Prof. Dr. Christian Adlhart

Arbeit an der ZHAW

Tätigkeit

Leitung Fachgruppe Funktionsmaterialien und Nanotechnologie

Netzwerk

Mitglied in Netzwerken

• COST Action MP1206 Electrospinning
• Swiss Chemical Society
• COST Action CA15114 Anti-MIcrobial Coating Innovations (AMiCI)

ORCID digital identifier

ORCID ID: 0000-0002-4081-221X

Projekte

• Development of a depth filter for PFAS removal / Projektleiter:in / laufend
• Hin zu mechanisch biokompatiblen Implantatmaterialien zur Behandlung von Beckenbodensenkungen / Teammitglied / laufend
• Targeted Photodynamic Disinfection Therapy (tPDT) for Dental Care Through Local Activation of a Curcumin-PVP Complex / Projektleiter:in / abgeschlossen
• DropZ / Projektleiter:in / abgeschlossen
• Aufbau einer Ligninplattform / Stellv. Projektleiter:in / abgeschlossen
• Active modified surfaces for contained drug release / Stellv. Projektleiter:in / abgeschlossen
• Atem-Aerosol-Sammler für die nicht-invasive Tuberkulose-Diagnose vor Ort / Projektleiter:in / abgeschlossen
• Papierbasierter SERS-Biochip für die Point-of-Care-Diagnostik / Projektleiter:in / abgeschlossen
• Innovative Biomaterialtechnologie zur Entwicklung von kultiviertem Fleisch / Projektleiter:in / abgeschlossen
• Infused Drinking Water from Dropz / Teammitglied / abgeschlossen
• Protective coatings for the extension of the shelf life of foods / Teammitglied / abgeschlossen
• Biobasierte funktionale Lebensmittelverpackungen / Projektleiter:in / abgeschlossen
• Digitale Simulation zur individualisierten Fertigung von 3D Nanofaserfilter und Integration in Vollschutzanzug für Pandemiefälle / Projektleiter:in / abgeschlossen
• Integrated Bio-based Materials Value Chains / Co-Projektleiter:in / abgeschlossen
• isi - BioCat - In Situ Immobilized Biocatalysts / Stellv. Projektleiter:in / abgeschlossen
• Analyse von Heizungs- und Kühlwasser / Teammitglied / abgeschlossen
• Nanofaserbasierte Aerogele für ein Filtrationssystem in biotechnologischen Downstream Prozessen / Projektleiter:in / abgeschlossen
• Kunststoffanalytik Gärgut / Kompost / Stellv. Projektleiter:in / abgeschlossen
• Intensified by Design® for the intensification of processes involving solids handling / Projektleiter:in / abgeschlossen
• Secure Management Platform for Shared Process Resources / Projektleiter:in / abgeschlossen

