Anderson David Smith

Forskare vid Chalmers, Mikroteknologi och nanovetenskap (MC2), Elektronikmaterial och system

Visar 15 publikationer

2019

Surface Roughening with Iron Nanoparticles for Promoted Adhesion of Spin Coated Microsupercapacitor Electrodes

Agin Vyas, Qi Li, F. Cornaglia et al
MRS Advances. Vol. 4 (23), p. 1335-1340
Paper i proceeding
2019

Impact of designed asymmetries on the effective bandwidth of a backfolded piezoelectric energy harvester

Elof Köhler, Henrik Staaf, Anderson David Smith et al
Sensors and Actuators, A: Physical. Vol. 292, p. 77-89
Artikel i vetenskaplig tidskrift
2019

Compact and low loss electrochemical capacitors using a graphite / carbon nanotube hybrid material for miniaturized systems

Qi Li, S. Sun, Anderson David Smith et al
Journal of Power Sources, p. 374-383
Artikel i vetenskaplig tidskrift
2019

Effective piezoelectric energy harvesting with bandwidth enhancement by assymetry augmented self-tuning of conjoined cantilevers

Henrik Staaf, Anderson David Smith, Per Lundgren et al
International Journal of Mechanical Sciences. Vol. 150, p. 1-11
Artikel i vetenskaplig tidskrift
2018

Carbon hybrid and its derived materials for electrochemical capacitors

Qi Li, Anderson David Smith, Mohammad Mazharul Haque et al
Konferensbidrag (offentliggjort, men ej förlagsutgivet)
2018

Verification of Self-Tuning 4DOF Piezoelectric Energy Harvester with Enhanced Bandwidth

Henrik Staaf, Elof Köhler, Anderson David Smith et al
PowerMEMS 2017, The 17th international conference on Micro and Nanotechnology for Power Generation and Energy Conservation Application, November 14-17, Kanazawa, Japan (To be published in Journal of Physics Conference S)
Paper i proceeding
2018

Influence of Humidity on Contact Resistance in Graphene Devices

Arne Quellmalz, Anderson David Smith, Karim Elgammal et al
ACS Applied Materials & Interfaces. Vol. 10 (48), p. 41738-41746
Artikel i vetenskaplig tidskrift
2018

Toward CMOS compatible wafer-scale fabrication of carbon-based microsupercapacitors for IoT

Anderson David Smith, Qi Li, A. Anderson et al
Journal of Physics: Conference Series. Vol. 1052 (1)
Paper i proceeding
2018

Thermal influence on the electrochemical behavior of a supercapacitor containing an ionic liquid electrolyte

Mohammad Mazharul Haque, Qi Li, Anderson David Smith et al
Electrochimica Acta. Vol. 263, p. 249-260
Artikel i vetenskaplig tidskrift
2018

Achieving increased bandwidth for 4 degree of freedom self-tuning energy harvester

Henrik Staaf, Anderson David Smith, Elof Köhler et al
Journal of Sound and Vibration. Vol. 420, p. 165-173
Artikel i vetenskaplig tidskrift
2018

A Micromachined Coupled-Cantilever for Piezoelectric Energy Harvesters

Agin Vyas, Henrik Staaf, Cristina Rusu et al
Micromachines. Vol. 9 (5)
Artikel i vetenskaplig tidskrift
2017

Redox enhanced energy storage in an aqueous high-voltage electrochemical capacitor with a potassium bromide electrolyte

Qi Li, Mohammad Mazharul Haque, Volodymyr Kuzmenko et al
Journal of Power Sources. Vol. 348, p. 219-228
Artikel i vetenskaplig tidskrift
2017

Density functional calculations of graphene-based humidity and carbon dioxide sensors: effect of silica and sapphire substrates

Karim Elgammal, Håkan W. Hugosson, Anderson David Smith et al
Surface Science. Vol. 663 (Sept.), p. 23-30
Artikel i vetenskaplig tidskrift
2017

Ionic liquid electrolyte for supercapacitor with high temperature compatibility

Mohammad Mazharul Haque, Qi Li, Volodymyr Kuzmenko et al
Journal of Physics: Conference Series. Vol. 922 (1)
Paper i proceeding
2017

Graphite paper / carbon nanotube composite: A potential supercapacitor electrode for powering microsystem technology

Qi Li, Anderson David Smith, Mohammad Mazharul Haque et al
Journal of Physics: Conference Series. Vol. 922 (1)
Paper i proceeding

Spara referenser

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Visar 1 forskningsprojekt

2019–2020

Microelectronic Energy Storage Systems for Integration Alongside Harvesters

Peter Enoksson Elektronikmaterial och system
Torbjörn Thiringer Elmaskiner och kraftelektronik
Anderson David Smith Elektronikmaterial och system
Chalmers

Det kan finnas fler projekt där Anderson David Smith medverkar, men du måste vara inloggad som anställd på Chalmers för att kunna se dem.