Add to ORKGWe develop novel biophotonic tomography for early-cancer and functional imaging by combining electromagnetic and ultrasonic waves synergistically. The hybrid modalities yield speckle-free electromagnetic contrast at ultrasonic resolution in large biological tissue and therefore overcome the resolution problem in optical imaging and the contrast and speckle problems in ultrasound imaging
Combining light and ultrasound in a single hybrid technology enables multiscale, high-resolution im...
Combining light and ultrasound in a single hybrid technology enables multiscale, high-resolution im...
We explored the possibility of applying very high ultrasound frequencies to achieve very high resolu...
We develop novel biophotonic tomography for early-cancer and functional imaging by combining electro...
We develop photoacoustic imaging technologies for in vivo early-cancer detection and functional, met...
We develop photoacoustic imaging technologies for in vivo early-cancer detection and functional, met...
A photoacoustic imaging technology for in vivo early-cancer detection and functional imaging is deve...
A photoacoustic imaging technology for in vivo early-cancer detection and functional imaging is deve...
We develop photoacoustic tomography technologies for in vivo functional, metabolic, molecular, and h...
We develop photoacoustic tomography technologies for in vivo functional, metabolic, molecular, and h...
This article reviews two types of ultrasound-mediated biophotonic imaging–acousto-optical tomography...
This article reviews two types of ultrasound-mediated biophotonic imaging–acousto-optical tomography...
Optical imaging of soft biological tissue is highly desirable since it is nonionizing and provides s...
Imaging and sensing based on fusing the compelling features of optical and ultrasonic waves is the f...
We explored the possibility of applying very high ultrasound frequencies to achieve very high resolu...
Combining light and ultrasound in a single hybrid technology enables multiscale, high-resolution im...
Combining light and ultrasound in a single hybrid technology enables multiscale, high-resolution im...
We explored the possibility of applying very high ultrasound frequencies to achieve very high resolu...
We develop novel biophotonic tomography for early-cancer and functional imaging by combining electro...
We develop photoacoustic imaging technologies for in vivo early-cancer detection and functional, met...
We develop photoacoustic imaging technologies for in vivo early-cancer detection and functional, met...
A photoacoustic imaging technology for in vivo early-cancer detection and functional imaging is deve...
A photoacoustic imaging technology for in vivo early-cancer detection and functional imaging is deve...
We develop photoacoustic tomography technologies for in vivo functional, metabolic, molecular, and h...
We develop photoacoustic tomography technologies for in vivo functional, metabolic, molecular, and h...
This article reviews two types of ultrasound-mediated biophotonic imaging–acousto-optical tomography...
This article reviews two types of ultrasound-mediated biophotonic imaging–acousto-optical tomography...
Optical imaging of soft biological tissue is highly desirable since it is nonionizing and provides s...
Imaging and sensing based on fusing the compelling features of optical and ultrasonic waves is the f...
We explored the possibility of applying very high ultrasound frequencies to achieve very high resolu...
Combining light and ultrasound in a single hybrid technology enables multiscale, high-resolution im...
Combining light and ultrasound in a single hybrid technology enables multiscale, high-resolution im...
We explored the possibility of applying very high ultrasound frequencies to achieve very high resolu...