Issues
SCILIGHT
Modeling magnetic drug delivery inside blood vessels
Accounting for the impacts of magnetic nanoparticles on blood flow makes models more realistic
Approach for flattening metal oxides in ultra-high vacuum preparation smooths rough surfaces
Model drawing on oxygen chemical potential provides new way to better model on the atomic scale and enhance surface diffusion across several different metal oxide films.
3D printing linear accelerators reduces cost and complexity
3D printing by selective laser melting and changes to cavity geometry aim to optimize the centerpiece of accelerator facilities
Using green fluorescent proteins to detect protein aggregation in live cells
Fluorophores can turn on fluorescence when protein misfolds for biological imaging
Virtual source emission model leads to improved organic thin film transistor
Better fit to real-world data of organic semiconductor devices finds a managanese interlayer boosts transistor performance.
Liquid crystal tuning controls resonances in metallic nanoparticle arrays
Arrays of metallic nanoparticles can form an optical cavity tunable by liquid crystals
Electrical stimulation may take a backseat as light drives biohybrid actuators
Using light instead of electrical stimulation could improve resolution and adaptability, make devices less invasive
Tweaking nanoscale structure to tune photoluminescence
Layered structure of photonic crystals narrows and shifts the intrinsic photoluminescent emission of nanoporous anodic alumina.