Martin Lee
Title
Cited by
Cited by
Year
Highly Anisotropic Mechanical and Optical Properties of 2D Layered As2S3 Membranes
M Šiškins, M Lee, F Alijani, MR van Blankenstein, D Davidovikj, ...
ACS nano 13 (9), 10845-10851, 2019
192019
Sealing Graphene Nanodrums
M Lee, D Davidovikj, B Sajadi, M Šiškins, F Alijani, HSJ van der Zant, ...
Nano letters 19 (8), 5313-5318, 2019
92019
Two-component structural phase-field crystal models for graphene symmetries
KLM Elder, M Seymour, M Lee, M Hilke, N Provatas
Philosophical Transactions of the Royal Society A: Mathematical, Physical …, 2018
82018
Transient thermal characterization of suspended monolayer
RJ Dolleman, D Lloyd, M Lee, JS Bunch, HSJ van der Zant, ...
Physical Review Materials 2 (11), 114008, 2018
62018
Magnetic and electronic phase transitions probed by nanomechanical resonators
M Šiškins, M Lee, S Maņas-Valero, E Coronado, YM Blanter, ...
Nature Communications 11 (1), 1-7, 2020
52020
Ultrathin complex oxide nanomechanical resonators
D Davidovikj, DJ Groenendijk, AMRVL Monteiro, A Dijkhoff, D Afanasiev, ...
Communications Physics 3 (1), 1-6, 2020
32020
Investigating the impact of SEM chamber conditions and imaging parameters on contact resistance of in situ nanoprobing
J Qu, M Lee, M Hilke, X Liu
Nanotechnology 28 (34), 345702, 2017
32017
Graphene Effusion-based Gas Sensor
IE Rosłoń, RJ Dolleman, H Licona, M Lee, M Šiškins, H Lebius, L Madauß, ...
arXiv preprint arXiv:2001.09509, 2020
22020
Real-space Raman spectroscopy of graphene isotope superlattices
E Whiteway, M Lee, M Hilke
Physical Review B 102 (23), 235429, 2020
12020
Sensitive capacitive pressure sensors based on graphene membrane arrays
M Šiškins, M Lee, D Wehenkel, R van Rijn, TW de Jong, JR Renshof, ...
Microsystems & Nanoengineering 6 (1), 1-9, 2020
12020
Graphene Isotope Superlattices with Strongly Diminished Thermal Conductivity for Thermoelectric Applications
E Whiteway, M Lee, M Hilke
ACS Applied Nano Materials 3 (9), 9167-9173, 2020
12020
Enhanced nonlinear damping in graphene by parametric-direct internal resonance
A Keşkekler, O Shoshani, HSJ van der Zant, PG Steeneken, F Alijani
arXiv preprint arXiv:2006.09364, 2020
12020
A Mechanically Tunable Quantum Dot in a Graphene Break Junction
S Caneva, MD Hermans, M Lee, A Garcia-Fuente, K Watanabe, ...
arXiv preprint arXiv:2002.03992, 2020
12020
MoS2-on-paper optoelectronics: drawing photodetectors with van der Waals semiconductors beyond graphite
A Mazaheri, M Lee, HSJ van der Zant, R Frisenda, A Castellanos-Gomez
Nanoscale, 2020
12020
Magnetic and electronic phase transitions probed by nanomechanical resonance
M Šiškins, M Lee, S Maņas-Valero, E Coronado, YM Blanter, ...
arXiv preprint arXiv:1911.08537, 2019
12019
From 2D to 3D: Graphene molding for transparent and flexible probes
M Lee, TA Vuong, E Whiteway, X Capaldi, Y Zhang, W Reisner, ...
Applied Physics Letters 114 (4), 043301, 2019
12019
High-frequency gas effusion through nanopores in suspended graphene
IE Rosłoń, RJ Dolleman, H Licona, M Lee, M Šiškins, H Lebius, L Madauß, ...
Nature communications 11 (1), 1-6, 2020
2020
Controlling the anisotropy of a van der Waals antiferromagnet with light
D Afanasiev, JR Hortensius, M Matthiesen, S Maņas-Valero, M Šiškins, ...
arXiv preprint arXiv:2010.05062, 2020
2020
Enhancing nonlinear damping by parametric-direct internal resonance
A Keșkekler, O Shoshani, M Lee, HSJ van der Zant, PG Steeneken, ...
arXiv e-prints, arXiv: 2006.09364, 2020
2020
Drawing WS 2 thermal sensors on paper substrates
M Lee, A Mazaheri, HSJ van der Zant, R Frisenda, A Castellanos-Gomez
Nanoscale 12 (43), 22091-22096, 2020
2020
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Articles 1–20