Minca, Alexander Menzel, Erminald Bertel, Johannes Schoiswohl, Steven Berkebile, Falko P. Netzer, Rinaldo Zucca, Joser Redinger;
external link Surf. Sci. 601 (2007) 4386–4389.
external link doi:10.1016/j.susc.2007.04.126, PDF-file Article

53.

Fluctuations and phase separation in a quasi-one-dimensional system.
Enrico Dona, Thomas Loerting, Simon Penner, Mariana Minca, Alexander Menzel, Erminald Bertel, Johannes Schoiswohl, Steven Berkebile, Falko P. Netzer, Rinaldo Zucca, Joser Redinger;
Phys. Rev. Lett. 98 (2007) 186101.
external link doi:10.1103/PhysRevLett.98.186101, PDF-file Article

52.

Carbonic acid: from polyamorphism to polymorphism.
Katrin Winkel, Wolfgang Hage, Thomas Loerting, Sarah L. Price, Erwin Mayer;
J. Am. Chem. Soc. 129 (2007) 13863–13871.
external link doi:10.1021/ja073594f, PDF-file Article

51.

Verfahren zur Herstellung von Eis-Kristallen in einem Düsenstrahl; Device and method for machining a solid material using a high pressure water jet.
Thomas Loerting, Erminald Bertel;
Austrian patent pending AT 2006–1066 A 20060623 (2007), PCT patent pending WO 2007-AT307 (2008).

50.

Verfahren zur Herstellung einer Eisfläche für Eissportbahnen; Method for the production of an ice surface for ice rinks.
Thomas Loerting;
Austrian patent AT 2006–1067 A 20060623 (2007), PCT patent pending WO 2007-AT298 (2008).

49.

The interaction of hydrogen chloride with ice surfaces: the effects of grain size, surface roughness, and surface disorder.
Vivian F. McNeill, Thomas Loerting, Franz M. Geiger, Bernhardt L. Trout, Luisa T. Molina, Mario J. Molina;
J. Phys. Chem. A 111 (2007) 6274–6284.
external link doi:10.1021/jp068914g, PDF-file Article

48.

Novel method to detect the volumetric glass → liquid transition at high pressures: glycerol as a test case.
Michael S. Elsaesser, Ingrid Kohl, Erwin Mayer, Thomas Loerting;
J. Phys. Chem. B 111 (2007) 8038–8044.
external link doi:10.1021/jp0708897, PDF-file Article

47.

Isothermal amorphous-amorphous-amorphous transitions in water.
Katrin Winkel, Werner Schustereder, Ingrid Kohl, Christoph G. Salzmann, Erwin Mayer, Thomas Loerting;
In: Werner F. Kuhs (Ed.), Physics and Chemistry of Ice. Cambridge: The Royal Society of Chemistry 2007, 641–648.
PDF-file Article

46.

The local and intermediate range structures of the five amorphous ices at 80 K and ambient pressure: a Faber-Ziman and Bhatia-Thornton analysis.
Daniel T. Bowron, John L. Finney, Ingrid Kohl, Thomas Loerting, Andreas Hallbrucker, Erwin Mayer, Alan K. Soper;
J. Chem. Phys. 125 (2006) 194502.
external link doi:10.1063/1.2378921, PDF-file Article

45.

The relation between high-density and very-high-density amorphous ice.
Thomas Loerting, Christoph G. Salzmann, Katrin Winkel, Erwin Mayer;
Phys. Chem. Chem. Phys. 8 (2006) 2810–2818; invited review & front cover article.
external link doi:10.1039/b603159e, PDF-file Article, PDF-file Cover

44.

Amorphous ice: experiments and numerical simulation.
Thomas Loerting, Nicolas Giovambattista;
J. Phys.: Condens. Matter 18 (2006) R919–R977; invited review.
external link doi:10.1088/0953-8984/18/50/R01, PDF-file Article

43.

Hydrogen chloride-induced surface disordering on ice.
Vivian F. McNeill, Thomas Loerting, Franz M. Geiger, Bernhardt L. Trout, Mario J. Molina;
Proc. Natl. Acad. Sci. U.S.A. 103 (2006) 9422–9427; From the Cover Article.
external link doi:10.1073/pnas.0603494103, PDF-file Article

42.

High density amorphous ice from cubic ice.
Thomas Loerting, Ingrid Kohl, Werner Schustereder, Katrin Winkel, Erwin Mayer;
ChemPhysChem 7 (2006) 1203–1206; front cover article.
external link doi:10.1002/cphc.200600011, PDF-file Article, PDF-file Cover

41.

