Issue 15, 2024

Wood waste-derived dual-mode materials paving the way for year-round energy saving in buildings

Abstract

In the face of the challenges posed by global warming, traditional methods of building heating and cooling contribute significantly to electricity and coal consumption, thereby emitting considerable amounts of greenhouse gases. Here, a dual-mode thermal management structural material is created by processing sustainable cellulose and lignin derived from wood waste into gels, followed by lamination. The cellulose surface of the material exhibits the ability to scatter solar radiation backward while emitting strongly in the mid-infrared wavelengths, whereas the lignin surface absorbs visible and near-infrared light, primarily releasing energy through non-radiative transitions. Consequently, the material can achieve sub-ambient radiative cooling of 6 °C and solar heating of 27.5 °C during the daytime by simply flipping its orientation. This pioneering material showcases the potential to significantly reduce cooling energy consumption by an average of 18% and heating energy consumption by 42%. Moreover, the integration of a thermal-electric generator within the dual-layer structure optimally utilizes the temperature differential between the two layers, converting it into electrical power. Notably, the dual-mode thermal management structural material exhibits impressive mechanical strength, boasting a flexural strength of 102 MPa, surpassing that of natural wood by over 4.8 times. With its dual-mode functionality and embedded thermal-electric generator, this material represents a crucial step towards achieving both thermal comfort and energy autonomy in sustainable building practices, thereby contributing to a more environmentally friendly and efficient future.

Graphical abstract: Wood waste-derived dual-mode materials paving the way for year-round energy saving in buildings

Supplementary files

Article information

Article type
Communication
Submitted
18 fev 2024
Accepted
13 may 2024
First published
14 may 2024

Mater. Horiz., 2024,11, 3633-3642

Wood waste-derived dual-mode materials paving the way for year-round energy saving in buildings

J. Zhang, K. Yin, Z. Zhuang, J. Zhou, Y. Tang, J. Xu, Y. Chen, Y. Li and Q. Sun, Mater. Horiz., 2024, 11, 3633 DOI: 10.1039/D4MH00172A

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