| 1 |
Direct measurement of contraction force in human cardiac tissue model using piezoelectric cantilever sensor technique
Virtanen J, Toivanen M, Toimela T, Heinonen T, Tuukkanen S
Current Applied Physics, 20(1), 155, 2020 |
| 2 |
Optimization of processing condition for dome-shaped PVDF piezoelectric device for large area tactile sensors
Song H, Ovhal MM, Kang JW, Lim S
Molecular Crystals and Liquid Crystals, 704(1), 125, 2020 |
| 3 |
Piezoelectric device operating as sensor and harvester to drive switching circuit in LED shoes
Jeong SY, Hwang WS, Cho JY, Jeong JC, Ahn JH, Kim KB, Hong SD, Song GJ, Jeon DH, Sung TH
Energy, 177, 87, 2019 |
| 4 |
Energy harvesting and strain sensing in smart tire for next generation autonomous vehicles
Maurya D, Kumar P, Khaleghian S, Sriramdas R, Kang MG, Kishore RA, Kumar V, Song HC, Park JM, Taheri S, Priya S
Applied Energy, 232, 312, 2018 |
| 5 |
Experimental validation of a novel piezoelectric energy harvesting system employing wake galloping phenomenon for a broad wind spectrum
Usman M, Hanif A, Kim IH, Jung HJ
Energy, 153, 882, 2018 |
| 6 |
Turbulence model development for flotation cells based on piezoelectric sensor measurements
Meng J, Xie WG, Tabosa E, Runge K, Bradshaw D
International Journal of Mineral Processing, 156, 116, 2016 |
| 7 |
Piezoelectric properties of the new generation active matrix hybrid (micro-nano) composites
Parali L, Sabikoglu I, Kurbanov MA
Applied Surface Science, 318, 6, 2014 |
| 8 |
Measuring turbulence in a flotation cell using the piezoelectric sensor
Meng J, Xie WG, Brennan M, Runge K, Bradshaw D
Minerals Engineering, 66-68, 84, 2014 |
| 9 |
On-line particle sizing of pneumatically conveyed biomass particles using piezoelectric sensors
Gao LJ, Yan Y, Carter RM, Sun D, Lee P, Xu CL
Fuel, 113, 810, 2013 |
| 10 |
Acoustic vibration method for food texture evaluation using an accelerometer sensor
Iwatani S, Akimoto H, Sakurai N
Journal of Food Engineering, 115(1), 26, 2013 |