Modeling the heterogeneous reaction probability for chlorine nitrate hydrolysis on ice.
Thomas Loerting, Andreas F. Voegele, Christofer S. Tautermann, Klaus R. Liedl, Luisa T. Molina, Mario J. Molina;
J. Geophys. Res. (Atmospheres) 111 (2006) D14307.
external link doi:10.1029/2006JD007065, PDF-file Article

40.

Amorphous ice: stepwise formation of very-high-density amorphous ice from low-density amorphous ice at 125 K.
Thomas Loerting, Werner Schustereder, Katrin Winkel, Christoph G. Salzmann, Ingrid Kohl, Erwin Mayer;
Phys. Rev. Lett. 96 (2006) 025702.
external link doi:10.1103/PhysRevLett.96.025702, PDF-file Article

39.

Isobaric annealing of high-density amorphous ice between 0.3 and 1.9 GPa: in situ density values and structural changes.
Christoph G. Salzmann, Thomas Loerting, Stefan Klotz, Peter W. Mirwald, Andreas Hallbrucker, Erwin Mayer;
Phys. Chem. Chem. Phys. 8 (2006) 386–397.
external link doi:10.1039/b510168a, PDF-file Article

38.

Water behaviour: glass transition in hyperquenched water?
Ingrid Kohl, Luis Bachmann, Erwin Mayer, Andreas Hallbrucker, Thomas Loerting;
external link Nature 435 (2005) E1.
external link doi:10.1038/nature03707, PDF-file Article

37.

Liquid-like relaxation in hyperquenched water at < 140 K.
Ingrid Kohl, Luis Bachmann, Erwin Mayer, Andreas Hallbrucker, Thomas Loerting;
Phys. Chem. Chem. Phys. 7 (2005) 3210–3220; front cover article.
external link doi:10.1039/b507651j, PDF-file Article, PDF-file Cover (Cover of the Year)

36.

Correlation in low-dimensional electronic states on metal surfaces.
A. Menzel, Zh. Zhang, M. Minca, T. Loerting, C. Deisl, E. Bertel;
New J. Phys. 7 (2005) 102.
external link doi:10.1088/1367-2630/7/1/102, PDF-file Article

35.

H on Pt(110): an atypical chemisorption site at low coverages.
Z. Zhang, M. Minca, C. Deisl, T. Loerting, A. Menzel, E. Bertel, R. Zucca, J. Redinger;
Phys. Rev. B 70 (2004) 121401.
external link doi:10.1103/PhysRevB.70.121401, PDF-file Article

34.

Sulfurous acid (H2SO3) on Io?
Andreas F. Voegele, Thomas Loerting, Christofer S. Tautermann, Andreas Hallbrucker, Erwin Mayer, Klaus R. Liedl;
external link Icarus 169 (2004) 242–249.
external link doi:10.1016/j.icarus.2003.11.012, PDF-file Article

33.

On the formation of the sulfonate ion from hydrated sulfur dioxide.
Andreas F. Voegele, Christofer S. Tautermann, Christine Rauch, Thomas Loerting, Klaus R. Liedl;
J. Phys. Chem. A 108 (2004) 3859–3864.
external link doi:10.1021/jp0377578, PDF-file Article

32.

Dynamics of DNA: BI and BII phosphate backbone transitions.
Michael Trieb, Christine Rauch, Bernd Wellenzohn, Fajar Wibowo, Thomas Loerting, Klaus R. Liedl;
J. Phys. Chem. B 108 (2004) 2470–2476.
external link doi:10.1021/jp037079p, PDF-file Article

31.

Daunomycin intercalation stabilizes distinct backbone conformations of DNA.
Michael Trieb, Christine Rauch, Bernd Wellenzohn, Fajar Wibowo, Thomas Loerting, Erwin Mayer, Klaus R. Liedl;
J. Biomol. Struct. Dyn. 21 (2004) 713–724.
external link doi:10.1080/07391102.2004.10506961, PDF-file Article

30.

The low-temperature dynamics of recovered ice XII as studied by differential scanning calorimetry: a comparison with ice V.
Christoph G. Salzmann, Ingrid Kohl, Thomas Loerting, Erwin Mayer, Andreas Hallbrucker;
Phys. Chem. Chem. Phys. 5 (2003) 3507–3517.
external link doi:10.1039/b305624d, PDF-file Article

29.

Reactions of HOBr + HCl + nH2O and HOBr + HBr + nH2O.
Andreas F. Voegele, Christofer S. Tautermann, Thomas Loerting, Klaus R. Liedl;
external link Chem. Phys. Lett. 372 (2003) 569–576.
external link doi:10.1016/S0009-2614(03)00447-0, PDF-file Article

28.

