S
Serena Laschi
Researcher at University of Florence
Publications - 61
Citations - 2014
Serena Laschi is an academic researcher from University of Florence. The author has contributed to research in topics: Anodic stripping voltammetry & Working electrode. The author has an hindex of 26, co-authored 56 publications receiving 1838 citations.
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Gold-based screen-printed sensor for detection of trace lead
TL;DR: In this paper, a gold-based screen-printed sensor was used for lead detection in combination with square wave anodic stripping voltammetry (SWASV) and the optimized parameters allowed the detection of micrograms per litre of lead concentrations following short analysis time.
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Miniaturised stripping-based carbon modified sensor for in field analysis of heavy metals
TL;DR: In this article, a miniaturized electrochemical carbon modified sensor for on-site stripping analysis of trace heavy metals is described, where graphite working electrode is modified with a cellulose-derivative mercury coating.
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Strategic monitoring for the European Water Framework Directive
Ian Allan,Branislav Vrana,Richard Greenwood,Graham A. Mills,Jesper Knutsson,Arne Holmberg,Nathalie Guigues,Anne-Marie Fouillac,Serena Laschi +8 more
TL;DR: In this article, the principal monitoring requirements of the Water Framework Directive (WFD) of the European Union (EU) and assesses how contaminant monitoring may fit into a risk-assessment approach.
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Electrochemical detection of miRNA-222 by use of a magnetic bead-based bioassay.
Francesca Bettazzi,Ezat Hamid-Asl,Ezat Hamid-Asl,Carla Lucia Esposito,Cristina Quintavalle,Nello Formisano,Serena Laschi,Silvia Catuogno,Margherita Iaboni,Giovanna Marrazza,Marco Mascini,Laura Cerchia,Vittorio de Franciscis,Gerolama Condorelli,Ilaria Palchetti +14 more
TL;DR: An electrochemical method for miRNA detection based on paramagnetic beads and enzyme amplification based on miR 222 was chosen as model sequence, because of its involvement in brain, lung, and liver cancers.
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Tuning the charge distribution and photoswitchable properties of cobalt-dioxolene complexes by using molecular techniques.
TL;DR: The different relaxation kinetics of the photoinduced metastable phases are related to the respective free-energy changes of the interconversion, as estimated by cyclic voltammetric experiments at room temperature, and to the different lattice interactions, as supported by structural data.