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Bioresource Upgrade for Sustainable Energy, Environment, and Biomedicine
Nano-Micro Letters ( IF 31.6 ) Pub Date : 2023-01-11 , DOI: 10.1007/s40820-022-00993-4 Fanghua Li 1, 2 , Yiwei Li 3, 4, 5 , K S Novoselov 6, 7 , Feng Liang 8 , Jiashen Meng 3 , Shih-Hsin Ho 2 , Tong Zhao 2 , Hui Zhou 9 , Awais Ahmad 10 , Yinlong Zhu 11 , Liangxing Hu 12 , Dongxiao Ji 1 , Litao Jia 2 , Rui Liu 2 , Seeram Ramakrishna 1 , Xingcai Zhang 4
中文翻译:
可持续能源、环境和生物医学的生物资源升级
更新日期:2023-01-12
Nano-Micro Letters ( IF 31.6 ) Pub Date : 2023-01-11 , DOI: 10.1007/s40820-022-00993-4 Fanghua Li 1, 2 , Yiwei Li 3, 4, 5 , K S Novoselov 6, 7 , Feng Liang 8 , Jiashen Meng 3 , Shih-Hsin Ho 2 , Tong Zhao 2 , Hui Zhou 9 , Awais Ahmad 10 , Yinlong Zhu 11 , Liangxing Hu 12 , Dongxiao Ji 1 , Litao Jia 2 , Rui Liu 2 , Seeram Ramakrishna 1 , Xingcai Zhang 4
Affiliation
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Machine learning, techno-economic analysis, and life cycle analysis are imperative for various conversion approaches of high availability and low utilization biomass (HALUB).
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The conversion of HALUB to sustainable energy and materials has a positive consequence on mitigating climate change and building a green future.
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Microfluidic and micro/nanomotors-powered sustainable materials are of high potential for advanced applications.
中文翻译:
可持续能源、环境和生物医学的生物资源升级
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机器学习、技术经济分析和生命周期分析对于高可用性和低利用率生物质(HALUB)的各种转化方法至关重要。
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HALUB 转化为可持续能源和材料对于缓解气候变化和建设绿色未来具有积极影响。
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微流体和微/纳米电机驱动的可持续材料在先进应用方面具有很高的潜力。