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用于二氧化碳储存的生物启发木质素-铝硅酸盐复合材料

Bioinspired Lignin-Aluminosilicate Composite for CO Storage.

作者信息

Koo Jeong Woo, Yeo Jia Bin, Jang Jun Ho, Jo Jaeyeon, Heo Jaeseok, Yoon Jeho, Jo Young In, Ko Changwan, Lee Moo Young, Hong Jung Sug, Kim Miyoung, Nam Ki Tae

机构信息

Department of Materials Science and Engineering, Seoul National University, Seoul 08826, Republic of Korea.

Studio Bomi Jeho, Yongin-si 16800, Republic of Korea.

出版信息

ACS Omega. 2025 Aug 2;10(31):35134-35145. doi: 10.1021/acsomega.5c04745. eCollection 2025 Aug 12.

Abstract

In the effort to decarbonize hard-to-abate industries, the issue of CO emissions from the cement production process must be addressed, primarily due to the calcination reaction and high-temperature requirements. To achieve a sustainable process to produce carbon-neutral construction materials, utilizing nature-abundant resources without relying on calcium oxide chemistry or sintering could be a promising approach. Here, a new method is presented to prepare construction material by strengthening highly abundant kaolinite clay with Kraft lignin at 100 °C. Due to the electrostatic interactions between Kraft lignin and kaolinite particles, the resulting lignin-aluminosilicate composite displayed compressive strengths of up to 20 MPa. Additionally, the simultaneous use of kaolinite and smectite enabled the fabrication of a strong composite, which could store up to 10 g of CO per 1 kg under high-pressure CO treatment at room temperature. Furthermore, the scalability of the proposed method to real-sized bricks and artworks was demonstrated, thereby opening new pathways toward a carbon-negative construction industry.

摘要

在努力使难以减排的行业脱碳的过程中,必须解决水泥生产过程中的一氧化碳排放问题,这主要是由于煅烧反应和高温要求所致。为了实现生产碳中和建筑材料的可持续工艺,利用自然界丰富的资源而不依赖氧化钙化学或烧结可能是一种有前途的方法。在此,提出了一种在100°C下用牛皮纸木质素强化高含量高岭土粘土来制备建筑材料的新方法。由于牛皮纸木质素与高岭土颗粒之间的静电相互作用,所得的木质素-铝硅酸盐复合材料的抗压强度高达20MPa。此外,同时使用高岭土和蒙脱石能够制造出一种强度高的复合材料,在室温高压二氧化碳处理下,每1kg该复合材料可储存多达10g二氧化碳。此外,还展示了所提出方法扩大到实际尺寸砖块和艺术品的可行性,从而为负碳建筑业开辟了新途径。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/0179/12355257/9568b0ad7162/ao5c04745_0001.jpg

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