TY  - JOUR
Y1  - 2024/12//
SN  - 2667-0224
TI  - Advanced Ultrasound Vibration Potential Imaging
AV  - public
N2  - Ultrasound Vibration Potential Imaging (UVPI) involves the detection of an electric signal resulting from ultrasound pulses passing through ionic fluids or colloidal systems. The process encompasses the exposure of ionic fluids, or nanoparticle suspensions to external ultrasound pressure waves, inducing ions and nanoparticles to vibrate and produce an electric potential. This potential is then recorded using an electrode sensor connected to the sample of interest. This article reviews the main concepts of UVPI, including the two main types of the technique, Colloid Vibration Potential (CVP) and Ion Vibration Potential (IVP). It is shown that UVPI can detect physicochemical structures of ions and tissue strata that are indiscernible through traditional ultrasound methods, examining specimens like ionic solutions, particle suspensions, and animal (pork) tissue. . The paper demonstrates the potential of UVPI in applications in engineering for nanoparticle and ionic electrolyte analysis, and in medical diagnostics and research. It can potentially be used for tumour diagnostics by analysing the vibrational responses of tissues to ultrasound waves, allowing for the early detection and characterization of tumours.
UR  - https://doi.org/10.1016/j.chphi.2024.100728
ID  - discovery10197432
VL  - 9
N1  - © 2024 Published by Elsevier B.V. This is an open access article under the CC BY license (http://creativecommons.org/licenses/by/4.0/).
PB  - Elsevier BV
A1  - Hossein, Fria
A1  - Angeli, Panagiota
JF  - Chemical Physics Impact
KW  - Ultrasound
KW  -  
Ionic fluids
KW  - 
Electrolyte
KW  -  
Tissue
KW  -  
Colloids
ER  -