摘要
Acoustic tweezers have great application prospects because they allow noncontact and noninvasive manipulation of microparticles in a wide range of media.However,the nontransparency and heterogeneity of media in practical applications complicate particle trapping and manipulation.In this study,we designed a 1.04 MHz 256-element 2D matrix array for 3D acoustic tweezers to guide and monitor the entire process using real-time 3D ultrasonic images,thereby enabling acoustic manipulation in nontransparent media.Furthermore,we successfully performed dynamic 3D manipulations on multiple microparticles using multifoci and vortex traps.We achieved 3D particle manipulation in heterogeneous media(through resin baffle and ex vivo macaque and human skulls)by introducing a method based on the time reversal principle to correct the phase and amplitude distortions of the acoustic waves.Our results suggest cutting-edge applications of acoustic tweezers such as acoustical drug delivery,controlled micromachine transfer,and precise treatment.
出处
《Research》
SCIE
EI
CAS
CSCD
2021年第1期801-813,共13页
研究(英文)
基金
supported in part by the National Natural Science Foundation of China Grant(Grant Nos.81527901,61571431,11774370,81827807,and 81827802)
Shenzhen Peacock Plan(Grant No.KQTD20170810160424889)
Scientific Instruments Funding of Chinese Academy of Sciences(Grant No.YJKYYQ20190077)
Shenzhen Key Laboratory of ultrasound imaging and therapy(Grant No.ZDSYS20180206180631473).
