Graphene batteries offer significant improvements in energy storage, charging speed, and lifespan. These batteries are becoming essential for applications such as electric vehicles, renewable energy systems, and portable electronics, with substantial growth projected in the coming years.
By Atif Suhail
9 Jan 2025
Electron-beam lithography (e-beam lithography) is a high-precision nanofabrication technique used for creating intricate patterns at the nanoscale. This method is essential in various fields, including microelectronics, photonics, and healthcare.
By Atif Suhail
6 Jan 2025
Discover how alphaCART, a mobile confocal Raman spectroscopy system, enables researchers to analyze precious and immovable samples.
X-ray diffraction (XRD) is a powerful tool for characterizing nanomaterials, providing crucial insights into their phase composition, crystalline structure, and defects. This non-destructive method is essential in nanomaterial science and material development.
By Atif Suhail
3 Jan 2025
3D printed graphene enhances energy storage devices, optimizing performance in batteries and supercapacitors with custom structures and improved conductivity.
By Silpaja Chandrasekar
20 Dec 2024
Black Phosphorus (BP) is a 2D material with tunable properties suitable for applications in electronics, optoelectronics, energy storage, and biomedical fields. Its use in next-generation devices shows promise, although challenges like environmental instability and scalability remain.
By Silpaja Chandrasekar
18 Dec 2024
For many biopharmaceutical products, particularly injectables, active principle ingredients (API) stability and protein aggregation are factors that ultimately impact both the quality and usability of the final product.
This article describes the use of Depolarized Dynamic Light Scattering to analyze anisotropic nanoparticles that can be used in medical fields.
To ensure the stability and usability of injectable biopharmaceutical products, protein aggregation and active principle ingredients are of the utmost concern.
This article discusses how to use NIR dynamic light scattering (DLS) to measure the size of quantum dots.