Shlomo Magdassi
Shlomo Magdassi
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Cited by
Cited by
Conductive nanomaterials for printed electronics
A Kamyshny, S Magdassi
Small 10 (17), 3515-3535, 2014
3D Printing of Shape Memory Polymers for Flexible Electronic Devices.
M Zarek, M Layani, I Cooperstein, E Sachyani, D Cohn, S Magdassi
Advanced Materials (Deerfield Beach, Fla.) 28 (22), 4449-4454, 2015
Highly stretchable and UV curable elastomers for digital light processing based 3D printing
DK Patel, AH Sakhaei, M Layani, B Zhang, Q Ge, S Magdassi
Advanced Materials 29 (15), 1606000, 2017
Triggering the sintering of silver nanoparticles at room temperature
S Magdassi, M Grouchko, O Berezin, A Kamyshny
ACS nano 4 (4), 1943-1948, 2010
Metal-based inkjet inks for printed electronics
A Kamyshny, J Steinke, S Magdassi
The Open applied physics journal 4 (1), 2011
Amplification of complex gene libraries by emulsion PCR
R Williams, SG Peisajovich, OJ Miller, S Magdassi, DS Tawfik, AD Griffiths
Nature methods 3 (7), 545-550, 2006
Copper nanoparticles for printed electronics: routes towards achieving oxidation stability
S Magdassi, M Grouchko, A Kamyshny
Materials 3 (9), 4626-4638, 2010
Novel materials for 3D printing by photopolymerization
M Layani, X Wang, S Magdassi
Advanced Materials 30 (41), 1706344, 2018
The chemistry of inkjet inks
S Magdassi
World scientific, 2009
Highly stable transparent conductive silver grid/PEDOT: PSS electrodes for integrated bifunctional flexible electrochromic supercapacitors
G Cai, P Darmawan, M Cui, J Wang, J Chen, S Magdassi, PS Lee
Advanced Energy Materials 6 (4), 1501882, 2016
Protein stabilized pharmacologically active agents, methods for the preparation thereof and methods for the use thereof
NP Desai, C Tao, A Yang, L Louie, T Zheng, Z Yao, P Soon-Shiong, ...
US Patent 5,916,596, 1999
Formation of air-stable copper–silver core–shell nanoparticles for inkjet printing
M Grouchko, A Kamyshny, S Magdassi
Journal of Materials Chemistry 19 (19), 3057-3062, 2009
Hydrothermal Synthesis of VO2 Polymorphs: Advantages, Challenges and Prospects for the Application of Energy Efficient Smart Windows
M Li, S Magdassi, Y Gao, Y Long
small 13 (36), 1701147, 2017
Conductive nanomaterials for 2D and 3D printed flexible electronics
A Kamyshny, S Magdassi
Chemical Society Reviews 48 (6), 1712-1740, 2019
Conductive inks with a “built-in” mechanism that enables sintering at room temperature
M Grouchko, A Kamyshny, CF Mihailescu, DF Anghel, S Magdassi
ACS nano 5 (4), 3354-3359, 2011
Silver nanoparticles as pigments for water-based ink-jet inks
S Magdassi, A Bassa, Y Vinetsky, A Kamyshny
Chemistry of Materials 15 (11), 2208-2217, 2003
Technology roadmap for flexible sensors
Y Luo, MR Abidian, JH Ahn, D Akinwande, AM Andrews, M Antonietti, ...
ACS nano 17 (6), 5211-5295, 2023
High-throughput screening of enzyme libraries: thiolactonases evolved by fluorescence-activated sorting of single cells in emulsion compartments
A Aharoni, G Amitai, K Bernath, S Magdassi, DS Tawfik
Chemistry & biology 12 (12), 1281-1289, 2005
Composition exhibiting enhanced formulation stability and delivery of topical active ingredients
N Lapidot, S Magdassi, D Avnir, C Rottman, O Gans, A Seri-Levy
US Patent 7,758,888, 2010
Transparent conductive coatings by printing coffee ring arrays obtained at room temperature
M Layani, M Gruchko, O Milo, I Balberg, D Azulay, S Magdassi
ACS nano 3 (11), 3537-3542, 2009
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