@article{KotterRiekertWeyland1983,
  author    = {Kotter, Michael and Riekert, L. and Weyland, F.},
  title     = {Katalytische Abgasreinigung an Nichtedelmetall-Tr{\"a}gerkontakten},
  series = {Verfahrenstechnik : VT ; Informationen f{\"u}r Planung, Bau und Betrieb von Apparaten und Anlagen. 17 (1983)},
  journal   = {Verfahrenstechnik : VT ; Informationen f{\"u}r Planung, Bau und Betrieb von Apparaten und Anlagen. 17 (1983)},
  isbn      = {0049-5948},
  pages     = {607 -- 615},
  year      = {1983},
  language  = {de}
}
@article{Kotter1992,
  author    = {Kotter, Michael},
  title     = {Katalytische Abluftreinigung mit integriertem regenerativem W{\"a}rmetausch},
  series = {Chemie - Ingenieur - Technik. 64 (1992), H. 9},
  journal   = {Chemie - Ingenieur - Technik. 64 (1992), H. 9},
  isbn      = {0009-286X},
  pages     = {848},
  year      = {1992},
  language  = {de}
}
@article{KotterLintzTurek1992,
  author    = {Kotter, Michael and Lintz, Hans-G{\"u}nther and Turek, Thomas},
  title     = {Katalytische Stickoxid-Reduktion in einem rotierenden W{\"a}rme{\"u}bertrager},
  series = {Chemie - Ingenieur - Technik. 64 (1992), H. 5},
  journal   = {Chemie - Ingenieur - Technik. 64 (1992), H. 5},
  isbn      = {0009-286X},
  pages     = {446 -- 448},
  year      = {1992},
  language  = {de}
}
@incollection{ScheerChuSalphatietal.2016,
  author    = {Scheer, Nico and Chu, Xiaoyan and Salphati, Laurent and Zamek-Gliszczynski, Maciej J.},
  title     = {Knockout and humanized animal models to study membrane transporters in drug development},
  series = {Drug Transporters: Volume 1: Role and Importance in ADME and Drug Development},
  booktitle = {Drug Transporters: Volume 1: Role and Importance in ADME and Drug Development},
  editor    = {Nicholls, Glynis},
  publisher = {Royal Society of Chemistry},
  address   = {Cambridge},
  isbn      = {978-1-78262-379-3},
  doi       = {10.1039/9781782623793-00298},
  pages     = {298 -- 332},
  year      = {2016},
  language  = {en}
}
@misc{Jeromin1999,
  author    = {Jeromin, G{\"u}nter Erich},
  title     = {Kohlens{\"a}urediester, deren Herstellung und Verwendung als Riechstoffe und Aromastoffe : Offenlegungsschrift DE19802198A1 ; Offenlegungstag: 29.07.1999},
  publisher = {Deutsches Patent- und Markenamt},
  address   = {M{\"u}nchen},
  pages     = {8 S. : graph. Darst.},
  year      = {1999},
  language  = {de}
}
@article{SchererHoer1997,
  author    = {Scherer, Ulrich W. and H{\"o}r, G.},
  title     = {Kompartimentmodelle zur Quantifizierung des myokardialen Stoffwechsels mit PET / U. W. Scherer, G. H{\"o}r},
  series = {Kardiologische Nuklearmedizin / G. H{\"o}r [Hrsg.]},
  journal   = {Kardiologische Nuklearmedizin / G. H{\"o}r [Hrsg.]},
  publisher = {ecomed},
  address   = {Landsberg},
  isbn      = {3-609-62970-3},
  pages     = {179 -- 189},
  year      = {1997},
  language  = {de}
}
@article{SvaneborgKarimiVarzanehHojdisetal.2018,
  author    = {Svaneborg, Carsten and Karimi-Varzaneh, Hossein Ali and Hojdis, Nils and Fleck, Franz and Everaers, Ralf},
  title     = {Kremer-Grest Models for Universal Properties of Specific Common Polymer Species},
  series = {Soft Condensed Matter},
  journal   = {Soft Condensed Matter},
  number    = {1606.05008},
  year      = {2018},
