Ditsche-Kuru P., Koop J.H.E. & Gorb S.N. (2010): Underwater attachment in current: The role of setose attachment structures on the gills of the mayfly larvae Epeorus assimilis (Ephemeroptera, Heptageniidae). The Journal of Experimental Biology, in press.
Koch K, Bhushan B, Barthlott W (2010) Functional plant surfaces, smart materials. In Handbook of Nanotechnology, ed. Bhushan B, 3rd Ed. Springer, Heidelberg,Germany.
Ditsche-Kuru, P. and Koop, J.H.E. (2009): New insights into a life in current: Do the gill lamellae of Epeorus assimilis and Iron apicola larvae (Ephemeroptera: Heptageniidae) function as a sucker or as friction pads? Aquatic Insects, 31 (1), 495-506.
Mewes, D., Gorb, S., Koop, J. & Ditsche-Kuru. P., (2009): Antifouling im Süßwasser: Möglichkeiten der Reduktion des Bewuchses mit Dreissena plymorpha durch Einsatz strukturierter Oberflächen. In: Erweiterte Zusammenfassung der DGL-Jahrestagung 2009, Oldenburg
Koch K., Blecher IC., König G., Kehraus S., Barthlott W.,(2009), The superhydrophilic andsuperoleophilic leaf surface of Ruellia devosiana (Acanthaceae): a biological model for spreading of water and oil on surfaces. Functional Plant Biology 36, 339-350
Bhushan B., Jung Y.C., Koch K., (2009), Self-cleaning efficiency of Artificial Superhydrophobic Surfaces. Langmuir 25, 3240-3248.
Schulte AJ, Koch K, Spaeth M, Barthlott W (2009), Biomimetic replicas: transfer of complex architectures and optical properties from plant surfaces into technical materials. Acta Biomateriallia. doi:10.1016/j.actbio.2009.01.028
Koch K, Barthlott W (2009), Superhydrophobic and Superhydrophilic Plant Surfaces: An Inspiration for Biomimetics. Phil Trans of the Royal Society A, special issue Biomimetics I: functional biosurfaces 367, 1487-1509, doi: 10.1098/rsta.2009.0022
Koch K., Bhushan B., Barthlott W., (2009): Multifunctional Surface Structures of Plants and their Occurrence in Various Environments: An Inspiration for Biomimetics. Invited Review – Progress in Materials Science 54,137-178, doi 10.1016/j.pmatsci2008.07.003
Koch K., Bhushan B., Jung Y.C. & Barthlott W. (2009): Fabrication of artificial Lotus leaves and significance of hierarchical structure for superhydrophobicity and low adhesion. Soft Matter, 5,1386-1393, DOI: 10.1039/b818940d
Koch K, Bhushan B., Barthlott W. (2008), Diversity of Structure, Morphology and Wetting of Plant Surfaces. Soft Matter, 4, 1943-1963. Doi 10.1039/b804854a
Koch K, Schulte AJ, Fischer A, Gorb S, Barthlott W (2008), A fast, precise and low cost replication technique for nano- and high aspect ratio structures of biological and artifical surfaces, Bioinspiration and Biomimetics 3, 046002 doi:10.1088/1748-3182/3/4/046002
Koch K., Ensikat HJ (2008), The hydrophobic coatings of plant surfaces: epicuticular wax crystals and their morphologies, crystallinity and molecular self-assembly. Micron, 39, 759-772 Doi: 10.1016/j.micron 2007.11.010
Bhushan B., Koch K., Jung Y.C. (2008), Biomimetic Hierarchical Structure for Self-Cleaning, Applied Physics Letters and materials 93, 0931
Mockenhaupt B., Ensikat H.J., Spaeth M., Barthlott W. (2008), Superhydrophobicity of Biological and Technical Surfaces under Moisture Condensation: Stability in Relation to Surface Structure. Langmuir 24, 13591-13597
Forbes P., (2008), “Self-cleaning materials””, Sci Am. 299, 88-96
Solga A., Cerman Z., Striffler B., Spaeth M. & Barthlott W. (2007), Erfindungen der Natur. Bionik – Was wir von Pflanzen und Tieren lernen können. Rowohlt Taschenbuchverlag, 280 S., 2. Aufl.