Modelling anhydrous and aqua copper(II) amino acid complexes: a new molecular mechanics force field parametrization based on quantum chemical studies and experimental crystal data.
Jasmina Sabolovic, Christofer S. Tautermann, Thomas Loerting, Klaus R. Liedl;
Inorg. Chem. 42 (2003) 2268–2279.
external link doi:10.1021/ic025967d, PDF-file Article

27.

Raman spectroscopic study on hydrogen bonding in recovered Ice IV.
Christoph G. Salzmann, Ingrid Kohl, Thomas Loerting, Erwin Mayer, Andreas Hallbrucker;
J. Phys. Chem. B 107 (2003) 2802–2807.
external link doi:10.1021/jp021534k, PDF-file Article

26.

Pure ices IV and XII from high-density amorphous ice.
Christoph G. Salzmann, Thomas Loerting, Ingrid Kohl, Erwin Mayer, Andreas Hallbrucker;
Can. J. Phys. 81 (2003) 25–32.
external link doi:10.1139/P02-071, PDF-file Article

25.

Extended method for adiabatic mode reordering.
Christofer S. Tautermann, Andreas F. Voegele, Thomas Loerting, Peter Kaps, Klaus R. Liedl;
J. Comput. Chem. 24 (2003) 386–395.
external link doi:10.1002/jcc.10185, PDF-file Article

24.

Toward elimination of discrepancies between theory and experiment: the gas-phase reaction of N2O5 with H2O.
Andreas F. Voegele, Christofer S. Tautermann, Thomas Loerting, Klaus R. Liedl;
Phys. Chem. Chem. Phys. 5 (2003) 487–495.
external link doi:10.1039/b208936j, PDF-file Article

23.

About the stability of sulfurous acid (H2SO3) and its dimer.
Andreas F. Voegele, Christofer S. Tautermann, Thomas Loerting, Andreas Hallbrucker, Erwin Mayer, Klaus R. Liedl;
Chem. Eur. J. 8 (2002) 5644–5651.
external link doi:10.1002/1521-3765(20021216)8:24<5644::AID-CHEM5644>3.0.CO;2-9, PDF-file Article

22.

Structure of a new dense amorphous ice.
John L. Finney, Daniel T. Bowron, Alan K. Soper, Thomas Loerting, Erwin Mayer, Andreas Hallbrucker;
Phys. Rev. Lett. 89 (2002) 205503.
external link doi:10.1103/PhysRevLett.89.205503, PDF-file Article

21.

The structure, modelling and dynamics of 2,7-diisopropoxy-1,8-diarylnaphtalenes.
Carl Thirsk, Geoffrey E. Hawkes, Romano T. Kroemer, Klaus R. Liedl, Thomas Loerting, Rima Nasser, Robin G. Pritchard, Melanie Steele, John E. Warren, Andrew Whiting;
J. Chem. Soc., Perkin Trans. 2 9 (2002) 1510–1519.
external link doi:10.1039/b201235a, PDF-file Article

20.

Reactions of HOCl + HCl + nH2O and HOCl + HBr + nH2O.
Andreas F. Voegele, Christofer S. Tautermann, Thomas Loerting, Klaus R. Liedl;
J. Phys. Chem. A 106 (2002) 7850–7857.
external link doi:10.1021/jp0255583, PDF-file Article

19.

The optimal tunneling path for the proton transfer in malonaldehyde.
Christofer S. Tautermann, Andreas F. Voegele, Thomas Loerting, Klaus R. Liedl;
J. Chem. Phys. 117 (2002) 1962–1966.
external link doi:10.1063/1.1488924, PDF-file Article

18.

An accurate semiclassical method to predict ground-state tunneling splittings.
Christofer S. Tautermann, Andreas F. Voegele, Thomas Loerting, Klaus R. Liedl;
J. Chem. Phys. 117 (2002) 1967–1974.
external link doi:10.1063/1.1488925, PDF-file Article

17.

High-density amorphous ice and its phase transformation to ice XII.
Ingrid Kohl, Thomas Loerting, Christoph Salzmann, Erwin Mayer, Andreas Hallbrucker;
In: V. V. Brazhkin, S. V. Buldyrev, V. N. Ryhzov, H. E. Stanley (Eds.), New Kinds of Phase Transition: Transformation in Disordered Substances. Kluwer Academic Publishers 2002, 325–333.
PDF-file Article

16.