Publikationen

Beiträge in wissenschaftlicher Zeitschrift, peer-reviewed

• Risch, P., Broger, T., Booi, Z., Tiseo, K., Santhosh Kumar, H., van Schalkwyk, J., Heinrich, T., Willi, R., Botha, S. M., Sander, P., Cattamanchi, A., Hubold, S., Denkinger, C. M., Theron, G., Fialová, C., Adlhart, C., & Venter, R. (2025). AveloMask, a novel breath aerosol collection kit for airborne Mycobacterium tuberculosis : a proof-of-principle assessment. Journal of Clinical Microbiology, 63(9), e00546–25. https://doi.org/10.1128/jcm.00546-25
• Von Philipsborn, F. A., & Adlhart, C. (2025). Towards biocompatible cellulose nanofiber sponges with tailored pore geometries. Chimia, 79(4), 232–236. https://doi.org/10.2533/chimia.2025.232
• Mol, G., Fialová, C., & Adlhart, C. (2024). Rapid preparation of electrospun nanofibre sponges through supercritical CO2 drying. Materials Advances, 5(9), 3929–3939. https://doi.org/10.1039/D3MA00781B
• Rimann, M., Jüngel, A., Mousavi, S., Moeschlin, N., Calcagni, M., Wuertz-Kozak, K., Brunner, F., Dudli, S., Distler, O., & Adlhart, C. (2022). Acrylonitrile and pullulan based nanofiber mats as easily accessible scaffolds for 3D skin cell models containing primary cells. Cells, 11(3), 445. https://doi.org/10.3390/cells11030445
• Mousavi, S., Filipová, L., Ebert, J., Heiligtag, F. J., Daumke, R., Loser, W., Ledergerber, B., Frank, B., & Adlhart, C. (2022). Clarification of yeast cell suspensions by a highly porous polyamide nanofiber sponge. Separation and Purification Technology, 284(120273). https://doi.org/10.1016/j.seppur.2021.120273
• Risch, P., & Adlhart, C. (2022). The separation power of highly porous 3D nanofiber sponges. Chimia, 76(4), 354–360. https://doi.org/10.2533/chimia.2022.354
• Merk, M., Chirikian, O., & Adlhart, C. (2021). 3D PCL/gelatin/genipin nanofiber sponge as scaffold for regenerative medicine. Materials, 14(8), 2006. https://doi.org/10.3390/ma14082006
• Risch, P., & Adlhart, C. (2021). A chitosan nanofiber sponge for oyster-inspired filtration of microplastics. ACS Applied Polymer Materials, 3(9), 4685–4694. https://doi.org/10.1021/acsapm.1c00799
• Eibl, D., Sievers, M., Eibl, R., Bachmann, M., Walton, S., Keel, N., Richner, G., Stübinger, S., Hirsch, S., Yeretzian, C., Opitz, S. E. W., Heldal, T., & Adlhart, C. (2021). Keeping SARS-CoV-2 out : vaccines, filters, and self-disinfecting textiles. Chimia, 75(3), 215–218. https://doi.org/10.2533/chimia.2021.215
• Kaegi, M., Adlhart, C., Lehmann, M., Risch, M., Wessling, W., & Klaffenbach, P. (2020). A novel microfiber wipe for delivery of active substances to human skin : clinical proof of concept. Polymers, 12(11), 2715. https://doi.org/10.3390/polym12112715
• Brodard, P., Dabros, M., Marti, R., Vanoli, E., Zinn, M., Frey, U., Adlhart, C., Kind, L., Koch, F., Burgio, F., Stenqvist, J., Saxer, S., Pieles, U., Shahgaldian, P., & Wendeborn, S. (2019). Materials science at Swiss universities of applied sciences. Chimia, 73(7-8), 645–655. https://doi.org/10.2533/chimia.2019.645
• Weidenbacher, L., Müller, E., Guex, A. G., Zündel, M., Schweizer, P., Marina, V., Adlhart, C., Vejsadová, L., Pauer, R., Spiecker, E., Maniura-Weber, K., Ferguson, S. J., Rossi, R. M., Rottmar, M., & Fortunato, G. (2019). In vitro endothelialization of surface-integrated nanofiber networks for stretchable blood interfaces. ACS Applied Materials & Interfaces. https://doi.org/10.1021/acsami.8b18121
• Mousavi, S., Shahraki, F., Aliabadi, M., Haji, A., Deuber, F., & Adlhart, C. (2019). Nanofiber immobilized CeO2/dendrimer nanoparticles : an efficient photocatalyst in the visible and the UV. Applied Surface Science. https://doi.org/10.1016/j.apsusc.2019.02.119
