Unlike optical microscopy, SEM does not rely on light waves but instead uses a beam of electrons to interact with materials, enabling magnifications up to 300,000× and resolutions approaching 1 nm. 1 ...

Researchers demonstrated an on-chip method for optically pumping InP nanowire emitters using transfer-printed micro-LEDs, ...

Engineered nanoparticles can improve cancer immunotherapy by delivering drugs, antigens, and genetic payloads with greater ...

The Perspective highlights quantum dots, spin-polarized materials, topological states, and genetically encoded quantum ...

Unmatched particle sizing accuracy: Three different detection angles to measure a wide array of samples, while eliminating errors risk with automatic angle selection. Plus, the Multi-Angle Particle ...

Green-engineered MoS2 nanosheets were coated onto nonwoven fabric using a citric-acid-assisted ethanol-water process to ...

Graphene is a single-atom-thick carbon sheet discovered in 2004. The crucial question during graphene synthesis is, "How do I know that the material I'm making is actually single-atom thick?" Because ...

Raman spectroscopy can provide useful data on graphene layers and quality, helping to adress the challenges in producing high ...

Available in 3-asix to 6-axis variants for single- and dual-sided fiber and fiber-array applications. The F-141 PINovAlign is a cost-optimized, high-speed photonics alignment system available in 3 to ...

Graphene–ITO hybrid electrodes improved nanoscale current response by about 60%, supporting more continuous conductive ...

The idea is straightforward. Hafnium absorbs X-rays more efficiently than ordinary tissue. When exposed to radiation, the nanoparticles release energy inside tumor cells, increasing local damage ...

High-strain-rate loading occurs in many real-world scenarios, including vehicle collisions, drop and impact events, ballistic ...