Mass and stiffness spectrometry of nanoparticles and whole intact bacteria by multimode nanomechanical resonators

Malvar, O.; Ruz, J. J.; Kosaka, P. M.; Domínguez, C. M.; Gil-Santos, E.; Calleja, M.; Tamayo, J.

Mass and stiffness spectrometry of nanoparticles and whole intact bacteria by multimode nanomechanical resonators

O. Malvar, J. J. Ruz, P. M. Kosaka, C. M. Domínguez, E. Gil-Santos, M. Calleja and J. Tamayo ()
Additional contact information
O. Malvar: Institute of Microelectronics of Madrid (IMM-CSIC)
J. J. Ruz: Institute of Microelectronics of Madrid (IMM-CSIC)
P. M. Kosaka: Institute of Microelectronics of Madrid (IMM-CSIC)
C. M. Domínguez: Institute of Microelectronics of Madrid (IMM-CSIC)
E. Gil-Santos: Matériaux et Phénomènes Quantiques, Université Paris Diderot, CNRS
M. Calleja: Institute of Microelectronics of Madrid (IMM-CSIC)
J. Tamayo: Institute of Microelectronics of Madrid (IMM-CSIC)

Nature Communications, 2016, vol. 7, issue 1, 1-8

Abstract: Abstract The identification of species is a fundamental problem in analytical chemistry and biology. Mass spectrometers identify species by their molecular mass with extremely high sensitivity (

Date: 2016
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DOI: 10.1038/ncomms13452

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