• Mousavi, S., Shahraki, F., Aliabadi, M., Haji, A., Deuber, F., & Adlhart, C. (2019). Surface enriched nanofiber mats for efficient adsorption of Cr(VI) inspired by nature. Journal of Environmental Chemical Engineering, 7(1). https://doi.org/10.1016/j.jece.2018.102817
• Mousavi, S., Deuber, F., Petrozzi, S., Federer, L., Aliabadi, M., Shahraki, F., & Adlhart, C. (2018). Efficient dye adsorption by highly porous nanofiber aerogels. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 547, 117–125. https://doi.org/10.1016/j.colsurfa.2018.03.052
• Deuber, F., Mousavi, S., Federer, L., Hofer, M., & Adlhart, C. (2018). Exploration of ultralight nanofiber aerogels as particle filters : capacity and efficiency. ACS Applied Materials & Interfaces, 10(10), 9069–9076. https://doi.org/10.1021/acsami.8b00455
• Adlhart, C., Verran, J., Azevedo, N. F., Olmez, H., Keinänen-Toivola, M. M., Gouveia, I., Melo, L. F., & Crijns, F. (2018). Surface modifications for antimicrobial effects in the healthcare setting : a critical overview. Journal of Hospital Infection. https://doi.org/10.1016/j.jhin.2018.01.018
• Zhao, S., Emery, O., Wohlhauser, A., Koebel, M. M., Adlhart, C., & Malfait, W. J. (2018). Merging flexibility with superinsulation : machinable, nanofibrous pullulan-silica aerogel composites. Materials & Design, 160, 294–302. https://doi.org/10.1016/j.matdes.2018.09.010
• Zhai, L., Adlhart, C., Spano, F., Innocenti Malini, R., Piątek, A. K., Li, J., & Rossi, R. M. (2018). Prediction of steam burns severity using raman spectroscopy on ex vivo porcine skin. Scientific Reports, 8(6946). https://doi.org/10.1038/s41598-018-24647-x
• Dąbrowska, A. K., Spano, F., Derler, S., Adlhart, C., Spencer, N. D., & Rossi, R. M. (2017). The relationship between skin function, barrier properties, and body-dependent factors. Skin Research and Technology, 24(2), 165–174. https://doi.org/10.1111/srt.12424
• Burger, T., Deuber, F., Merk, M., Mousavi, S., Vejsadová, L., & Adlhart, C. (2017). Nanofiber-based aerogels. Chimia, 71(5), 311. https://doi.org/10.2533/chimia.2017.311
• Dunne, C. P., Keinänen-Toivola, M. M., Kahru, A., Teunissen, B., Olmez, H., Gouveia, I., Melo, L., Murzyn, K., Modic, M., Ahonen, M., Askew, P., Papadopoulos, T., Adlhart, C., & Crijns, F. R. L. (2017). Anti-microbial coating innovations to prevent infectious diseases (AMiCI) : cost action ca15114. Bioengineered, 8(6), 679–685. https://doi.org/10.1080/21655979.2017.1323593
• Deuber, F., & Adlhart, C. (2017). From short electrospun nanofibers to ultralight aerogels with tunable pore structure. Chimia, 71(4), 236–240. https://doi.org/10.2533/chimia.2017.236
• Deuber, F., Mousavi, S., Federer, L., & Adlhart, C. (2017). Amphiphilic nanofiber based aerogels from electrospun biopolymers for selective liquid absorption. Advanced Materials Interfaces, 4(12), 1700065. https://doi.org/10.1002/admi.201700065
• Hirsch, C., Striegl, B., Mathes, S., Adlhart, C., Edelmann, M., Bono, E., Gaan, S., Salmeia, K. A., Hölting, L., Krebs, A., Nyffeler, J., Pape, R., Bürkle, A., Leist, M., Wick, P., & Schildknecht, S. (2017). Multiparameter toxicity assessment of novel DOPO-derived organophosphorus flame retardants. Archives of Toxicology, 91(1), 407–425. https://doi.org/10.1007/s00204-016-1680-4
• Dabrowska, A. K., Adlhart, C., Spano, F., Rotaru, G.-M., Derler, S., Zhai, L., Spencer, N. D., & Rossi, R. M. (2016). In vivo confirmation of hydration-induced changes in human-skin thickness, roughness and interaction with the environment. Biointerphases, 11(3). https://doi.org/10.1116/1.4962547
