**新型半人工光合涂层材料突破能源应用新境界**
深圳消息,据中新网报道,6月24日,中国科学院深圳先进技术研究院宣布,其合成生物学研究所钟超团队与上海科技大学物质科学与技术学院的马贵军团队联合开发出新型半人工光合涂层材料,对于新能源领域来说是一大突破性进展。该研究成果已正式发表在国际权威学术期刊《科学进展》上。
据专家介绍,这种新型光合涂层材料融合了先进的合成生物学技术与现代材料科学,能够有效提高太阳能利用率和转换效率。通过独特的合成方式,这一涂层可将阳光直接转化为能源,极大地促进了新能源领域的技术革新。此项研究不仅简化了能源转换过程,也提高了能源的可持续性和效率。此项突破标志着我国在新能源领域的研究走在了世界前列。未来,该材料有望在太阳能利用、绿色建筑等领域得到广泛应用,对人类社会的可持续发展具有深远影响。钟超团队与马贵军团队的工作不仅是科学研究的进步,更是对人类未来能源需求的积极回应。目前,业界对该材料的后续应用前景充满期待。这一创新将为新能源领域带来新的发展机遇和挑战。
英语如下:
News Title: “Shenzhen Scientific Research Breakthrough: New Semi-Artificial Photosynthetic Coating Material Opens a New Chapter in New Energy Field”
Keywords: 1. Semi-Artificial Photosynthetic Coating Material
News Content: **Breakthrough in New Semi-Artificial Photosynthetic Coating Material Opens a New Dimension in Energy Application**
Shenzhen news, reported by Chinanews.com on June 24th, the Shenzhen Advanced Research Institute of the Chinese Academy of Sciences announced a major breakthrough in the field of new energy with the joint development of a new semi-artificial photosynthetic coating material by the Zhong Chao team from the Institute of Synthetic Biology and the Ma Guijun team from the University of Shanghai for Science and Technology. This research成果 has been formally published in the international authoritative academic journal “Science Progress”.
According to experts, this new photosynthetic coating material combines advanced synthetic biology technology with modern materials science to effectively improve solar energy utilization and conversion efficiency. Through unique synthesis, this coating can directly convert sunlight into energy, greatly promoting technological innovation in the field of new energy. This research not only simplifies the process of energy conversion but also improves energy sustainability and efficiency. This breakthrough marks that China is at the forefront of research in the field of new energy. In the future, this material is expected to have wide applications in solar energy utilization, green buildings and other fields, which will have far-reaching impacts on the sustainable development of human society. The work of Zhong Chao team and Ma Guijun team is not only a progress in scientific research, but also a positive response to human’s future energy needs. Currently, the industry is looking forward to the future application prospects of this material. This innovation will bring new development opportunities and challenges to the field of new energy.
【来源】http://www.chinanews.com/gn/2024/06-24/10239693.shtml
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