1 The composite material of carbon fiber and rubber can withstand 12600 times its own weight

Researchers have created a high-strength material with flexibility, similar to human muscles, by combining organic silicone rubber (PDMS) material with carbon fiber; And the use of a spiral structure allows the new material to withstand a mass 12600 times higher than its own.

2 Significant progress has been made in enhancing cement materials with wood waste

According to new research by Singaporean researchers, the use of discarded wood to enhance cement has shown significant mechanical improvement effects (up to 20% in mechanics) and an increase in waterproof permeability by over 50%, making it highly practical.

3 Advanced plasmonic materials for dynamic color display

In recent years, the development of advanced hybrid plasmonic materials capable of dynamically reconstructing color control has been rapid. Some of these results may lead to reflective displays that are practically applicable in live colors with high performance and low power consumption. Compared to static plasma color printing, they will attract widespread interest from the display market, such as in applications such as digital signage, full-color electronic paper, and electronic device screens. Plasmon structures have shown promising applications in high-resolution and durable color generation.

4 Synthesis of Engineering Zeolite Materials: From Classical Zeolite to Layered Core Shell Materials

The term 'engineering zeolite material' refers to a type of material with a well-designed pore system and active site distribution. They are mainly made of crystalline microporous zeolite, which can be accompanied by other secondary components to form composite materials as the main component. These materials have potential importance in many industrial fields, such as catalysis or selective adsorption.

5 The University of Science and Technology of China has developed 1300 ℃ thermal insulation and fireproof aerogel material

Recently, Professor Yu Shuhong's research group at the China Science and Technology Conference, using chitosan as a three-dimensional soft template, discovered a new synthetic strategy of copolymerization and nanoscale phase separation of phenolic resin (PFR) and SiO2, and successfully developed a PFR/SiO2 composite aerogel material with a dual network structure.