  abstract  = {The Kremer-Grest (KG) bead-spring model is a near standard in Molecular Dynamic simulations of generic polymer properties. It owes its popularity to its computational efficiency, rather than its ability to represent specific polymer species and conditions. Here we investigate how to adapt the model to match the universal properties of a wide range of chemical polymers species. For this purpose we vary a single parameter originally introduced by Faller and M{\"u}ller-Plathe, the chain stiffness. Examples include polystyrene, polyethylene, polypropylene, cis-polyisoprene, polydimethylsiloxane, polyethyleneoxide and styrene-butadiene rubber. We do this by matching the number of Kuhn segments per chain and the number of Kuhn segments per cubic Kuhn volume for the polymer species and for the Kremer-Grest model. We also derive mapping relations for converting KG model units back to physical units, in particular we obtain the entanglement time for the KG model as function of stiffness allowing for a time mapping. To test these relations, we generate large equilibrated well entangled polymer melts, and measure the entanglement moduli using a static primitive-path analysis of the entangled melt structure as well as by simulations of step-strain deformation of the model melts. The obtained moduli for our model polymer melts are in good agreement with the experimentally expected moduli.},
  language  = {en}
}
@article{EveraersKarimiVarzanehFlecketal.2020,
  author    = {Everaers, Ralf and Karimi-Varzaneh, Hossein Ali and Fleck, Franz and Hojdis, Nils and Svaneborg, Carsten},
  title     = {Kremer-Grest Models for Commodity Polymer Melts: Linking Theory, Experiment, and Simulation at the Kuhn Scale},
  series = {Macromolecules},
  volume    = {53},
  journal   = {Macromolecules},
  number    = {6},
  publisher = {ACS Publications},
  address   = {Washington, DC},
  issn      = {1520-5835},
  doi       = {10.1021/acs.macromol.9b02428},
  pages     = {1901 -- 1916},
  year      = {2020},
  abstract  = {The Kremer-Grest (KG) polymer model is a standard model for studying generic polymer properties in molecular dynamics simulations. It owes its popularity to its simplicity and computational efficiency, rather than its ability to represent specific polymers species and conditions. Here we show that by tuning the chain stiffness it is possible to adapt the KG model to model melts of real polymers. In particular, we provide mapping relations from KG to SI units for a wide range of commodity polymers. The connection between the experimental and the KG melts is made at the Kuhn scale, i.e., at the crossover from the chemistry-specific small scale to the universal large scale behavior. We expect Kuhn scale-mapped KG models to faithfully represent universal properties dominated by the large scale conformational statistics and dynamics of flexible polymers. In particular, we observe very good agreement between entanglement moduli of our KG models and the experimental moduli of the target polymers.},
  language  = {en}
}
@article{Schnitzler2009,
  author    = {Schnitzler, Thomas},
  title     = {Kultivierung der Hybridomazelllinie CF-10H5 (DSMZ ACC477)},
  series = {Application notes / Sartorius stedim biotech},
  journal   = {Application notes / Sartorius stedim biotech},
  publisher = {Sartorius Stedim Biotec},
  address   = {Aubagne},
  year      = {2009},
  language  = {de}
}
@misc{WielandSiegertSpitzetal.2011,
  author    = {Wieland, Susanne and Siegert, Petra and Spitz, Astrid and Maurer, Karl-Heinz and O'Connell, Timothy and Pr{\"u}ser, Inken and Schiedel, Marc-Steffen and Eiting, Thomas and Sendor-M{\"u}ller, Dorota and Bastigkeit, Thorsten and Benda, Konstantin and M{\"u}ller, Sven},
  title     = {Lagerstabiles fl{\"u}ssiges Wasch- oder Reinigungsmittel enthaltend Proteasen [Offenlegungsschrift]},
  publisher = {Deutsches Patent- und Markenamt / Europ{\"a}isches Patentamt / WIPO},
  address   = {M{\"u}nchen / Den Hague / Genf},
  pages     = {1 -- 25},
  year      = {2011},
  language  = {de}
}