Anderson David Smith
Anderson David Smith
Associate Professor, Chalmers University of Technology
Verified email at
Cited by
Cited by
Electromechanical piezoresistive sensing in suspended graphene membranes
AD Smith, F Niklaus, A Paussa, S Vaziri, AC Fischer, M Sterner, ...
Nano letters 13 (7), 3237-3242, 2013
Resistive graphene humidity sensors with rapid and direct electrical readout
AD Smith, K Elgammal, F Niklaus, A Delin, AC Fischer, S Vaziri, ...
Nanoscale 7 (45), 19099-19109, 2015
A graphene-based hot electron transistor
S Vaziri, G Lupina, C Henkel, AD Smith, M Östling, J Dabrowski, ...
Nano letters 13 (4), 1435-1439, 2013
Inkjet printed highly transparent and flexible graphene micro-supercapacitors
SS Delekta, AD Smith, J Li, M Östling
Nanoscale 9 (21), 6998-7005, 2017
Piezoresistive Properties of Suspended Graphene Membranes under Uniaxial and Biaxial Strain in Nanoelectromechanical Pressure Sensors
AD Smith, F Niklaus, A Paussa, S Schröder, AC Fischer, M Sterner, ...
ACS nano 10 (11), 9879-9886, 2016
Chemical vapor deposited graphene: From synthesis to applications
S Kataria, S Wagner, J Ruhkopf, A Gahoi, H Pandey, R Bornemann, ...
physica status solidi (a) 211 (11), 2439-2449, 2014
A Comprehensive Graphene FET Model for Circuit Design
S Rodriguez, S Vaziri, A Smith, S Frégonèse, M Ostling, MC Lemme, ...
IEEE, 2014
Pressure sensors based on suspended graphene membranes
AD Smith, S Vaziri, F Niklaus, AC Fischer, M Sterner, A Delin, M Östling, ...
Solid-State Electronics 88, 89-94, 2013
Graphene ribbons with suspended masses as transducers in ultra-small nanoelectromechanical accelerometers
X Fan, F Forsberg, AD Smith, S Schröder, S Wagner, H Rödjegård, ...
Nature Electronics 2 (9), 394-404, 2019
Humidity and CO2 gas sensing properties of double-layer graphene
X Fan, K Elgammal, AD Smith, M Östling, A Delin, MC Lemme, F Niklaus
Carbon 127, 576-587, 2018
Graphene-based CO 2 sensing and its cross-sensitivity with humidity
AD Smith, K Elgammal, X Fan, MC Lemme, A Delin, M Råsander, ...
RSC Advances 7 (36), 22329-22339, 2017
Self-discharge and leakage current mitigation of neutral aqueous-based supercapacitor by means of liquid crystal additive
M Haque, Q Li, AD Smith, V Kuzmenko, P Rudquist, P Lundgren, ...
Journal of Power Sources 453, 227897, 2020
Manufacture and characterization of graphene membranes with suspended silicon proof masses for MEMS and NEMS applications
X Fan, AD Smith, F Forsberg, S Wagner, S Schröder, SSA Akbari, ...
Microsystems & Nanoengineering 6 (1), 17, 2020
Bilayer insulator tunnel barriers for graphene-based vertical hot-electron transistors
S Vaziri, M Belete, ED Litta, AD Smith, G Lupina, MC Lemme, M Östling
Nanoscale 7 (30), 13096-13104, 2015
Effective piezoelectric energy harvesting with bandwidth enhancement by assymetry augmented self-tuning of conjoined cantilevers
LGH Staaf, AD Smith, P Lundgren, PD Folkow, P Enoksson
International Journal of Mechanical Sciences 150, 1-11, 2019
Graphene transfer methods for the fabrication of membrane-based NEMS devices
S Wagner, C Weisenstein, AD Smith, M Östling, S Kataria, MC Lemme
Microelectronic Engineering 159, 108-113, 2016
Bias-temperature instability in single-layer graphene field-effect transistors
YY Illarionov, AD Smith, S Vaziri, M Ostling, T Mueller, MC Lemme, ...
Applied Physics Letters 105 (14), 2014
Identification of self-discharge mechanisms of ionic liquid electrolyte based supercapacitor under high-temperature operation
M Haque, Q Li, C Rigato, A Rajaras, AD Smith, P Lundgren, P Enoksson
Journal of Power Sources 485, 229328, 2021
Redox enhanced energy storage in an aqueous high-voltage electrochemical capacitor with a potassium bromide electrolyte
Q Li, M Haque, V Kuzmenko, N Ramani, P Lundgren, AD Smith, ...
Journal of Power Sources 348, 219-228, 2017
Going ballistic: Graphene hot electron transistors
S Vaziri, AD Smith, M Östling, G Lupina, J Dabrowski, G Lippert, W Mehr, ...
Solid State Communications 224, 64-75, 2015
The system can't perform the operation now. Try again later.
Articles 1–20