Nathan Jackson
Nathan Jackson
University of New Mexico, Arizona State University, Tyndall National Institute
Dirección de correo verificada de asu.edu
TítuloCitado porAño
Combination of hybrid energy harvesters with MEMS piezoelectric and nano-Watt radio wake up to extend lifetime of system for wireless sensor nodes
M Magno, N Jackson, A Mathewson, L Benini, E Popovici
26th International Conference on Architecture of Computing Systems 2013, 1-6, 2013
472013
Energy harvesting from train-induced response in bridges
P Cahill, NAN Nuallain, N Jackson, A Mathewson, R Karoumi, V Pakrashi
Journal of Bridge Engineering 19 (9), 04014034, 2014
462014
Flexible-CMOS and biocompatible piezoelectric AlN material for MEMS applications
N Jackson, L Keeney, A Mathewson
Smart Material Structures 22 (11), 5033, 2013
462013
Influence of aluminum nitride crystal orientation on MEMS energy harvesting device performance
N Jackson, R O’Keeffe, F Waldron, M O’Neill, A Mathewson
Journal of Micromechanics and Microengineering 23 (7), 075014, 2013
422013
Flexible chip-scale package and interconnect for implantable MEMS movable microelectrodes for the brain
N Jackson, J Muthuswamy
Journal of Microelectromechanical Systems 18 (2), 396-404, 2009
402009
Evaluation of low-acceleration MEMS piezoelectric energy harvesting devices
N Jackson, R O’Keeffe, F Waldron, M O’Neill, A Mathewson
Microsystem technologies 20 (4-5), 671-680, 2014
352014
Ultrasound induced increase in excitability of single neurons
ML Khraiche, WB Phillips, N Jackson, J Muthuswamy
2008 30th Annual International Conference of the IEEE Engineering in …, 2008
332008
Artificial dural sealant that allows multiple penetrations of implantable brain probes
N Jackson, J Muthuswamy
Journal of neuroscience methods 171 (1), 147-152, 2008
332008
Long-term neural recordings using MEMS based moveable microelectrodes in the brain
N Jackson, A Sridharan, S Anand, M Baker, M Okandan, J Muthuswamy
Frontiers in neuroengineering 3, 10, 2010
302010
Widening the bandwidth of vibration energy harvesters using a liquid-based non-uniform load distribution
N Jackson, F Stam, OZ Olszewski, H Doyle, A Quinn, A Mathewson
Sensors and Actuators A: Physical 246, 170-179, 2016
272016
Single neuronal recordings using surface micromachined polysilicon microelectrodes
J Muthuswamy, M Okandan, N Jackson
Journal of neuroscience methods 142 (1), 45-54, 2005
272005
Structural health monitoring of reinforced concrete beam using piezoelectric energy harvesting system
P Cahill, R O'Keeffe, N Jackson, A Mathewson, V Pakrashi
262014
Tunable MEMS piezoelectric energy harvesting device
A Rivadeneyra, JM Soto-Rueda, R O’Keeffe, J Banqueri, N Jackson, ...
Microsystem Technologies 22 (4), 823-830, 2016
202016
Enhancing the piezoelectric properties of flexible hybrid AlN materials using semi-crystalline parylene
N Jackson, A Mathewson
Smart Materials and Structures 26 (4), 045005, 2017
192017
A MEMS silicon-based piezoelectric AC current sensor
OZ Olszewski, R Houlihan, R O’Keeffe, M O’Neill, F Waldron, ...
Procedia Engineering 87, 1457-1460, 2014
182014
Influence of silicon crystal orientation on piezoelectric textured aluminium nitride deposited on metal electrodes
N Jackson
Vacuum 132, 47-52, 2016
162016
Nonhermetic encapsulation materials for MEMS-based movable microelectrodes for long-term implantation in the brain
N Jackson, S Anand, M Okandan, J Muthuswamy
Journal of Microelectromechanical Systems 18 (6), 1234-1245, 2009
162009
Optimization of electrical stimulation parameters for electro‐responsive hydrogels for biomedical applications
N Jackson, F Stam
Journal of Applied Polymer Science 132 (12), 2015
152015
A diaphragm based piezoelectric AlN film quality test structure
N Jackson, R O'Keeffe, R O'Leary, M O'Neill, F Waldron, A Mathewson
2012 IEEE International Conference on Microelectronic Test Structures, 50-54, 2012
142012
Evaluation of vibrational PiezoMEMS harvester that scavenges energy from a magnetic field surrounding an AC current-carrying wire
OZ Olszewski, R Houlihan, A Blake, A Mathewson, N Jackson
Journal of Microelectromechanical Systems 26 (6), 1298-1305, 2017
132017
El sistema no puede realizar la operación en estos momentos. Inténtalo de nuevo más tarde.
Artículos 1–20