Amorphous and crystalline aerosol particles interacting with water vapor: conceptual framework and experimental evidence for restructuring, phase transitions [...]
Mikhailov, E. ; Vlasenko, S. ; Martin, S. T. ; Koop, Thomas ; Poeschl, U.In: ATMOSPHERIC CHEMISTRY AND PHYSICS, Jg. 9 H. 24, S. 9491-95222009BINARY: an optical freezing array for assessing temperature and time dependence of heterogeneous ice nucleation
Budke, Carsten ; Koop, ThomasIn: Atmospheric Measurement Techniques, Jg. 8 H. 2, S. 689-7032015Boreal pollen contain ice-nucleating as well as ice-binding ‘antifreeze’ polysaccharides
Dreischmeier, Katharina ; Budke, Carsten ; Wiehemeier, Lars ; Kottke, Tilman ; Koop, ThomasIn: Scientific Reports, Jg. 7 H. 12017Competition between water uptake and ice nucleation by glassy organic aerosol particles
Berkemeier, T. ; Shiraiwa, M. ; Poeschl, U. ; Koop, ThomasIn: Atmospheric Chemistry and Physics, Jg. 14 H. 22, S. 12513-125312014A comprehensive laboratory study on the immersion freezing behavior of illite NX particles: a comparison of 17 ice nucleation measurement techniques
Hiranuma, N. ; Augustin-Bauditz, S. ; Bingemer, H. ; Budke, Carsten ; Curtius, J. ; Danielczok, A. ; Diehl, K. ; Dreischmeier, Katharina ; Ebert, M. ; Frank, F. ; Hoffmann, N. ; Kandler, K. ; Kiselev, A. ; Koop, Thomas ; Leisner, T. ; Möhler, O. ; Nillius, B. ; Peckhaus, A. ; Rose, D. ; Weinbruch, S. [...]In: Atmospheric Chemistry and Physics, Jg. 15 H. 5, S. 2489-25182015Depositional ice nucleation onto crystalline hydrated NaCl particles: a new mechanism for ice formation in the troposphere
Wise, M. E. ; Baustian, K. J. ; Koop, Thomas ; Freedman, M. A. ; Jensen, E. J. ; Tolbert, M. A.In: Atmospheric Chemistry and Physics, Jg. 12 H. 2, S. 1121-11342012Do atmospheric aerosols form glasses?
Zobrist, B. ; Marcolli, C. ; Pedernera, D. A. ; Koop, ThomasIn: ATMOSPHERIC CHEMISTRY AND PHYSICS, Jg. 8 H. 17, S. 5221-52442008Effects of atmospheric conditions on ice nucleation activity of Pseudomonas
Attard, E. ; Yang, H. ; Delort, A. -M. ; Amato, P. ; Poeschl, U. ; Glaux, C. ; Koop, Thomas ; Morris, C. E.In: Atmospheric Chemistry And Physics, Jg. 12 H. 22, S. 10667-106772012Homogeneous nucleation of NAD and NAT in liquid stratospheric aerosols: insufficient to explain denitrification
Knopf, D. A. ; Koop, Thomas ; Luo, B. P. ; Weers, U. G. ; Peter, T.In: ATMOSPHERIC CHEMISTRY AND PHYSICS, Jg. 2 H. 3, S. 207-2142002Humidity-dependent phase state of SOA particles from biogenic and anthropogenic precursors
Saukko, E. ; Lambe, A. T. ; Massoli, P. ; Koop, Thomas ; Wright, J. P. ; Croasdale, D. R. ; Pedernera, D. A. ; Onasch, T. B. ; Laaksonen, A. ; Davidovits, P. ; Worsnop, D. R. ; Virtanen, A.In: ATMOSPHERIC CHEMISTRY AND PHYSICS, Jg. 12 H. 16, S. 7517-75292012Ice nucleation by water-soluble macromolecules