• Tzirakis, M. D., Zambail, R., Tan, Y. Z., Chew, J. W., Adlhart, C., & Honciuc, A. (2015). Surfactant-free synthesis of sub-100 nm poly(styrene-co-divinylbenzene) nanoparticles by one-step ultrasonic assisted emulsification/polymerization. RSC Advances, 2015(125), 103218–103228. https://doi.org/10.1039/C5RA23840D
• Fleischli, F., Morf, F., & Adlhart, C. (2015). Skin concentrations of topically applied substances in reconstructed human epidermis (RHE) compared with human skin using in vivo confocal Raman microscopy. Chimia, 69(3), 147–151. https://doi.org/10.2533/chimia.2015.147
• Bendixen, N., Losert, S., Adlhart, C., Lattuada, M., & Ulrich, A. (2014). Membrane-particle interactions in an asymmetric flow field flow fractionation channel studied with titanium dioxide nanoparticles. Journal of Chromatography A, 1334, 92–100. https://doi.org/10.1016/j.chroma.2014.01.066
• Brodard, P., Pfeifer, M. E., Adlhart, C. D., Pieles, U., & Shahgaldian, P. (2014). Surface chemistry at Swiss Universities of Applied Sciences. Chimia, 68(7-8), 560–562. https://doi.org/10.2533/chimia.2014.560
• Fleischli, F., Mathes, S., & Adlhart, C. (2013). Label free non-invasive imaging of topically applied actives in reconstructed human epidermis by confocal Raman spectroscopy. Vibrational Spectroscopy, 68(1), 29–33. https://doi.org/10.1016/j.vibspec.2013.05.003
• Ulrich, A., Losert, S., Bendixen, N., Al-Kattan, A., Hagendorfer, H., Nowack, B., Adlhart, C., Ebert, J., Lattuada, M., & Hungerbühler, K. (2012). Critical aspects of sample handling for direct nanoparticle analysis and analytical challenges using asymmetric field flow fractionation in a multi-detector approach. Journal of Analytical Atomic Spectrometry, 27(7), 1120–1130. https://doi.org/10.1039/C2JA30024A
• Badertscher, R., Lerf, R., Delfosse, D., & Adlhart, C. (2012). Grafting of α-tocopherol upon γ-irradiation in UHMWPE probed by model hydrocarbons. Polymer Degradation and Stability, 97(11), 2255–2261. https://doi.org/10.1016/j.polymdegradstab.2012.07.040
• Adlhart, C., & Baschong, W. (2011). Surface distribution and depths profiling of particulate organic UV absorbers by Raman imaging and tape stripping. International Journal of Cosmetic Science, 33(6), 527–534. https://doi.org/10.1111/j.1468-2494.2011.00666.x
• Büttiker, R., Ebert, J., Hinderling, C., & Adlhart, C. (2011). Membranes for specific adsorption : immobilizing molecularly imprinted polymer microspheres using electrospun nanofibers. Chimia, 65(3), 182–186. https://doi.org/10.2533/chimia.2011.182
• Adlhart, C., & Uggerud, E. (2007). Mechanisms for the dehydrogenation of alkanes on platinum : insights gained from the reactivity of gaseous cluster cations, Pt(n)+, n = 1-21. Chemistry - A European Journal, 13(24), 6883–6890. https://doi.org/10.1002/chem.200700501
• Adlhart, C., & Uggerud, E. (2006). Reaction dynamics simulations of the identity SN2 reaction H2O + HOOH2+ -> H2OOH+ + H2O : requirements for reaction and competition with proton transfer. Physical Chemistry Chemical Physics, 2006(9), 1066–1071. https://doi.org/10.1039/B516658F
• Adlhart, C., & Uggerud, E. (2006). C-H activation in reactions of protonated hydrogen peroxide with propane. International Journal of Mass Spectrometry, 254(3), 189–196. https://doi.org/10.1016/j.ijms.2006.05.018
• Adlhart, C., & Uggerud, E. (2006). Reactions of platinum clusters Ptn±, n = 1-21, with CH4 : to react or not to react. Chemical Communications, 2006(24), 2581–2582. https://doi.org/10.1039/B604207D