Koch K., Dommisse A., Barthlott W., Gorb S. (2007), The use of plant waxes as templates for micro- and nanopatterning of surfaces. Acta Biomaterialia, 3, 905-909. DOI:.1016/j.actbio.2007.05.013
Koch K., Dommisse A., Barthott W. (2006), Chemistry and crystal growth of plant wax tubules of Lotus (Nelumbo nucifera) and Nasturtium (Tropaeolum majus) leaves on technical substrates. Crystal Growth and Design 6, 2571-2578. DOI: dx.doi.org/10.1021/cg060035w
Barthlott W., & Cerman Z., (2006), Biologische Oberflächen und ihr technisches Potenzial. In: Blüchel, K.G. & Malik F. (Hrsg.): Faszination Bionik. Die Intelligenz der Schöpfung. Bionik Media GmbH, Münschen S. 380-391
Koch K., Barthlott W., Koch S., Hommes A., Wandelt K., Mamdouh W., De-Feyter S., Broekmann P. (2006), Structural analysis of wheat wax (Triticum aestivum): from the molecular level to three dimensional crystals. Planta 223, 258-270. DOI: 10.1007/s00425-005-0081-3
Ensikat HJ., Boese M., Mader W., Barthlott W., Koch K. (2006), Crystallinity of plant epicuticular waxes: Electron and X-ray diffraction studies. Chem Phys Lipids, 144, 45-59. DOI: 10.1016/j.chemphyslip.2006.06.016
Bargel H., Koch K., Cerman Z., Neinhuis C. (2006), Structure-function relationships of the plant cuticle and cuticular waxes – a smart material? Functional Plant Biology, Evans Review No 3:893-910.
Riederer M., Müller C. (2006), Biology of the plant cuticle, Blackwell, Oxford Pub, Uk
Fürstner R., Barthlott W., Neinhuis C. & Walzel P. (2005): Wettting and self-cleaning properties of artificial superhydrophobic surfaces. Langmuir 21(3), 956-961
Forbes P. (2005) The Gecko´s Foot, Bio-inspiration – Engineering New materials and devices from Nature, London: Forth Estate,p.272 ISBN 0-00-717990-1
Koch K., Neinhuis C., Ensikat HJ., Barthlott W.(2004), Self assembly of epicuticular waxes on plant surfaces investigated by Atomic Force Microscopy (AFM). Journal of Experimental Botany 55, 711-718. DOI:10.1093/jxb/erh077
Bohn H.F and Federle W.(2004), Insect aquaplaning: Nepenthes pitcher plants capture prey with the peristome, a fully wettable water-lubricated anisotropic surface. Proceedings of the National Acedemy of Sciences USA 101(39), 14138-14143
Wagner P., Fürstner R., Barthlott W., et.al.(2003): Quantitative assessment to the structural basis of water repellency in natural and technical surfaces. Journal of Experimental Botany 54 (385), 1295-1303
Nieder J., Cerman Z., & Barthlott W. (2003): Der Lotus-Effekt-Physikalische Grundlage, biologische Bedeutung und technische Möglichkeiten. In: Praxis der Naturwissenschaften, Biologie in der Schule, Aulis Verlag Deubner, Köln und Leipzig 52(5), 8-10
Quere D. & Aussillous (2002), Non-stick droplets. Chemical engineering & technology 25(9):925-928
Neinhuis C., Koch K. & Barthlott W. (2001): Movement and regeneration of waxes through plant cuticles. Planta 213, 427-434
Von Bayer H.C. (2000), “The Lotus-Effect”. The Sciences 40, 12-15
Barthlott W., Neinhuis C., Cutler D., et.al. (1998): Classification and terminology of plant epicuticular waxes. Botanical Journal of the Linnean Society 126 (3), 237-260
Barthlott W. & Neinhuis C. (1997): Purity of the sacred Lotus, or escape from contamination in biological surfaces. Planta 202, 1-8
Neinhuis C., Barthlott W. (1997): Characterization and distribution of water-repellent self-cleaning plant surfaces. Annals of Botany 79 (6), 667-677
Kerstiens G. (1996), Plant cuticles: an integrated functional approach, Bios Scient Pub, Oxford UK.
Barthlott W., (1990): Scanning electron microscopy of the epidermal surface in plants, in D. Claugher (ed.), Scaning electron microscopy in taxonomy and functional morphology, Clarend. Press, Oxford, pp. 69-94
Barthlott W., & Wollenweber W. (1981): Zur Feinstruktur, Chemie und taxonomischen Signifikanz epicuticularer Wachse und ähnlicher Sekrete. Tropische und subtropische Pflanzenwelt 32, 7-67
Barthlott W. & Ehler N. (1977): Raster-Elektronenmikroskopie der Epidermis-Oberflächen von Spermatophyten. Trop.subtrop. Pflanzenwelt 19, Akad.Wiss.Lit.Mainz F. Steiner Verlag, Stuttgart 105
