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Fakultät für Ingenieurwissenschaften
Anschrift
Lotharstraße 1
47057 Duisburg
47057 Duisburg
Raum
MA 267B
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Funktionen
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Wissenschaftliche/r Mitarbeiter/in, Nanopartikel Prozesstechnik
Aktuelle Veranstaltungen
Keine aktuellen Veranstaltungen.
Vergangene Veranstaltungen (max. 10)
Keine vergangenen Veranstaltungen.
Die folgenden Publikationen sind in der Online-Universitätsbibliographie der Universität Duisburg-Essen verzeichnet. Weitere Informationen finden Sie gegebenenfalls auch auf den persönlichen Webseiten der Person.
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Chemical vapor synthesis of nanocrystalline iron oxidesIn: Applications in Energy and Combustion Science, Jg. 15, 2023, 100177DOI (Open Access)
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Very Small Nanocrystalline Tin Dioxide Particles : Local-, Crystal-, and Micro-StructureIn: Journal of Physical Chemistry C: Nanomaterials and Interfaces, Jg. 127, 2023, Nr. 35, S. 17389 – 17405
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A versatile chemical vapor synthesis reactor for in situ x-ray scattering and spectroscopyIn: Review of Scientific Instruments, Jg. 93, 2022, Nr. 11, 113706DOI (Open Access)
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Determining the sintering kinetics of Fe and FexOy-Nanoparticles in a well-defined model flow reactorIn: Aerosol Science and Technology, Jg. 56, 2022, Nr. 9, S. 833 – 846
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Formation of polymorphs and pores in small nanocrystalline iron oxide particlesIn: Scientific Reports, Jg. 12, 2022, Nr. 1, 15291DOI, Online Volltext (Open Access)
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Experimental and numerical study on the influence of equivalence ratio on key intermediates and silica nanoparticles in flame synthesisIn: Proceedings of the Combustion Institute, Jg. 38, 2021, Nr. 1, S. 1375 – 1383
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Erratum : In situ cell for x-ray absorption spectroscopy of low volatility compound vaporsIn: Review of Scientific Instruments, Jg. 91, 2020, Nr. 7, S. 079901DOI (Open Access)
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In situ cell for x-ray absorption spectroscopy of low volatility compound vaporsIn: Review of Scientific Instruments, Jg. 91, 2020, Nr. 6, S. 063101DOI (Open Access)
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Nanoparticles generated by combining hot wall and microwave plasma chemical vapor synthesisIn: MRS Advances / Materials Research Society (Hrsg.), Jg. 3, 2018, Nr. 4, S. 213 – 218
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Laser synthesis, structure and chemical properties of colloidal nickel-molybdenum nanoparticles for the substitution of noble metals in heterogeneous catalysisIn: Journal of Colloid and Interface Sciences, Jg. 489, 2017, S. 57 – 67
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Nickel-molybdenum nanoparticles for the substitution of platinum in electrocatalysisIn: 4th Conference on Advanced Nanoparticle Generation and Excitation by Lasers in Liquids: 09-12 May 2016, Atlantic Hotel, Essen, Germany / ANGEL ; Conference on Advanced Nanoparticle Generation and Excitation by Lasers in Liquids ; 09-12 May 2016, Essen / Amendola, Vincenzo; Barcikowski, Stephan (Hrsg.). Essen, 2016, S. 25