• Frech Nabold, C. M., Blacque, O., Schmalle, H. W., Berke, H., Adlhart, C., & Chen, P. (2006). Unprecedented ROMP activity of low-valent rhenium-nitrosyl complexes : mechanistic evaluation of an electrophilic olefin metathesis system. Chemistry - A European Journal, 12(12), 3325–3338. https://doi.org/10.1002/chem.200501025
• Adlhart, C., & Uggerud, E. (2006). Mechanisms of catalytic dehydrogenation of alkanes by rhodium clusters Rhn+ probed by isotope labelling. International Journal of Mass Spectrometry, 249-250, 191–198. https://doi.org/10.1016/j.ijms.2005.12.032
• Adlhart, C., & Uggerud, E. (2005). C-H activation of alkanes on Rh+n (n=1-30) clusters : size effects on dehydrogenation. The Journal of Chemical Physics, 123(21), 214709. https://doi.org/10.1063/1.2131066
• Adlhart, C., Sekiguchi, O., & Uggerud, E. (2005). On the gas-phase reactivity of complexed OH+ with halogenated alkanes. Chemistry - A European Journal, 11(1), 152–159. https://doi.org/10.1002/chem.200400699
• Al-Khalili, A., Thomas, R., Ehlerding, A., Hellberg, F., Geppert, W. D., Zhaunerchyk, V., af Ugglas, M., Larsson, M., Uggerud, E., Vedde, J., Adlhart, C., Semaniak, J., Kamińska, M., Zubarev, R. A., Kjeldsen, F., Andersson, P. U., Österdahl, F., Bednarska, V. A., & Paál, A. (2004). Dissociative recombination cross section and branching ratios of protonated dimethyl disulfide and N-methylacetamide. The Journal of Chemical Physics, 121(12), 5700–5708. https://doi.org/10.1063/1.1782772
• Adlhart, C., & Chen, P. (2004). Mechanism and activity of ruthenium olefin metathesis catalysts : the role of ligands and substrates from a theoretical perspective. Journal of the American Chemical Society, 126(11), 3496–3510. https://doi.org/10.1021/ja0305757
• Adlhart, C., & Chen, P. (2003). Comparing intrinsic reactivities of the first- and second-generation ruthenium metathesis catalysts in the gas phase. Helvetica Chimica Acta, 86(4), 941–949. https://doi.org/10.1002/hlca.200390112
• Adlhart, C., & Chen, P. (2002). Ligand rotation distinguishes first- and second-generation ruthenium metathesis catalysts. Angewandte Chemie: International Edition, 41(23), 4484–4487. doi.org/10.1002/1521-3773(20021202)41:23<4484::AID-ANIE4484>3.0.CO;2-Q
• Volland, M. A. O., Adlhart, C., Kiener, C. A., & Hofmann, P. (2001). Catalyst screening by electrospray ionization tandem mass spectrometry : Hofmann carbenes for olefin metathesis. Chemistry - A European Journal, 7(21), 4621–4632. doi.org/10.1002/1521-3765(20011105)7:21<4621::AID-CHEM4621>3.0.CO;2-C
• Hinderling, C., Adlhart, C., & Chen, P. (2000). Mechanism-based high-throughput screening of catalysts. Chimia, 54(4), 232.
• Adlhart, C., Hinderling, C., Chen, P., & Harold, B. (2000). Mechanistic studies of olefin metathesis by ruthenium carbene complexes using electrospray ionization tandem mass spectrometry. Journal of the American Chemical Society, 122(34), 8204–8214.
• Adlhart, C., Volland, M. A. O., Hofmann, P., & Chen, P. (2000). Comparing Grubbs-, Werner-, and Hofmann-type (carbene)ruthenium complexes : the key role of pre-equilibria for olefin metathesis. Helvetica Chimica Acta, 83(12), 3306–3311. doi.org/10.1002/1522-2675(20001220)83:12<3306::AID-HLCA3306>3.0.CO;2-7
• Adlhart, C., & Chen, P. (2000). Fishing for catalysts : mechanism-based probes for active species in solution. Helvetica Chimica Acta, 83(9), 2192–2196. doi.org/10.1002/1522-2675(20000906)83:9<2192::AID-HLCA2192>3.0.CO;2-G
• Hinderling, C., Adlhart, C., & Chen, P. (1998). Olefin metathesis of a ruthenium carbene complex by electrospray ionization in the gas phase. Angewandte Chemie: International Edition, 37(19), 2685–2689. doi.org/10.1002/(SICI)1521-3773(19981016)37:19<2685::AID-ANIE2685>3.0.CO;2-M

