With the blessing of technology, natural rubber has been transformed into a variety of new materials

Natural rubber is an important industrial elastic raw material, its excellent comprehensive performance makes it irreplaceable, the development of new natural rubber composite materials is to extend its application field, expand its application range of effective way

Research and development of highly conductive composite fibers

With its extremely high pseudocapacitance properties, MEXENE is the preferred material

The research results were published in the international academic journal "Carbon Nanotube-Enhanced High Toughness, High Conductivity MXene Fibrous Supercapacitors"

On this basis, the scientific research team has broken through the preparation technology of ultra-fine natural rubber fiber and high conductivity MXene/natural rubber composite fiber by optimizing the formulation and adjusting the

Dr.

Creates ink that draws circuits

MXene is one of the ideal materials for the preparation of conductive circuits and electronic flexible devices, but the water-soluble MXene solution cannot be stored

In view of the above problems, the scientific research team of the Natural Rubber Processing Laboratory of the Institute of Processing of the Chinese Academy of Thermal Sciences broke through the MXene ink preparation technology that can be stably preserved at room temperature through the solvent compounding strategy, developed the MXene ink with good fluidity and writing ability, and successfully drew the circuit

The study was published in the journal "Nanoscale Nanoscale"

Dr.

Preparation of highly conductive porous foam

Building energy storage devices with high power density and fast charging and discharging speed is the key

In view of the above problems, the scientific research team of the Natural Rubber Processing Laboratory of the Institute of Processing of the Chinese Academy of Thermal Sciences successfully prepared MXene foam with highly interconnected pores by sacrificing template method, and the rich pore structure effectively expanded the specific surface area, provided enough effective sites for electron movement between layers, and accelerated the electron transfer rate

Dr.

The research results were published in Small, an international academic journal in the field of nanomaterials, under the title of "Effect of Resolving Aperture Size on the

The relevant person in charge of the Thermal Science Academy said that the Natural Rubber Processing Research Division of the Institute of Thermal Sciences has made a major breakthrough in the field of high-performance special natural rubber raw rubber processing, and the laboratory has also newly established a new natural rubber composite material direction, with the purpose of further excavating the properties of natural rubber and expanding its application field