biomechanics; biomedical transducers; biomedical ultrasonics; finite element analysis; organic compounds; piezoelectric transducers; silicon compounds; ultrasonic transducers; vibrations; wide band gap semiconductors; PZT transducers; SiC; SiOsub2/sub; biotechnology; cross-shaped channel; driving phase difference; ethanol; finite element analysis; flexural vibration mode; frequency 225 kHz; glass substrate; in-phase input voltages; nodal lines; on-chip ultrasonic manipulation; silicon carbide micro-particles; size 50 mum; standing wave; transducers; vibrational distribution; wavelength 13.0 mm; Acoustics; Glass; Substrates; Transducers; Transportation; Ultrasonic imaging; Vibrations; Manipulation; acoustic standing wave; finite element analysis; flexural vibration;
机译:通过使用玻璃基板的弯曲振动,微粒的片上超声波操纵
机译:带有超声波振动的片上磁控机器人,用于单细胞操作
机译:蓝宝石衬底的超声弯曲振动辅助化学机械抛光
机译:使用玻璃基板的弯曲振动进行微粒的片上超声波操作
机译:电容式微机械超声波换能器(CMUT)在下一代医学成像和超越的玻璃基板上
机译:通过可调谐超声波瓶梁精确微粒和气泡操纵
机译:金属棒中超声频率的有限振幅弯曲振动