Graphene-quantum dot hybrid enables compact multispectral light detection
Novel photodetector combines quantum dots and graphene to achieve multispectral sensing without bulky optics, advancing miniaturized spectral analysis technology.
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Novel photodetector combines quantum dots and graphene to achieve multispectral sensing without bulky optics, advancing miniaturized spectral analysis technology.
Researchers create DNA-based nanopores that switch between three sizes, allowing selective molecule transport across membranes for potential drug delivery and biosensing applications.
Researchers develop flexible pneumatic circuits using porous foam, advancing control systems for soft robots and wearables with innovative fluidic logic and sensing capabilities.
Researchers synthesize high-entropy liquid metal alloys at nanoscale, achieving atomic dispersion of noble metals and demonstrating enhanced catalytic activity for hydrogen evolution.
Researchers develop flexible, colorful films made entirely from cellulose, combining the optical properties of nanocrystals with the strength of nanofibers for sustainable electronics.
Researchers develop trackable nanoparticles for drug delivery, using defect engineering and advanced imaging to observe their behavior in living cells, advancing nanomedicine.
Scientists develop flexible, lead-free perovskite membranes for X-ray detection, achieving high sensitivity and stability. This advance could enable wearable radiation dosimeters.
Scientists develop a flexible, adhesive hydrogel sensor that can detect subtle body movements, potentially enabling early diagnosis and monitoring of Parkinson's disease.