Bücher, peer-reviewed

Adlhart, C. (2003). Intrinsic reactivity of ruthenium carbenes : a combined gas phase and computational study [Doctoral dissertation, ETH Zürich]. https://doi.org/10.3929/ethz-a-004567608

Buchbeiträge, peer-reviewed

• Delfosse, D., Lerf, R., & Adlhart, C. (2014). What happens to the vitamin E in a vitamin-stabilised HXLPE? In K. Knahr (Ed.), Tribology in total hip and knee arthroplasty : potential drawbacks and benefits of commonly used materials (pp. 197–205). Springer. https://doi.org/10.1007/978-3-642-45266-6_19
• Adlhart, C., & Chen, P. (2003). Intrinsic reactivity of Ruthenium Carbenes. In R. H. Grubbs (Ed.), Handbook of metathesis : catalyst development (pp. 132–169). Wiley. https://doi.org/10.1002/9783527619481.ch10

Schriftliche Konferenzbeiträge, peer-reviewed

• Hofmann, J., Fialová, C., Adlhart, C., Strassmann, M., Rimann, M., & Röhrnbauer, B. (2024, June 30). Micro and macromechanics of electrospun membranes under uniaxial and biaxial loading conditions. 29th Congress of the European Society of Biomechanics (ESB), Edinburgh, Scotland, 30 June - 3 July 2024.
• Saladin, J., Urech, S., Chundattu, A., Weiss, N., Adlhart, C., & Baier, A. (2022, June 17). Corn storage protein zein : biopolymer for drug delivery systems. Tetranationale Tagung Phytotherapie, 36. Schweizerische Jahrestagung Phytotherapie, Universität Zürich, Schweiz, 16.-18. Juni 2022.

