Nadav Amdursky
Citata da
Citata da
Strong piezoelectricity in bioinspired peptide nanotubes
A Kholkin, N Amdursky, I Bdikin, E Gazit, G Rosenman
ACS nano 4 (2), 610-614, 2010
Molecular rotors: what lies behind the high sensitivity of the thioflavin-T fluorescent marker
N Amdursky, Y Erez, D Huppert
Accounts of chemical research 45 (9), 1548-1557, 2012
Elementary building blocks of self-assembled peptide nanotubes
N Amdursky, M Molotskii, E Gazit, G Rosenman
Journal of the American Chemical Society 132 (44), 15632-15636, 2010
Blue luminescence based on quantum confinement at peptide nanotubes
N Amdursky, M Molotskii, D Aronov, L Adler-Abramovich, E Gazit, ...
Nano Letters 9 (9), 3111-3115, 2009
Electronic transport via proteins
N Amdursky, D Marchak, L Sepunaru, I Pecht, M Sheves, D Cahen
Advanced Materials 26 (42), 7142-7161, 2014
Structural transition in peptide nanotubes
N Amdursky, P Beker, I Koren, B Bank-Srour, E Mishina, S Semin, ...
Biomacromolecules 12 (4), 1349-1354, 2011
Quantum Confinement in Self‐Assembled Bioinspired Peptide Hydrogels
N Amdursky, E Gazit, G Rosenman
Advanced Materials 22 (21), 2311-2315, 2010
Apoptosis induced by islet amyloid polypeptide soluble oligomers is neutralized by diabetes-associated specific antibodies
Y Bram, A Frydman-Marom, I Yanai, S Gilead, R Shaltiel-Karyo, ...
Scientific reports 4 (1), 1-9, 2014
Self-assembled bioinspired quantum dots: optical properties
N Amdursky, M Molotskii, E Gazit, G Rosenman
Applied Physics Letters 94 (26), 261907, 2009
Physics and engineering of peptide supramolecular nanostructures
A Handelman, P Beker, N Amdursky, G Rosenman
Physical Chemistry Chemical Physics 14 (18), 6391-6408, 2012
Circular dichroism of amino acids: following the structural formation of phenylalanine
N Amdursky, MM Stevens
ChemPhysChem 16 (13), 2768-2774, 2015
Conductive scaffolds for cardiac and neuronal tissue engineering: governing factors and mechanisms
A Burnstine‐Townley, Y Eshel, N Amdursky
Advanced Functional Materials 30 (18), 1901369, 2020
Temperature and Force Dependence of Nanoscale Electron Transport via the Cu Protein Azurin
W Li, L Sepunaru, N Amdursky, SR Cohen, I Pecht, M Sheves, D Cahen
ACS nano 6 (12), 10816-10824, 2012
Macroscale biomolecular electronics and ionics
N Amdursky, ED Głowacki, P Meredith
Advanced Materials 31 (3), 1802221, 2019
Bioinspired peptide nanotubes as supercapacitor electrodes
P Beker, I Koren, N Amdursky, E Gazit, G Rosenman
Journal of materials science 45 (23), 6374-6378, 2010
Long‐Range Proton Conduction across Free‐Standing Serum Albumin Mats
N Amdursky, X Wang, P Meredith, DDC Bradley, MM Stevens
Advanced Materials 28 (14), 2692-2698, 2016
Modeling the nonradiative decay rate of electronically excited Thioflavin T
Y Erez, YH Liu, N Amdursky, D Huppert
The Journal of Physical Chemistry A 115 (30), 8479-8487, 2011
Electron transfer across helical peptides
N Amdursky
ChemPlusChem 80 (7), 1075-1095, 2015
Fabrication of hemin-doped serum albumin-based fibrous scaffolds for neural tissue engineering applications
CC Hsu, A Serio, N Amdursky, C Besnard, MM Stevens
ACS applied materials & interfaces 10 (6), 5305-5317, 2018
Solid-state electron transport via cytochrome c depends on electronic coupling to electrodes and across the protein
N Amdursky, D Ferber, CA Bortolotti, DA Dolgikh, RV Chertkova, I Pecht, ...
Proceedings of the National Academy of Sciences 111 (15), 5556-5561, 2014
Il sistema al momento non pu eseguire l'operazione. Riprova pi tardi.
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