E
E. Gargioni
Researcher at University of Hamburg
Publications - 53
Citations - 724
E. Gargioni is an academic researcher from University of Hamburg. The author has contributed to research in topics: Monte Carlo method & Electron. The author has an hindex of 15, co-authored 47 publications receiving 531 citations. Previous affiliations of E. Gargioni include University of Turin & German National Metrology Institute.
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Journal ArticleDOI
Roadmap for metal nanoparticles in radiation therapy: current status, translational challenges, and future directions.
Jan Schuemann,Alexander F. Bagley,Ross Berbeco,Kyle Bromma,Karl T. Butterworth,H L Byrne,Devika B. Chithrani,Sang Hyun Cho,Jason R. Cook,Vincent Favaudon,Yaser Hadi Gholami,E. Gargioni,James F. Hainfeld,Félicien Hespeels,Anne-Catherine Heuskin,Udoka Ibeh,Zdenka Kuncic,Sijumon Kunjachan,Sandrine Lacombe,Stéphane Lucas,François Lux,Stephen J. McMahon,Dmitry Nevozhay,Wilfred Ngwa,J Donald Payne,Sébastien Penninckx,Erika Porcel,Kevin M. Prise,Hans Rabus,Sharif M Ridwan,Benedikt Rudek,Léon Sanche,Bijay Singh,Henry M. Smilowitz,Konstantin V Sokolov,Srinivas Sridhar,Yaroslav Stanishevskiy,Wonmo Sung,Olivier Tillement,Needa A. Virani,Wassana Yantasee,Sunil Krishnan +41 more
TL;DR: This roadmap outlines the potential roles of metallic nanoparticles in the field of radiation therapy and covers contributions from experts in these topics summarizing their view of the current status and challenges, as well as expected advancements in technology to address these challenges.
Journal ArticleDOI
Electron scattering from argon: Data evaluation and consistency
E. Gargioni,Bernd Grosswendt +1 more
TL;DR: In this paper, a review of electron-scattering cross sections and optical data for the argon atom is presented, and the most appropriate criteria for verifying data consistency are discussed.
Journal ArticleDOI
Differential elastic and total electron scattering cross sections of tetrahydrofuran
TL;DR: In this article, the experimental differential scattering cross sections of tetrahydrofuran for the elastic scattering of electrons were calculated in the energy range between 60 eV and 1 keV by applying the modified independent-atom model.
Journal ArticleDOI
X-ray-Based Techniques to Study the Nano-Bio Interface
Carlos Sanchez-Cano,Ramon A. Alvarez-Puebla,John M. Abendroth,Tobias Beck,Robert H. Blick,Yuan Cao,Frank Caruso,Indranath Chakraborty,Henry N. Chapman,Chunying Chen,Bruce E. Cohen,Andre L.C. Conceição,David P. Cormode,Daxiang Cui,Kenneth A. Dawson,Gerald Falkenberg,Chunhai Fan,Neus Feliu,Mingyuan Gao,E. Gargioni,Claus C. Glüer,Florian Grüner,Moustapha Hassan,Yong Hu,Yalan Huang,Samuel Huber,Nils Huse,Yanan Kang,Ali Khademhosseini,Thomas F. Keller,Christian Körnig,Nicholas A. Kotov,Dorota Koziej,Xing-Jie Liang,Beibei Liu,Sijin Liu,Yang Liu,Ziyao Liu,Luis M. Liz-Marzán,Xiaowei Ma,Andres Machicote,Wolfgang Maison,Adrian P. Mancuso,Adrian P. Mancuso,Saad Megahed,Bert Nickel,Ferdinand Otto,Cristina Palencia,Sakura Pascarelli,Arwen R. Pearson,Oula Penate-Medina,Bing Qi,Joachim O. Rädler,Joseph J. Richardson,Axel Rosenhahn,Kai Rothkamm,Michael Rübhausen,Milan K. Sanyal,Raymond E. Schaak,Heinz Peter Schlemmer,Marius Schmidt,Oliver Schmutzler,Theo Schotten,Florian Schulz,A. K. Sood,Kathryn Spiers,Theresa Staufer,Dominik M. Stemer,Andreas Stierle,Xing Sun,Xing Sun,Gohar Tsakanova,Paul S. Weiss,Horst Weller,Fabian Westermeier,Ming Xu,Huijie Yan,Yuan Zeng,Ying Zhao,Yuliang Zhao,Dingcheng Zhu,Ying Zhu,Wolfgang J. Parak,Wolfgang J. Parak +83 more
TL;DR: X-ray-based analytics are routinely applied in many fields, including physics, chemistry, materials science, and engineering as discussed by the authors, but the full potential of such techniques in the life sciences and medicine has not yet been fully exploited.
Journal ArticleDOI
Comparison of nanodosimetric parameters of track structure calculated by the Monte Carlo codes Geant4-DNA and PTra.
Peter Lazarakis,Peter Lazarakis,M.U. Bug,M.U. Bug,E. Gargioni,Susanna Guatelli,Hans Rabus,Anatoly B. Rosenfeld +7 more
TL;DR: In this article, a comparison of the two codes was made for incident electrons of energy in the range between 50 eV and 10 keV, for protons of energy between 300 keV and10 MeV, and for alpha particles of energy 1 and 10 MeV as these were the energy ranges available in both codes at the time this investigation was carried out.