Pure ice IV from high-density amorphous ice.
Christoph G. Salzmann, Thomas Loerting, Ingrid Kohl, Erwin Mayer, Andreas Hallbrucker;
J. Phys. Chem. B 106 (2002) 5587–5590.
external link doi:10.1021/jp014391v, PDF-file Article

15.

(Meta-)stability domain of ice XII revealed between ~158–212 K and ~0.7–1.5 GPa on isobaric heating of high-density amorphous ice.
Thomas Loerting, Ingrid Kohl, Christoph Salzmann, Erwin Mayer, Andreas Hallbrucker;
J. Chem. Phys. 116 (2002) 3171–3174.
external link doi:10.1063/1.1452113, PDF-file Article

14.

The Raman spectrum of ice XII and its relation to that of a new "high-pressure phase of H2O ice".
Christoph Salzmann, Ingrid Kohl, Thomas Loerting, Erwin Mayer, Andreas Hallbrucker;
J. Phys. Chem. B 106 (2002) 1–6.
external link doi:10.1021/jp012755d, PDF-file Article

13.

Towards the experimental decomposition rate of carbonic acid (H2CO3) in aqueous solution.
Christofer S. Tautermann, Andreas F. Voegele, Thomas Loerting, Ingrid Kohl, Andreas Hallbrucker, Erwin Mayer, Klaus R. Liedl;
Chem. Eur. J. 8 (2002) 66–73.
external link doi:10.1002/1521-3765(20020104)8:1<66::AID-CHEM66>3.0.CO;2-F, PDF-file Article

12.

A second distinct structural "state" of high-density amorphous ice at 77 K and 1 bar.
Thomas Loerting, Christoph Salzmann, Ingrid Kohl, Erwin Mayer, Andreas Hallbrucker;
Phys. Chem. Chem. Phys. 3 (2001) 5355–5357.
external link doi:10.1039/b108676f, PDF-file Article

11.

The structure, modelling and dynamics of hindered 5,6-diarylacenaphthenes.
W. Cross, G.E. Hawkes, R.T. Kroemer, Klaus R. Liedl, T. Loerting, R. Nasser, R.G. Pritchard, M. Steele, M. Watkinson, A. Whiting;
J. Chem. Soc., Perk. Trans. 2 8 (2001) 459–467.
external link doi:10.1039/b008788m, PDF-file Article

10.

Water-mediated proton transfer: a mechanistic investigation on the example of the hydration of sulfur oxides.
Thomas Loerting, Klaus R. Liedl;
J. Phys. Chem. A 105 (2001) 5137–5145.
external link doi:10.1021/jp0038862, PDF-file Article

9.

The reaction rate constant of chlorine nitrate hydrolysis.
Thomas Loerting, Klaus R. Liedl;
Chem. Eur. J. 7 (2001) 1662–1669.
external link doi:10.1002/1521-3765(20010417)7:8<1662::AID-CHEM16620>3.0.CO;2-P, PDF-file Article

8.

Prediction of the structure of human Janus kinase 2 (JAK2) comprising the two carboxy-terminal domains reveals a mechanism for autoregulation.
Klaus Lindauer, Thomas Loerting, Klaus R. Liedl, Romano T. Kroemer;
Prot. Eng. 14 (2001) 27–37.
PDF-file Article

7.

Toward elimination of discrepancies between theory and experiment: the rate constant of the atmospheric conversion of SO3 to H2SO4.
Thomas Loerting, Klaus R. Liedl;
Proc. Nat. Acad. Sci. USA 97 (2000) 8874–8878.
external link doi:10.1073/pnas.97.16.8874, PDF-file Article

6.

On the competing hydrations of sulfur dioxide and sulfur trioxide in our atmosphere.
Thomas Loerting, Romano T. Kroemer, Klaus R. Liedl;
Chem. Comm. (2000) 999–1000.
external link doi:10.1039/b002602f, PDF-file Article

5.

On the surprising kinetic stability of carbonic acid (H2CO3).
Thomas Loerting, Christopher Tautermann, Romano T. Kroemer, Ingrid Kohl, Andreas Hallbrucker, Erwin Mayer, Klaus R. Liedl;
Angew. Chem. Int. Ed. 39 (2000) 891–894.
external link doi:10.1002/(SICI)1521-3773(20000303)39:5<891::AID-ANIE891>3.0.CO;2-E, PDF-file Article

Zur überraschenden kinetischen Stabilität von Kohlensäure (H2CO3).
Thomas Loerting, Christopher Tautermann, Romano T. Kroemer, Ingrid Kohl, Andreas Hallbrucker, Erwin Mayer, Klaus R. Liedl;
Angew. Chem. 112 (2000) 919–922.
external link doi:10.1002/(SICI)1521-3757(20000303)112:5<919::AID-ANGE919>3.0.CO;2-Y, PDF-file Article

Scientific coverage: external link Science, external link Wiley Press Release

4.

