In June 2025, with the rapid development of the global new materials industry, precipitated white carbon black has attracted industry attention for its unique properties and potential applications in multiple fields. As a nano material with high specific surface area and porous structure, the breakthrough progress of precipitated white carbon black in the fields of energy, environmental protection, and life sciences is driving the transformation of traditional industries towards high-end.
In the field of energy, ML-180 precipitated white carbon black is applied as an electrode material for fuel cells and lithium batteries due to its excellent catalyst support performance. Its porous structure can significantly improve lithium ion transport efficiency, increase battery energy density by 15% -20%, and extend cycle life to over 2000 times. A new energy company revealed that after using this material, the low-temperature performance of power batteries has been improved by 30%, providing key support for breakthroughs in the range of new energy vehicles.
The field of environmental protection is also experiencing technological innovation. The rice husk ash zero emission process developed by Nanyang Dongfang Applied Chemical Research Institute achieves zero discharge of white carbon black production wastewater through carbon dioxide carbonation method. This process converts rice husk ash into water glass with a modulus of 3.2, which reacts with carbon dioxide to produce white carbon black. At the same time, sodium hydroxide or sodium carbonate is recovered, with a recycling rate of over 95%. Each ton of product can reduce wastewater discharge by 35 cubic meters and recover sodium carbonate worth 1365 yuan, significantly reducing production costs.
In the field of life sciences, precipitated white carbon black has shown great potential as a drug carrier. Its nanoscale pore structure can achieve precise drug release. The anti-cancer drug sustained-release system developed by a certain biopharmaceutical company targets drug delivery to tumor tissue through white carbon black carrier, increasing efficacy by 40% and reducing side effects by 60%. In addition, its application research in the fields of biosensors, biochemical probes, etc. has also entered the clinical trial stage.
Industry experts point out that although the market for precipitated white carbon black still faces challenges such as complex preparation processes and insufficient production capacity for high-end products, with technological breakthroughs and deepening industrial synergy, its application boundaries will continue to expand, contributing to global sustainable development.