Journal article
Mechanical characterization of ultrasonically synthesized microbubble shells by flow cytometry and AFM
F Cavalieri, JP Best, C Perez, J Tu, F Caruso, TJ Matula, M Ashokkumar
ACS Applied Materials and Interfaces | Published : 2013
DOI: 10.1021/am403108y
Abstract
The mechanical properties of the shell of ultrasonically synthesized lysozyme microbubbles, LSMBs, were evaluated by acoustic interrogation and nanoindentation techniques. The Young's modulus of LSMBs was found to be 1.0 ± 0.3 MPa and 0.6 ± 0.1 MPa when analyzed by flow cytometry and AFM, respectively. The shell elasticity and Young's modulus were not affected by the size of the microbubbles (MBs). The hydrogel-like protein shell of LSMBs offers a softer, more elastic and viscous interface compared to lipid-shelled MBs. We show that the acoustic interrogation technique is a real-time, fast, and high-throughput method to characterize the mechanical characteristics of air-filled microbubbles c..
View full abstractGrants
Awarded by Australian Research Council under the Australian Laureate Fellowship
Awarded by Life Sciences Discovery Fund
Awarded by National Natural Science Foundation of China
Funding Acknowledgements
This work was supported by the Australian Research Council under the Australian Laureate Fellowship (F.C., 120100030), the University of Melbourne IPRS fellowship, and Victorian Government VIRS fellowship. We acknowledge the support for TJ.M. and C.P. provided by the Life Sciences Discovery Fund Authority #3292512 and the support for J.T. provided by National Natural Science Foundation of China #11074123.