Giovanni Esposito
University of Naples Federico II
769 Papers
3K Citations
Giovanni Esposito is an academic researcher from University of Naples Federico II. The author has contributed to research in topics: Medicine & Chemistry. The author has an hindex of 65, co-authored 614 publications. Previous affiliations of Giovanni Esposito include Duke University & UNESCO-IHE Institute for Water Education.
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Papers
•Journal Article
Bioequivalenza ed eccipienti: il caso del tirofiban. Un “warning” della Società Italiana di Cardiologia Interventistica (SICI-GISE)
Marianna Adamo,Roberto Bonmassari,Guglielmo Bernardi,Paola Colombo,Giovanni Esposito,Marco Ferlini,Alessio La Manna,Ugo Limbruno,Alfredo Marchese,Ciro Mauro,Alberto Menozzi,Nicosia A,Stefano Rigattieri,Giuseppe Tarantini,Fabio Tarantino,Marco Valgimigli,Ferdinando Varbella,Giuseppe Musumeci +17 more
TL;DR: La riduzione degli eventi avversi periprocedurali quali morte, reinfarto e trombosi di stent aveva portato, nei primi anni dalla loro introduzione, ad un largo impiego nei pazienti con sindromi coronariche acute.
Treatment of dairy cattle slurry for biogas production and nitrogen recovery
Ester Scotto di Perta,R. Grieco,Stefano Papirio,Giovanni Esposito,Elena Cervelli,Stefania Pindozzi +5 more
- 03 Nov 2022
TL;DR: In this article , anaerobic digestion (AD) is combined with ammonia stripping as an integrated management strategy for manure deriving from intensive livestock breeding, and the results show that the specific cumulative methane production obtained under the three conditions investigated ranged between 133 and 155 NmL CH4/g VS.
Surface volatilization modeling of (semi-)volatile hydrophobic organic compounds: The role of reference compounds
Douglas O. Pino-Herrera,Yannick Fayolle,Eric D. van Hullebusch,David Huguenot,Giovanni Esposito,Yoan Pechaud +5 more
TL;DR: In this paper, the authors proposed an experimental methodology and a modeling approach for the use of the two-reference compound model (2RCM) that considers both the liquid-side and the gas-side resistances, by using water and oxygen as references.