Manganese Dioxide Nanoplatelets (MnO₂)

element：Manganese (Mn), Oxygen (O)
purity：99%
shape：Black powder
specification：Particle Size: 20-500 nm
packaging：Customizable

Manganese dioxide (MnO₂) nanoplatelets provide optimized electrochemical performance, superior catalytic efficiency, and enhanced conductivity. Designed for energy storage, environmental remediation, and sensor applications, they ensure efficient charge transport, extended stability, and high adaptability.

Inquire

Add WhatsApp

WhatsApp：+86 17737118570E-mail：sales@wobogroup.com

Add WeChat

WeChat：+86 17737118570Phone：+86 3733071686

Product Description
Specifications

Product Overview

Manganese Dioxide (MnO₂) nanoplatelets are a key form of manganese oxide with nanoscale dimensions and unique physical and chemical properties. Due to their excellent catalytic properties, superior adsorption characteristics, and outstanding electrochemical performance, MnO₂ nanoplatelets exhibit vast potential across various fields. As a multifunctional material, they hold significant application value in batteries, electrochemistry, and environmental remediation.

Key Features

Outstanding Catalytic Performance: Thanks to their unique structure and electronic properties, MnO₂ nanoplatelets excel in catalyzing redox reactions and are ideal for battery electrodes and other catalytic applications.
Superior Adsorption Capabilities: With a high specific surface area, MnO₂ nanoplatelets effectively adsorb heavy metal ions, organic pollutants, and other contaminants, making them highly effective in environmental remediation.
Exceptional Electrochemical Performance: MnO₂ nanoplatelets, when used as electrode materials, exhibit high specific capacitance and excellent cycling stability, making them ideal for supercapacitors and other energy storage devices.

Applications

Battery Materials: Widely used as cathode materials in lithium-ion batteries, zinc-manganese batteries, and other types, MnO₂ nanoplatelets enhance the energy density and cycle life of batteries.
Catalysts: In the chemical industry, MnO₂ nanoplatelets serve as catalysts or catalyst supports, facilitating chemical reactions and improving efficiency and yield.
Environmental Remediation: Due to their superior adsorption properties, MnO₂ nanoplatelets are effective in treating heavy metal ions and organic pollutants in wastewater, contributing to environmental cleanup.
Supercapacitors: As electrode materials, MnO₂ nanoplatelets offer high specific capacitance and excellent cycling stability, boosting the energy storage capacity of supercapacitors.
Sensors: Used in gas sensors and biosensors, MnO₂ nanoplatelets enable the detection of target substances through interactions with the material, allowing for efficient signal conversion and transmission.
Other Fields: MnO₂ nanoplatelets also find applications as additives or catalyst supports in metal polishing, insulation materials, high-end cosmetic fillers, and various pharmaceutical and environmental applications.