51 |
Processing of 0.55(Ba0.9Ca0.1)TiO3-0.45Ba(Sn0.2Ti0.8)O-3 lead-free ceramics with high piezoelectricity Bijalwan V, Tofel P, Spotz Z, Castkova K, Sobola D, Erhart J, Maca K Journal of the American Ceramic Society, 103(8), 4611, 2020 |
52 |
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 |
53 |
Experimental investigation of acoustic agglomeration of diesel engine exhaust particles using new created acoustic chamber Kilikeviciene K, Kacianauskas R, Kilikevicius A, Maknickas A, Matijosius J, Rimkus A, Vainorius D Powder Technology, 360, 421, 2020 |
54 |
Sustainable synthesis and applications of polyhydroxyalkanoates (PHAs) from biomass Adeleye AT, Odoh CK, Enudi OC, Banjoko OO, Osiboye OO, Odediran ET, Louis H Process Biochemistry, 96, 174, 2020 |
55 |
Ultrasonic de-icing of wind turbine blades: Performance comparison of perspective transducers Daniliuk V, Xu YM, Liu RB, He TP, Wang X Renewable Energy, 145, 2005, 2020 |
56 |
A case study on piezoelectric energy harvesting with using vortex generator plate modeling for fluids Yayla S, Ayca S, Oruc M Renewable Energy, 157, 1243, 2020 |
57 |
Piezoelectric materials for catalytic/photocatalytic removal of pollutants: Recent advances and outlook Liang Z, Yan CF, Rtimi S, Bandara J Applied Catalysis B: Environmental, 241, 256, 2019 |
58 |
Electroelastic investigation of drying rate in the direct contact ultrasonic fabric dewatering process Dupuis ED, Momen AM, Patel VK, Shahab S Applied Energy, 235, 451, 2019 |
59 |
Numerical analysis of a new piezoelectric-based energy harvesting pavement system: Lessons from laboratory-based and field-based simulations Guo LK, Lu Q Applied Energy, 235, 963, 2019 |
60 |
A water-proof magnetically coupled piezoelectric-electromagnetic hybrid wind energy harvester Zhao LC, Zou HX, Yan G, Liu FR, Tan T, Zhang WM, Peng ZK, Meng G Applied Energy, 239, 735, 2019 |