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Literature DB >> 31123132

A radiative cooling structural material.

Tian Li¹, Yao Zhai², Shuaiming He¹, Wentao Gan¹, Zhiyuan Wei³, Mohammad Heidarinejad⁴, Daniel Dalgo⁴, Ruiyu Mi¹, Xinpeng Zhao², Jianwei Song¹, Jiaqi Dai¹, Chaoji Chen¹, Ablimit Aili², Azhar Vellore⁵, Ashlie Martini⁵, Ronggui Yang^2,6, Jelena Srebric⁴, Xiaobo Yin^7,3, Liangbing Hu⁸.

Abstract

Reducing human reliance on energy-inefficient cooling methods such as air conditioning would have a large impact on the global energy landscape. By a process of complete delignification and densification of wood, we developed a structural material with a mechanical strength of 404.3 megapascals, more than eight times that of natural wood. The cellulose nanofibers in our engineered material backscatter solar radiation and emit strongly in mid-infrared wavelengths, resulting in continuous subambient cooling during both day and night. We model the potential impact of our cooling wood and find energy savings between 20 and 60%, which is most pronounced in hot and dry climates.

Entities: Chemical Species

Year: 2019 PMID： 31123132 DOI： 10.1126/science.aau9101

Source DB: PubMed Journal: Science ISSN： 0036-8075 Impact factor: 47.728

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Cited

40 in total

Review 1. Developing fibrillated cellulose as a sustainable technological material.

Authors: Tian Li; Chaoji Chen; Alexandra H Brozena; J Y Zhu; Lixian Xu; Carlos Driemeier; Jiaqi Dai; Orlando J Rojas; Akira Isogai; Lars Wågberg; Liangbing Hu
Journal: Nature Date: 2021-02-03 Impact factor: 49.962

2. Multiscale porous elastomer substrates for multifunctional on-skin electronics with passive-cooling capabilities.

Authors: Yadong Xu; Bohan Sun; Yun Ling; Qihui Fei; Zanyu Chen; Xiaopeng Li; Peijun Guo; Nari Jeon; Shivam Goswami; Yixuan Liao; Shinghua Ding; Qingsong Yu; Jian Lin; Guoliang Huang; Zheng Yan
Journal: Proc Natl Acad Sci U S A Date: 2019-12-23 Impact factor: 11.205

A radiative cooling structural material.

Review 1. Developing fibrillated cellulose as a sustainable technological material.

2. Multiscale porous elastomer substrates for multifunctional on-skin electronics with passive-cooling capabilities.

3. The super-cool materials that send heat to space.

4. Biologically inspired flexible photonic films for efficient passive radiative cooling.

5. Interpretation of Strengthening Mechanism of Densified Wood from Supramolecular Structures.

6. Outdoor-Useable, Wireless/Battery-Free Patch-Type Tissue Oximeter with Radiative Cooling.

7. High-Performance Multilayer Radiative Cooling Films Designed with Flexible Hybrid Optimization Strategy.

8. Thermodynamic limits for simultaneous energy harvesting from the hot sun and cold outer space.

9. Colored and paintable bilayer coatings with high solar-infrared reflectance for efficient cooling.

10. Simultaneous harvesting of radiative cooling and solar heating for transverse thermoelectric generation.