Yoeri van de Burgt
Yoeri van de Burgt
Verified email at tue.nl
Title
Cited by
Cited by
Year
A non-volatile organic electrochemical device as a low-voltage artificial synapse for neuromorphic computing
Y van de Burgt, E Lubberman, EJ Fuller, ST Keene, GC Faria, S Agarwal, ...
Nature Materials, 2017
6772017
Organic electronics for neuromorphic computing
Y van de Burgt, A Melianas, ST Keene, G Malliaras, A Salleo
Nature Electronics 1 (7), 386-397, 2018
2752018
Revealing the cell–material interface with nanometer resolution by focused ion beam/scanning electron microscopy
F Santoro, W Zhao, LM Joubert, L Duan, J Schnitker, Y van de Burgt, ...
ACS nano 11 (8), 8320-8328, 2017
1122017
Redefining near-unity luminescence in quantum dots with photothermal threshold quantum yield
DA Hanifi, ND Bronstein, BA Koscher, Z Nett, JK Swabeck, K Takano, ...
Science 363 (6432), 1199-1202, 2019
892019
Electrolyte-gated transistors for synaptic electronics, neuromorphic computing, and adaptable biointerfacing
H Ling, DA Koutsouras, S Kazemzadeh, Y Van De Burgt, F Yan, ...
Applied Physics Reviews 7 (1), 011307, 2020
382020
A biohybrid synapse with neurotransmitter-mediated plasticity
ST Keene, C Lubrano, S Kazemzadeh, A Melianas, Y Tuchman, G Polino, ...
Nature Materials 19 (9), 969-973, 2020
332020
Mechanisms for Enhanced State Retention and Stability in Redox‐Gated Organic Neuromorphic Devices
ST Keene, A Melianas, Y van de Burgt, A Salleo
Advanced Electronic Materials 5 (2), 1800686, 2019
322019
Towards organic neuromorphic devices for adaptive sensing and novel computing paradigms in bioelectronics
ERW van Doremaele, P Gkoupidenis, Y van de Burgt
Journal of Materials Chemistry C 7 (41), 12754-12760, 2019
272019
Optimized pulsed write schemes improve linearity and write speed for low-power organic neuromorphic devices
ST Keene, A Melianas, EJ Fuller, Y van de Burgt, AA Talin, A Salleo
Journal of Physics D: Applied Physics 51 (22), 224002, 2018
272018
Enhancement‐Mode PEDOT: PSS Organic Electrochemical Transistors Using Molecular De‐Doping
ST Keene, TPA van der Pol, D Zakhidov, CHL Weijtens, RAJ Janssen, ...
Advanced Materials 32 (19), 2070148, 2020
172020
Laser-assisted growth of carbon nanotubes—A review
Y van de Burgt
Journal of Laser Applications 26 (3), 032001, 2014
172014
Microfluidic magnetic mixing at low reynolds numbers and in stagnant fluids
ES Shanko, Y van de Burgt, PD Anderson, JMJ den Toonder
Micromachines 10 (11), 731, 2019
152019
Enhanced cell–chip coupling by rapid femtosecond laser patterning of soft PEDOT: PSS biointerfaces
F Santoro, Y van de Burgt, ST Keene, B Cui, A Salleo
ACS applied materials & interfaces 9 (45), 39116-39121, 2017
142017
In situ monitoring of single-wall carbon nanotube laser assisted growth
M Haluška, Y Bellouard, Y Van de Burgt, A Dietzel
Nanotechnology 21 (7), 075602, 2010
132010
Organic neuromorphic devices: Past, present, and future challenges
Y Tuchman, TN Mangoma, P Gkoupidenis, Y Van De Burgt, RA John, ...
MRS Bulletin 45 (8), 619-630, 2020
112020
The mechanism of dedoping PEDOT: PSS by aliphatic polyamines
TPA van der Pol, ST Keene, BWH Saes, SCJ Meskers, A Salleo, ...
The Journal of Physical Chemistry C 123 (39), 24328-24337, 2019
112019
Kinetics of laser-assisted carbon nanotube growth
Y van de Burgt, Y Bellouard, R Mandamparambil
Physical Chemistry Chemical Physics 16 (11), 5162-5173, 2014
92014
Closed-loop control of laser assisted chemical vapor deposition growth of carbon nanotubes
Y Van De Burgt, Y Bellouard, R Mandamparambil, M Haluska, A Dietzel
Journal of Applied Physics 112 (3), 034904, 2012
72012
Organic materials and devices for brain-inspired computing: From artificial implementation to biophysical realism
Y Van De Burgt, P Gkoupidenis
MRS Bulletin 45 (8), 631-640, 2020
42020
In-situ localized carbon nanotube growth inside partially sealed enclosures
Y Van De Burgt, A Champion, Y Bellouard
AIP Advances 3 (9), 092119, 2013
32013
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Articles 1–20