Near-field scanning microwave microscope (SMM) is an emerging tool in the family of scanning probe microscopes, having proven its usefulness in semiconductor characterization. SMM promises to be a powerful tool for biology and biophysics, but its use in such domains is still at an embryo stage. Our group developed a broadband SMM allowing spectroscopic and time-domain characterization [1], and tested it on several biological samples [2,3]. In this talk we will describe our most recent results in testing biological samples, ranging from muscle cells and fibrils to cancer cells and exosomes
Frequency-Domain and Time-Domain Scanning Microwave Microscopy for Biological Applications / Farina, Marco; Morini, Antonio; Piacenza, F.; Malavolta, M.; Basso, A.; Provinciali, M.; Pietrangelo, T.; DI DONATO, Andrea; Mencarelli, Davide; Venanzoni, G.; Jin, X.; Hwang, J. C. M.. - STAMPA. - (2017). (Intervento presentato al convegno XIX. Annual Linz Winter Workshop: Advances in Single-Molecule Research for Biology & Nanoscience tenutosi a Linz (Austria) nel 3-6 Febbraio 2017).
Frequency-Domain and Time-Domain Scanning Microwave Microscopy for Biological Applications
FARINA, Marco;MORINI, ANTONIO;DI DONATO, Andrea;MENCARELLI, Davide;
2017-01-01
Abstract
Near-field scanning microwave microscope (SMM) is an emerging tool in the family of scanning probe microscopes, having proven its usefulness in semiconductor characterization. SMM promises to be a powerful tool for biology and biophysics, but its use in such domains is still at an embryo stage. Our group developed a broadband SMM allowing spectroscopic and time-domain characterization [1], and tested it on several biological samples [2,3]. In this talk we will describe our most recent results in testing biological samples, ranging from muscle cells and fibrils to cancer cells and exosomesI documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
