Editorial for Clean Energy Science and Technology (Volume 2, Issue 1)

Authors

  • Weimin Yang Beijing University of Chemical Technology, Beijing 100013, China
Article ID: 165
86 Views, 74 PDF Downloads

DOI:

https://doi.org/10.18686/cest.v2i1.165

Abstract

Global warming, environmental pollution, and energy scarcity have emerged as significant problems for human society due to the swift advancement of modernization. Some of these problems may be resolved with research and applications of clean energy technologies. Readers can get helpful information about such studies from the nine excellent articles in this issue. In particular, this issue includes four review articles, four commentary articles, and one original research paper.

References

Ma B, Liu H, Du Y, et al. Simulation and experimental research on the optimization of airflow organization and energy saving in data centers using air deflectors. Clean Energy Science and Technology. 2024, 2(1): 141. doi: 10.18686/cest.v2i1.141 DOI: https://doi.org/10.18686/cest.v2i1.141

Zheng J, Su Y, Wang W, et al. Hydrogen-electricity coupling energy storage systems: Models, applications, and deep reinforcement learning algorithms. Clean Energy Science and Technology. 2024, 2(1): 96. doi: 10.18686/cest.v2i1.96 DOI: https://doi.org/10.18686/cest.v2i1.96

Tian Q, Bi L, Lin S, et al. A review of cold plasma for catalyst synthesis and modification. Clean Energy Science and Technology. 2024, 2(1): 131. doi: 10.18686/cest.v2i1.131 DOI: https://doi.org/10.18686/cest.v2i1.131

Zhang J, Zhang L, Li H, et al. Catalyzed hydrothermal treatment of oily sludge: A review. Clean Energy Science and Technology. 2024, 2(1): 107. doi: 10.18686/cest.v2i1.107 DOI: https://doi.org/10.18686/cest.v2i1.107

Zhang Y, Xiao Y, Abuelgasim S, Liu C. A brief review of hydrogen production technologies. Clean Energy Science and Technology. 2024, 2(1): 117. doi: 10.18686/cest.v2i1.117 DOI: https://doi.org/10.18686/cest.v2i1.117

Gao Y, Li Y, Chen X. Hygroscopic all-polymer composite for moisture management and evaporative cooling. Clean Energy Science and Technology. 2024, 2(1): 111. doi: 10.18686/cest.v2i1.111 DOI: https://doi.org/10.18686/cest.v2i1.111

Jin C, Pei G, Zhao B. Development and progress of radiative cooling materials. Clean Energy Science and Technology. 2024, 2(1): 144. doi: 10.18686/cest.v2i1.144 DOI: https://doi.org/10.18686/cest.v2i1.144

Li S, Zhao K, Shin EA, et al. Cooling the future: A leap in solar-driven water and power cogeneration. Clean Energy Science and Technology. 2024, 2(1): 140. doi: 10.18686/cest.v2i1.140 DOI: https://doi.org/10.18686/cest.v2i1.140

Mao Z, Yao Y, Shen J, et al. Passive interfacial cooling-induced sustainable electricity–water cogeneration. Nature Water. 2024, 2(1): 93-100. doi: 10.1038/s44221-023-00190-6 DOI: https://doi.org/10.1038/s44221-023-00190-6

Wu C. Rapid rising in radiative forcing. Clean Energy Science and Technology. 2024, 2(1): 110. doi: 10.18686/cest.v2i1.110 DOI: https://doi.org/10.18686/cest.v2i1.110

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Published

2024-04-19

How to Cite

Yang, W. (2024). Editorial for Clean Energy Science and Technology (Volume 2, Issue 1). Clean Energy Science and Technology, 2(1), 165. https://doi.org/10.18686/cest.v2i1.165

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