Temperature-dependent ways of proton transfer – a benchmark study on cyclic HF oligomers.
Thomas Loerting, Klaus R. Liedl;
J. Phys. Chem. A 103 (1999) 9022–9028.
external link doi:10.1021/jp9914774, PDF-file Article

3.

Toward elimination of discrepancies between theory and experiment: double proton transfer in dimers of carboxylic acids.
Thomas Loerting, Klaus R. Liedl;
J. Am. Chem. Soc. 120 (1998) 12595–12600.
external link doi:10.1021/ja9817390, PDF-file Article

2.

Predictions of rate constants and estimates for tunneling splittings of concerted proton transfer in small cyclic water clusters.
Thomas Loerting, Klaus R. Liedl, Bernd M. Rode;
J. Chem. Phys. 109 (1998) 2672–2679.
external link doi:10.1063/1.476866, PDF-file Article

1.

Large curvature tunneling effects reveal concerted hydrogen exchange rates in cyclic hydrogen fluoride clusters comparable to carboxylic acid dimers.
Thomas Loerting, Klaus R. Liedl, Bernd M. Rode;
J. Am. Chem. Soc. 120 (1998) 404–412.
external link doi:10.1021/ja972799t, PDF-file Article

Solid and gaseous carbonic acid.
Dissertation handed in by Jürgen Bernard for the obtainment of the PhD degree at Leopold-Franzens-Universität Innsbruck (2014). PDF-file download (PDF, 8 MB)

Disordered water at low temperatures.
Habilitationsschrift vorgelegt von Thomas Loerting am Institut für Physikalische Chemie an der Leopold-Franzens-Universität Innsbruck (2007).

Kinetics of water mediated proton transfer in the atmosphere.
Dissertation handed in by Thomas Loerting for the obtainment of the PhD degree at Leopold-Franzens-Universität Innsbruck (2000). PDF-file download (PDF, 7 MB)

Beschreibung des konzertierten intramolekularen Austausches von Wasserstoffatomen in zyklischen Molekülen im Zuge der Theorie des aktivierten Komplexes.
Diplomarbeit eingereicht von Thomas Loerting zur Erlangung des Grades eines Magisters der Naturwissenschaften an der Leopold-Franzens-Universität Innsbruck (1997). PDF-file download (PDF, 0.5 MB)

7.

High-performance dilatometry under extreme conditions.
Markus Seidl, Alice Fayter, Josef N. Stern, Katrin Amann-Winkel, Marion Bauer, Thomas Loerting;
In: Proceedings of the 6th Zwick Academia Day 2015. Published by Zwick GmbH & Co. KG, Ulm 2015.
PDF-file Article

6.

Eine Substanz, zwei Flüssigkeiten.
Markus Seidl, Katrin Amann-Winkel, Jürgen Bernard, Thomas Loerting;
Nachr. Chem. 63 (2015) 111–115.
external link doi:10.1002/nadc.201590041, PDF-file Article

5.

Kohlensäure – es gibt sie doch.
Jürgen Bernard, Christian Mitterdorfer, Katrin Winkel, Marion Bauer, Thomas Loerting;
In: Tagungsband der Wissenschaftsenquete des Landes Tirol 2012. Herausgegeben vom Land Tirol, Innsbruck 2014, 87–94.
PDF-file Article

4.

Komplexität und scheinbare Emergenz – Wissenschaftstheoretische Überlegungen in naturwissenschaftlichem Kontext.
Markus Seidl;
In: W. Grießer (Hg.), Reduktionismen – und Antworten der Philosophie. Studien zum System der Philosophie Bd. 9. Königshausen & Neumann, Würzburg 2012, 27–44.

3.

Gefangene Kohlensäure.
Juergen Bernard, Thomas Loerting, Hinrich Grothe;
labor&more 5/11 (2011) 56–59.
PDF-file Article

2.

Preventing or curing climate change?
Thomas Loerting;
Voices on U.S. Science & Technology Policy 02/2003 (2003).
PDF-file Article

1.

Amorphes festes Wasser unter hohem Druck.
Thomas Loerting, Ingrid Kohl, Christoph Salzmann, Erwin Mayer, Andreas Hallbrucker;
Mitteilungsblatt der Österreichischen Physikalischen Gesellschaft 1/03 (2003) 5–6.
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