2025/12/29
On December 19, reporters learned from the Bureau of Industry and Information Technology of Shizuishan City that Ningxia Zhongke Bio-new Materials Co., Ltd.'s pilot-scale platform for bio-based long-chain carbon materials has recently been approved as a three-star demonstration platform for the nation's first batch of bio-manufacturing pilot capabilities jointly launched by the Ministry of Industry and Information Technology and the National Development and Reform Commission.
Company News
2025/10/30
According to a report by the Shanghai Securities News (reporter Yu Yao), as a functional product, long-chain dicarboxylic acids are widely used in numerous high-tech material fields, including advanced energy, new-energy vehicles, chemical industry, light industry, agriculture, pharmaceuticals, military industry, and aerospace.
Industry Trends
2025/12/09
Using Soleic® bio-based polyurethane material, NAMU launches a brand-new sports recovery slipper.
Recently, the sports recovery brand NAMU announced the launch of its new product—the NAMU SL01 sports recovery slippers—designed to provide sports enthusiasts with intelligent recovery and posture correction features. Made from Algenesis Labs’ revolutionary 100% biodegradable polyurethane material, Soleic®, these slippers are the first sports recovery slippers that seamlessly combine athletic performance with environmental responsibility.
Industry Trends
2025/11/29
The European Commission recently formally adopted a brand-new “Strategic Framework for a Competitive and Sustainable Bioeconomy in the EU,” charting a clear path forward toward building a clean, competitive, and resilient European economy. By harnessing renewable biological resources from both land and ocean and providing alternative solutions for critical raw materials, the EU will steadily move toward an economic model that is more circular and decarbonized, while reducing its reliance on fossil fuel imports.
Industry Trends
2025/10/11
Dodecanedioic acid (also known as lauric acid, with the structural formula HOOC(CH₂)₁₀COOH) is a straight-chain aliphatic dicarboxylic acid. As an important fine chemical intermediate, it has attracted considerable attention from the industry due to its significant application value.
Industry Trends
2025/09/15
HuaAn Securities recently released its Synthetic Biology Weekly Report: Recently, Sinopec and Saudi International Power and Water Company (ACWA Power) officially signed a contract for the front-end engineering design (Feed+ turnkey EPC) of the Yanbu Green Hydrogen/Green Ammonia Project in Saudi Arabia.
Industry Trends
2025/08/28
The green revolution in rubber materials: The industrial development of bio-based rubber materials
The third-generation material for rubber is bio-based rubber. With its environmentally friendly, sustainable, and renewable properties, this new material is gradually becoming a favorite in the rubber industry and holds great promise to lead a green revolution in rubber materials in the future.
Industry Trends
2025/06/21
A Comprehensive Overview of Bio-Based Materials: From Definition to Future Prospects
The core concept of bio-based materials—a burgeoning field—is gradually becoming a new favorite in both technology and environmental protection. This concept not only represents a new type of green and eco-friendly material but also embodies a transformative shift across the entire industrial chain, from raw materials to finished products.
Industry Trends
2025/05/11
In 2025, as global carbon neutrality goals advance and consumer environmental awareness grows, the application of bio-based materials in automotive interiors is shifting from “niche experimentation” to “mainstream standardization.”
Industry Trends
2025/03/10
In 2025, bio-based materials will usher in a new green chapter—with a promising future ahead!
Bio-based materials are a concept that has emerged in recent years. According to the U.S. Environmental Protection Agency’s definition[1], they generally refer to products composed primarily of one or more substances derived from living organisms. Many common materials, such as paper, wood, and leather, can be classified as bio-based materials. The key focus of this concept lies in the origin of the carbon structural units rather than their ultimate fate at the end of their life cycle.