Georg Steinhauser

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Georg Steinhauser (* 1979 ) is a professor of radioecology who focuses on the ecological effects of the nuclear disasters in Chernobyl and Fukushima as well as on nuclear forensics .

Career

Steinhauser completed his chemistry studies at the University of Vienna in 2003 with a diploma. In 2005 he received his doctorate in radiochemistry from the Vienna University of Technology . In 2007 he was an Erwin Schrödinger Fellow in Thomas M. Klapötke's group at the Ludwig Maximilians University in Munich . Steinhauser worked for ten years in the area of ​​the TRIGA reactor at the Atomic Institute of the Vienna University of Technology, before accepting a position at the Department of Environmental and Radiological Health Sciences at Colorado State University in 2013 . In 2015 he was offered an appointment at Leibniz University Hannover , where he has been working at the Institute for Radioecology and Radiation Protection ever since . Steinhauser is a member of the radiation protection advisory board of the Austrian Federal Ministry of Health . He is a member of the board of the working group Analysis with Radionuclides and High-Power Radiation Sources of the Society of German Chemists , as well as Executive Officer of the Biology and Medicine Division of the American Nuclear Society . Steinhauser is also editor of the journal Environmental Science and Pollution Research .

Awards

Publications (selection)

  • G. Steinhauser, TM Klapötke: 'Green' Pyrotechnics - a Chemists' Challenge. In: Angewandte Chemie International Edition 47 (2008) 3330–3347.
  • O. Masson, A. Baeza, J. Bieringer, K. Brudecki, S. Bucci, M. Cappai, FP Carvalho, O. Connan, C. Cosma, A. Dalheimer, D. Didier, G. Depuydt, LE De Geer , A. De Vismes, L. Gini, F. Groppi, K. Gudnason, R. Gurriaran, D. Hainz, Ó. Halldórsson, D. Hammond, O. Hanley, K. Holey, Zs. Homoki, A. Ioannidou, K. Isajenko, M. Jankovic, C. Katzlberger, M. Kettunen, R. Kierepko, R. Kontro, PJM Kwakman, M Lecomte, L. Leon Vintro, A.‐P. Leppänen, B. Lind, G. Lujaniene, P. Mc Ginnity, C. Mc Mahon, H. Malá, S. Manenti, M. Manolopoulou, A. Mattila, A. Mauring, JW Mietelski, B. Møller, SP Nielsen, J. Nikolic, RMW Overwater, SE Pálsson, C. Papastefanou, I. Penev, MK Pham, PP Povinec, H. Ramebäck, MC Reis, W. Ringer, A. Rodriguez, P. Rulík, PRJ Saey, V. Samsonov, C. Schlosser, G. Sgorbati, BV Silobritiene, C. Söderström, R. Sogni, L. Solier, M. Sonck, G. Steinhauser, T. Steinkopff, P. Steinmann, S. Stoulos, I. Sýkora, D. Todorovic , N. Tooloutalaie, L. Tositti, J. Tschiersch, A. Ugron, E. Vagena, A. Vargas, H. Wershofen, O. Zhukova: Tracking of Airborne Radionuclides from the Damaged Fukushima Dai-Ichi Nuclear Reactors by European Networks. In: Environmental Science & Technology 45 (2011) 7670-7677.
  • G. Steinhauser, K. Buchtela: Gas Ionization Detectors. In: MF L'Annunziata (Ed.): Handbook of Radioactivity Analysis, Elsevier / Academic Press, 3rd ed., 2012, San Diego, 191-231.
  • G. Steinhauser: Fukushima's forgotten radionuclides: A review of the understudied radioactive emissions. In: Environmental Science & Technology 48 (2014) 4649-4663.
  • G. Steinhauser, A. Brandl, TE Johnson: Comparison of the Chernobyl and Fukushima nuclear accidents: A review of the environmental impacts. In: Science of the Total Environment, 470-471 (2014) 800-817.
  • G. Steinhauser, T. Niisoe, KH Harada, K. Shozugawa, S. Schneider, H.‐A. Synal, C. Walther, M. Christl, K. Nanba, H. Ishikawa, A. Koizumi: Post ‐ accident sporadic releases of airborne radionuclides from the Fukushima Daiichi nuclear power plant site. In: Environmental Science & Technology 49 (2015) 14028-14035.
  • BL Rosenberg, K. Shozugawa, G. Steinhauser: Rapid detection of fuel release in a nuclear accident: a method for preconcentration and isolation of reactor ‐ borne 239 Np using ion ‐ specific extraction chromatography. In: Analytical Chemistry 87 (2015) 8651-8656.
  • S. Merz, K. Shozugawa, G. Steinhauser: Analysis of Japanese radionuclide monitoring data of food before and after the Fukushima nuclear accident. In: Environmental Science & Technology, 49 (2015) 2875–2885.
  • G. Steinhauser, A. Koizumi: Fukushima - five years later. In: Physik Journal 15 (2016) 39–43.
  • JM Welch, D. Müller, C. Knoll, M. Wilkovitsch, G. Giester, J. Ofner, B. Lendl, P. Weinberger, G. Steinhauser: Picomolar traces of AmIII introduce drastic changes in the structural chemistry of TbIII: a break in the “gadolinium break” . In: Angewandte Chemie International Edition, 56 (2017) 13264–13269.
  • D. Müller, C. Knoll, A. Herrmann, JM Welch, W. Artner, J. Ofner, B. Lendl, G. Giester, P. Weinberger, G. Steinhauser: Azobis [tetrazolide] Carbonates of the Lanthanides - Breaking the Gadolinium Break . In: European Journal of Inorganic Chemistry 2018/19 (2018) 1969–1975.
  • W. Bu, Y. Ni, G. Steinhauser, W. Zheng, J. Zheng, N. Furuka: The role of mass spectrometry for radioactive contamination assessment after the Fukushima nuclear accident. In: Journal of Analytical Atomic Spectrometry 33 (2018) 519-546.

Web links

Individual evidence

  1. Lecture - Chernobyl, Fukushima and why we are afraid of radiation. Retrieved February 10, 2019 (Austrian German).
  2. a b CV of Georg Steinhauser. (PDF) Institute for Radioecology and Radiation Protection at the University of Hanover, accessed on February 10, 2019 .
  3. a b Environmental Science and Pollution Research - incl. Option to publish open access. Retrieved February 10, 2019 .
  4. Board of Directors | Gesellschaft Deutscher Chemiker eV Accessed February 10, 2019 .
  5. ^ Governance - Biology & Medicine Division. Retrieved February 10, 2019 (American English).
  6. Georg Steinhauser - Institute for Radioecology and Radiation Protection. Retrieved February 8, 2020 .
personal data
SURNAME Steinhauser, Georg
BRIEF DESCRIPTION Radio ecologist and university professor
DATE OF BIRTH 1979