Removes GSH in samples so that oxidized glutathione concentration can be measured. It can be used in protein structure analysis as it alkylates cysteine and cystine residues (after reduction) in proteins to give derivatives that are stable to acid hydrolysis.
The CVD method used to synthesize this high-quality graphene product results in monolayer graphene coverage of more than 90％. CVD graphene on PET is ideal for flexible and rigid touch screen display applications. Other possible applications include：
Graphene is proving to be a remarkably versatile material. One of its many uses is transmission electron microscopy （TEM）, a powerful imaging technology used by chemical, biological, and physical researchers. TEM captures images of microscopic materials by observing how they interact with an electron beam. The process involves placing the material on a specialized flat surface, or grid, designed to support the material and, at the same time, allow the electron beams to pass through. However, in some cases, the microscopic grid allows super small, nanoscale particles to fall through, making TEM difficult. Suspending a layer of graphene above the grid prevents particles from slipping through without altering the imaging process. ACS Material offers a selection of TEM support films. Our TEM support films are supported by a lacey carbon film on a 300 mesh copper TEM grid and are created using trivial transfer graphene. Specifications of these advanced TEM grids include：
This product is graphene nanoplatelet-based oily battery slurry with high electrical conductivity. By contrast with the similar products, this product with technical advantages is metal ion free and can be widely applied in battery slurry as conductive agent to improve the high rate charge-discharge capacity. ・Lithium ion and nickel-hydrogen battery—as high conductive components in battery slurry.