Nanotechnology in Auditory Research: Membrane Electromechanics in Hearing
Author:
Publisher
Springer New York
Link
http://link.springer.com/content/pdf/10.1007/978-1-4939-3615-1_20
Reference15 articles.
1. Ilin V, Malyshev A, Wolf F, Volgushev M (2013) Fast computations in cortical ensembles require rapid initiation of action potentials. J Neurosci 33(6):2281–2292
2. Yang S, Saif MT (2007) Force response and actin remodeling (agglomeration) in fibroblasts due to lateral indentation. Acta Biomater 3(1):77–87
3. Mosbacher J, Langer M, Horber JK, Sachs F (1998) Voltage-dependent membrane displacements measured by atomic force microscopy. J Gen Physiol 111(1):65–74
4. Hochmuth RM (2000) Micropipette aspiration of living cells. J Biomech 33(1):15–22
5. Oghalai JS, Patel AA, Nakagawa T, Brownell WE (1998) Fluorescence-imaged microdeformation of the outer hair cell lateral wall. J Neurosci 18(1):48–58
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