Fluorescent materials have drawn much attention as probes for imaging, diagnosis, and therapy in biological science.
Increased sensitivity of molecular optoacoustic imaging
Molecular optoacoustic imaging is a powerful tool for research and for diagnostics. Multiple excitation wavelengths tend to increase its sensitivity .
Molecular imaging as prediction tool
Cathepsin B molecular imaging has been shown to be a powerful tool in reflecting the potential of cartilage formation and predicting the quality of cartilage.
Probing tumour growth through infrared imaging
Tumour development is closely monitored through infrared emission from copolymer nanoparticles.
Fully Automated Raman Imaging System
Fully automated, easy-to-use, class-leading Raman imaging system “apyron” combining unrivaled spectral resolution in 3D confocal Raman imaging and extremely sensitive laser power determination with a mouse click. The device is presented for the first time at Pittcon 2015 in New Orleans, the major fair for lab instrumentation worldwide.
Imaging the mechanical response of nanostructured composites
An X-ray ptychography study follows the destruction of a microscale composite during compression in unprecedented detail.
Nanomaterials and photoacoustic imaging for better cancer detection
PDI-based organic nanomaterials have been successful developed and used for detection of deep human glioblastoma in mice models using photoacoustic imaging.
Submit to a Special Issue on Bio-based Packaging
Submit a paper to the forthcoming Special Issue of the Journal of Applied Polymer Science on Bio-based Packaging.
Imaging unbalanced tendons with SHG
Researchers have imaged the structural organization of tendon with second harmonic generation microscopy.
Cancer all-clear for nonlinear optical imaging
Dutch researchers have estimated the risk of squamous cell cancer induction in skin following nonlinear optical imaging.