Weitere Publikationen

• Burger, T., & Adlhart, C. (2018). Cryo-3D printing of nanofiber aerogels. À Jour: SVC - Chemie, Life Sciences & Biotechnologie, 18(2), 17–19. https://www.svc.ch/dl/18b8c9e4359474c586ea2d369663a8c3/ajour0218.pdf
• Deuber, F., & Adlhart, C. (2018). Tailoring the microstructure of ultra-light nanofiber aerogels by solid templating and their application as wound dressing materials. À Jour: SVC - Chemie, Life Sciences & Biotechnologie, 18(1), 17–19.
• Deuber, F., Mousavi, S., Hofer, M., & Adlhart, C. (2016). Cover picture : tailoring pore structure of ultralight electrospun sponges by solid templating. ChemistrySelect, 1(18), 5594. https://doi.org/10.1002/slct.201601454
• Deuber, F., Mousavi, S., Hofer, M., & Adlhart, C. (2016). Tailoring pore structure of ultralight electrospun sponges by solid templating. ChemistrySelect, 1(18), 5595–5598. https://doi.org/10.1002/slct.201601084
• Adlhart, C., & Deuber, F. (2015). Improved fiber diameter determination of nanofibers through image analysis using a hierarchical scaling approach [Conference paper]. Proceedings of the NART Conference 2015, 29–36.
• Adlhart, C., Born, Y., Fuchs, M., Fieseler, L., & Pavlovic, B. (2015). Encapsulation and controlled release of bacteriophages for food protection using electrospun nanofibers [Conference paper]. Proceedings of the NART Conference 2015, 49–56.
• Adlhart, C. (2014). Dünne Fasern - grosse Wirkung : mit Elektrospinning zu neuen Produkten. Textil plus, 2014(5/6), 44–47.
• Adlhart, C., & Federer, L. (2014). Welches Gas steckt im Öl? : Integrierte Diagnostik gibt Antwort. Transfer, 2014(1), 8. https://doi.org/10.21256/zhaw-2056
• Huber, P., Adlhart, C., Luginbühl, V., Morf, F., Opitz, S., & Yeretzian, C. (2014). Coffee based polyphenols with potential in skin care : antioxidant activity and skin penetration assessed by in vivo Raman spectroscopy. Household and Personal Care Today, 9(3), 28–34. http://www.teknoscienze.com/tks_article/coffee-based-polyphenols-with-potential-in-skin-careantioxidant-activity-and-skin-penetration-assessed-by-in-vivo-raman-spectroscopy/
• Adlhart, C., Renke, N., Yildirim, S., & Staudenmaier, R. (2013). High gas permeable food contact layer by electrospun nanofibers. Proceedings of the International Workshop : Development of Safe PNFP and Development of Strategies to Identify Any Critical Interaction of PNFP with Food.
• Adlhart, C. (2013). Problembasiertes Chemie-Grundlagenpraktikum : verändertes Menschenbild als Ausgangspunkt zur Neugestaltung der Lehre. In H. Bachmann (ed.), Hochschullehre variantenreich gestalten : Kompetenzorientierte Hochschullehre : Ansätze, Methoden und Beispiele (pp. 160–174). hep-Verlag.
• Adlhart, C., & Ebert, J. (2012). Intelligente Nanofasern als Basis für neue Filtermaterialien. In Global guide of the filtration and separation industry : global guide 2012-2014 (pp. 239–245). VDL-Verlag.
• Adlhart, C., & Ebert, J. (2012). Intelligent nanofibres as basis for new filter materials. In Global guide of the filtration and separation industry : global guide 2012-2014 (pp. 181–187). VDL-Verlag.
• Berke, H., Frech Nabold, C. M., Blacque, O., Adlhart, C., & Chen, P. (2005). New catalysts for ROMP. Journal of Fudan University, 44(4), 625.

Mündliche Konferenzbeiträge und Abstracts

• Hofmann, J., Fialová, C., Adlhart, C., Strassmann, M., Rimann, M., & Röhrnbauer, B. (2024, June 30). Large-porous or nano-fibrous? – a mechanical perspective on implant materials for the pelvic floor. 29th Congress of the European Society of Biomechanics (ESB), Edinburgh, Scotland, 30 June - 3 July 2024.
• Adlhart, C., & Yildirim, S. (2013). Highly oxygen permeable electrospun webs as functional food contact layer for Pd-based oxygen scavenger films. International Workshop in Electrospinning Applied to Food Packaging, Valencia, Spain, 2013.

Patente und Patentanmeldungen

• Adlhart, Christian; Schneider, Frank; Hug, Thomas Silvan,

  2019.

  Device for the extraction and analysis of gases.

  Patentnummer EP2927681 B1

  (2019-02-13)

  .

  Verfügbar unter: https://worldwide.espacenet.com/patent/search?q=pn%3DEP2927681B1

• Chen, Peter; Plattner, Dietmar, A.; Hinderling, Christian; Feichtinger, Derek; Adlhart, Christian,

  2003.

  Catalytically accelerated gaseous phase reactions.

  Patentnummer EP0970132 B1

  (2003-06-18)

  .

  Verfügbar unter: https://worldwide.espacenet.com/patent/search?q=pn%3DEP0970132B1

Zurück