electrodes


Conductive Carbons

Providing a range of properties to enable a wide range of performance enhancement.

Our portfolio of conductive carbons enable battery developers to extract the highest possible efficiency out of each active material, promoting high power delivery and energy density in lithium-ion batteries as well as extending cycle life and charge acceptance in lead-acid batteries. Our conductive additives are also used in other energy storage devices such as sodium-ion (Na-ion) batteries, lithium-sulfur (Li-S) batteries and lithium-air (Li-Air) batteries.

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LITX
Our cutting-edge LITX MAX90 multifunctional conductive additive enables dry (solvent-free) electrode processing, delivering cost-effective and sustainable battery production. This high-surface-area conductive carbon additive optimizes electrode mechanics with minimal carbon black usage and is specifically designed for the use in lithium-ion battery cathodes. ​

LITX® MAX90 MULTIFUNCTIONAL CONDUCTIVE ADDITIVE​

Our cutting-edge LITX MAX90 multifunctional conductive additive enables dry (solvent-free) electrode processing, delivering cost-effective and sustainable battery production. This high-surface-area conductive carbon additive optimizes electrode mechanics with minimal carbon black usage and is specifically designed for the use in lithium-ion battery cathodes. ​

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Our LITX® conductive additives for lithium-ion batteries promote higher energy density and low temperature performance with extended cycle life for applications of electric vehicles (pure battery EV, plug-in hybrid EV and hybrid EV), energy stationary storage (ESS) and consumer electronics.

LITHIUM-ION BATTERIES

Our LITX® conductive additives for lithium-ion batteries promote higher energy density and low temperature performance with extended cycle life for applications of electric vehicles (pure battery EV, plug-in hybrid EV and hybrid EV), energy stationary storage (ESS) and consumer electronics.

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Our PBX® carbon performance additives for advanced lead-acid batteries can be used to address sulfation, which is the main limiting factor in extending lifetime and performance in advanced applications such as “start-stop” on micro-hybrid vehicles and industrial applications requiring “partial state of charge” operation.

LEAD-ACID BATTERIES

Our PBX® carbon performance additives for advanced lead-acid batteries can be used to address sulfation, which is the main limiting factor in extending lifetime and performance in advanced applications such as “start-stop” on micro-hybrid vehicles and industrial applications requiring “partial state of charge” operation.

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fuel cells
Conductive carbon used for catalyst support is a key element in fuel cells and their operation.​ Our highly graphitic FCX conductive carbons can deliver superior conductivity and durability when used as fuel cell catalyst supports.​

FCX® CONDUCTIVE CARBON FOR FUEL CELLS​

Conductive carbon used for catalyst support is a key element in fuel cells and their operation.​ Our highly graphitic FCX conductive carbons can deliver superior conductivity and durability when used as fuel cell catalyst supports.​

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Conductive additives: energize the future

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