Pummer, B. G. ; Budke, Carsten ; Augustin-Bauditz, S. ; Niedermeier, D. ; Felgitsch, L. ; Kampf, C. J. ; Huber, R. G. ; Liedl, K. R. ; Loerting, T. ; Moschen, T. ; Schauperl, M. ; Tollinger, M. ; Morris, C. E. ; Wex, H. ; Grothe, H. ; Pöschl, U. ; Koop, Thomas ; Fröhlich-Nowoisky, J.In: Atmospheric Chemistry and Physics, Jg. 15 H. 8, S. 4077-40912015Influence of surface morphology on the immersion mode ice nucleation efficiency of hematite particles
Hiranuma, N. ; Hoffmann, N. ; Kiselev, A. ; Dreyer, Axel ; Zhang, Kuiwen ; Kulkarni, G. ; Koop, Thomas ; Moehler, O.In: ATMOSPHERIC CHEMISTRY AND PHYSICS, Jg. 14 H. 5, S. 2315-23242014Intercomparing different devices for the investigation of ice nucleating particles using Snomax<sup>®</sup> as test substance
Wex, H. ; Augustin-Bauditz, S. ; Boose, Y. ; Budke, Carsten ; Curtius, J. ; Diehl, K. ; Dreyer, Axel ; Frank, F. ; Hartmann, S. ; Hiranuma, N. ; Jantsch, Evelyn ; Kanji, Z. A. ; Kiselev, A. ; Koop, Thomas ; Möhler, O. ; Niedermeier, D. ; Nillius, B. ; Rösch, M. ; Rose, D. ; Schmidt, C. [...]In: Atmospheric Chemistry and Physics, Jg. 15 H. 3, S. 1463-14852015Kinetic multi-layer model of gas-particle interactions in aerosols and clouds (KM-GAP): linking condensation, evaporation and chemical reactions of organics, [...]
Shiraiwa, M. ; Pfrang, C. ; Koop, Thomas ; Pöschl, U.In: Atmospheric Chemistry and Physics, Jg. 12 H. 5, S. 2777-27942012Kinetic regimes and limiting cases of gas uptake and heterogeneous reactions in atmospheric aerosols and clouds: a general classification scheme
Berkemeier, T. ; Huisman, A. J. ; Ammann, M. ; Shiraiwa, M. ; Koop, Thomas ; Poeschl, U.In: Atmospheric Chemistry And Physics, Jg. 13 H. 14, S. 6663-66862013A novel model to predict the physical state of atmospheric H2SO4/NH3/H2O aerosol particles
Colberg, C. A. ; Luo, B. P. ; Wernli, H. ; Koop, Thomas ; Peter, T.In: ATMOSPHERIC CHEMISTRY AND PHYSICS, Jg. 3 H. 4, S. 909-9242003Oxalic acid as a heterogeneous ice nucleus in the upper troposphere and its indirect aerosol effect
Zobrist, B. ; Marcolli, C. ; Koop, Thomas ; Luo, B. P. ; Murphy, D. M. ; Lohmann, U. ; Zardini, A. A. ; Krieger, U. K. ; Corti, T. ; Cziczo, D. J. ; Fueglistaler, S. ; Hudson, P. K. ; Thomson, D. S. ; Peter, T.In: ATMOSPHERIC CHEMISTRY AND PHYSICS, Jg. 6 H. 10, S. 3115-31292006Physical state of 2-methylbutane-1,2,3,4-tetraol in pure and internally mixed aerosols
Lessmeier, Jörn ; Dette, Hans Peter ; Godt, Adelheid ; Koop, ThomasIn: Atmospheric Chemistry and Physics, Jg. 18 H. 21, S. 15841-158572018A physically constrained classical description of the homogeneous nucleation of ice in water
Koop, Thomas ; Murray, Benjamin J.In: JOURNAL OF CHEMICAL PHYSICS, Jg. 145 H. 212016The role of organic aerosols in homogeneous ice formation
Kärcher, B ; Koop, ThomasIn: ATMOSPHERIC CHEMISTRY AND PHYSICS, Jg. 5 H. 3, S. 703-7142005