ENHANCING SELECTIVITY OF CANTILEVER-BASED RESONANT CHEMICAL SENSORS THROUGH TRANSIENT MEASUREMENTS AT ELEVATED TEMPERATURES | Zendy

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ENHANCING SELECTIVITY OF CANTILEVER-BASED RESONANT CHEMICAL SENSORS THROUGH TRANSIENT MEASUREMENTS AT ELEVATED TEMPERATURES

Author(s) -

Patrick Getz,

C. Carron,

Oliver Brand

Publication year - 2018

Publication title -

1998 solid-state, actuators, and microsystems workshop technical digest

Language(s) - English

Resource type - Conference proceedings

DOI - 10.31438/trf.hh2018.84

Subject(s) - analyte , cantilever , desorption , selectivity , analytical chemistry (journal) , partition coefficient , arrhenius equation , materials science , transient (computer programming) , diffusion , temperature coefficient , temperature measurement , chemical sensor , chemistry , activation energy , thermodynamics , chromatography , electrode , composite material , organic chemistry , computer science , operating system , catalysis , physics , adsorption

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