Disordered Porous Carbon (XFP09, 3000 m2/g, ~370 F/g, Aqueous Electrolyte) for Supercapacitor, 5 g/bottle, CSDPCXFP09

Disordered Porous Carbon (DPC) is the most widely used electrode material in the commercial supercapacitor industry. Unlike graphene or carbon nanotubes, which have highly organized crystalline structures, DPC is characterized by a "glassy" or amorphous arrangement of carbon sheets, creating a complex, random network of pores. At the microscopic level, disordered carbon consists of small, fragmented hexagonal carbon layers (similar to tiny pieces of graphene) that are twisted, curled, and cross-linked.

The features and advantages of the disordered porous carbon are shown here: (1) Isotropic Diffusion: Because the pores are random and oriented in all directions, ions can enter the material from any angle. In highly ordered materials, ions often have to follow specific "lanes," which can get blocked. (2) High Microporosity: The random packing of curved carbon sheets naturally creates a massive volume of micropores (<2 nm). This is where the bulk of the surface area—and thus the capacitance—comes from. (3) Structural Integrity: The cross-linked nature of disordered carbon makes the particles mechanically robust, allowing them to withstand the physical strain of ions moving in and out over millions of cycles.

Notes: Please try to store the disordered porous carbon powder in a dry place (glovebox is the best option). 

References: 

1. B. Li, et al. Entropy-driven disordered porous carbon (high entropy carbon) electrodes for high-performance supercapacitors,  Chem. Commun., 2025,61, 19334-19349.
2. Y. Ma, et al. Extremely durable supercapacitor enabled by disordered porous carbon with a capacity retention up to 60000 cycles,  J. Mater. Chem. C, 2025,13, 4429-4434.