公司名稱 中山大學/淨零排放暨資源循環技術研究中心/張耿崚教授團隊
Company
Name
Net Zero Emissions and Resource Recycling Technology Research Center, National Sun Yat-sen University
參展區域
Area
淨零新創主題館
網址
Website
攤位號碼
Booth No.
S1405a
公司簡介
Company
Introduction
產品介紹 木質纖維素製成之生物質塑膠,是利用大量棄置的農業廢棄物及植物製造而成,其發展不僅能培養企業對產品負責任的精神,還能推廣民眾環境保護的概念,並將我們脫離對不可再生石油資源的依賴,其環境友善的成分可有效地達成生物降解性,並確保廢棄產品重新回到大自然。
隨著現今生態及環境保護的意識抬頭,各行業和消費者越來越支持擁有環保性能兼具永續的選擇,生物質塑膠正在引領這一變革,其展現了可持續性和責任感的典範,作為傳統塑膠的有效替代品,這種特殊的材料創新了產品製造的思維。
生物質塑膠可適應於多種應用,從一次性餐具和環保包裝等物品,到3D列印材料顯示其多功能性,在不斷發展的環境展示其多方面的市場價值。
Product
Summary
Rapid increment in fossil-derived single-use plastic disposal has led to plastic mountains and leading to ecological imbalance. Environmental-friendly materials derived from abundant renewable biomass are considered to be the green alternatives to unsustainable petrochemical-based materials.
Wood cellulose bioplastics draw their strength from nature's abundant embrace, sculpted from renewable botanical treasures, thereby nurturing the spirit of environmental stewardship and liberating us from the bonds of non-renewable petroleum sources. Depending on its composition, wood cellulose bioplastic can be gracefully tailored for biodegradability, ensuring that discarded products find their way back into the bosom of nature, leaving behind only fleeting footprints of their existence.
Wood cellulose bioplastics serve as the beacon of sustainable innovation, embodying a visionary approach that not only curtails waste but also reverently safeguards our finite resources and shields our precious environment from harm. As industries and discerning consumers increasingly champion eco-conscious choices, wood cellulose bioplastics gracefully lead this transformative charge, presenting an exemplar of sustainability, responsibility, and efficiency and standing resolute as an enlightened alternative to conventional plastics. This exceptional material not only redefines the landscape of product manufacturing but also bestows upon us the legacy of a planet made cleaner and healthier for generations to come.
These versatile bioplastics seamlessly adapt to a myriad of applications and can be adapted for various applications, from single-use items like disposable cutlery and eco-conscious packaging to the enduring versatility of 3D printing materials, thereby showcasing their multifaceted brilliance in the ever-evolving marketplace.