M
Matteo Ferroni
Researcher at University of Brescia
Publications - 197
Citations - 6377
Matteo Ferroni is an academic researcher from University of Brescia. The author has contributed to research in topics: Thin film & Nanowire. The author has an hindex of 46, co-authored 193 publications receiving 5949 citations. Previous affiliations of Matteo Ferroni include Brescia University & Ca' Foscari University of Venice.
Papers
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Journal ArticleDOI
Quasi-one dimensional metal oxide semiconductors: Preparation, characterization and application as chemical sensors
Elisabetta Comini,Camilla Baratto,Guido Faglia,Matteo Ferroni,Alberto Vomiero,Giorgio Sberveglieri +5 more
TL;DR: In this article, the authors present an up-to-date review of metal oxide materials research for gas sensors application, due to the great research effort in the field it could not cover all the interesting works reported, the ones that, according to the authors, are going to contribute to this field's further development were selected and described.
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Screen-printed perovskite-type thick films as gas sensors for environmental monitoring
TL;DR: In this article, the perovskite-type oxide powders used for the preparation of the thick films have been tested in laboratory, in environments with different gases (CO and NO 2 ) in dry and wet air.
Journal ArticleDOI
Synthesis and characterization of semiconducting nanowires for gas sensing
Giorgio Sberveglieri,Camilla Baratto,Elisabetta Comini,Guido Faglia,Matteo Ferroni,Andrea Ponzoni,Alberto Vomiero +6 more
TL;DR: In this paper, the nano-structures of semiconducting metal oxides are shown to be promising for the development of nano-devices and the peculiarities of these innovative structures are highlighted.
Journal ArticleDOI
The chorus experiment to search for νμ → ντ oscillation
E. Eskut,A. Kayis,Gulsen Onengut,R. van Dantzig,J. Konijn,Rudolf Oldeman,C.A.F.J. van der Poel,J. W. E. Uiterwijk,J. L. Visschers,A. S. Ayan,E. Pesen,M. Serin-Zeyrek,Ramazan Sever,P. Tolun,Mehmet Zeyrek,N. Armenise,F. Cassol,M. G. Catanesi,M. T. Muciaccia,E. Radicioni,S. Simone,L. Vivolo,D. Eckstein,P. Lendermann,A. Meyer-Sievers,T. Patzak,K. Winter,P. Righini,B. Saitta,P. Annis,M. Gruwe,C. Mommaert,M. Vander Donckt,B. Van de Vyver,Pierre Vilain,Gaston Wilquet,E. Di Capua,Matteo Ferroni,C. Luppi,S. Ricciardi,Y. Ishii,T. Kawamura,M. Kazuno,S. Ogawa,H. Shibuya,R. Beyer,Jürgen Brunner,G. Carnevale,Jean-Paul Fabre,R. Ferreira,W. Flegel,R. Gurin,M. de Jong,M. Litmaath,L. Ludovici,D. Macina,R. Meijer Drees,H. Meinhard,E. Niu,H. Øverȧs,J. Panman,F. Riccardi,Alexandre Rozanov,David Saltzberg,G. Stefanini,R. Tzenov,Ch. Weinheimer,Henry T. Wong,P. Zucchelli,J. Goldberg,K. Hoepfner,H. Chikawa,E. Arik,Inanc Birol,A. Mailov,C. H. Hahn,H. I. Jang,D. C. Kim,J. Y. Kim,S. N. Kim,I. G. Park,M. S. Park,J. S. Song,C. S. Yoon,Koichi Kodama,N. Ushida,Shigeki Aoki,T. Hara,G. Brooijmans,Denis Favart,G. Grégoire,J. Hérin,Vincent Lemaitre,A. Artamonov,V. Epstein,P. Gorbunov,V. Khovansky,V. Shamanov,V. Smirnitsky,D. Bonekämper,D. Frekers,D. Rondeshagen,T. Wolff,K. Hoshino,Makoto Kobayashi,M. Komatzu,Y. Kotaka,T. Kozaki,Motoaki Miyanishi,M. Nakamura,Toshiyuki Nakano,K. Niu,Kimio Niwa,Y. Obayashi,Osamu Sato,T. Toshito,Salvatore Buontempo,L. Casagrande,Alfredo G. Cocco,Nicola D'Ambrosio,Antonio Ereditato,G. Fiorillo,F. Garufi,F. Marchetti-Stasi,M. Messina,P. Migliozzi,V. Palladino,S. Sorrentino,P. Strolin,K. Nakamura,T. Okusawa,T. Yoshida,A. Capone,D. De Pedis,S. Di Liberto,U. Dore,P. F. Loverre,A. Maslennikov,M. A. Mazzoni,Franco Meddi,G. Piredda,R. Santacesaria,A. Di Bartolomeo,Cristiano Bozza,G. Grella,G. Iovane,G. Romano,G. Rosa,Yoshihiro Sato,I. Tezuka +149 more
TL;DR: In this paper, a new experimental apparatus, designed principally for a high sensitivity search for ν μ → ν τ oscillation, has been successlly constructed and made operational by the CHORUS Collaboration for the CERN-WA95 experiment.
Journal ArticleDOI
Nanostructured pure and Nb-doped TiO2 as thick film gas sensors for environmental monitoring
Maria Cristina Carotta,Matteo Ferroni,Dario Gnani,Vincenzo Guidi,M. Merli,Giuliano Martinelli,M.C Casale,M Notaro +7 more
TL;DR: In this paper, the nano-structured TiO 2 -based sensors exhibit a suitable sensitivity to atmospheric environmental monitoring provided that the microstructural properties of the materials are suitably correlated to the required electrical features, and they were obtained at high firing temperature by adding a proper metal ions to inhibit the grain sintering.