結合新型太陽能材料的負碳排放溫室對植物免疫反應的影響研究

  • 刊登日期: 2022-02-24
申請系所(單位) 化學工程學系
計畫主持人 林玠廷 助理教授 ( 個人網頁 )
計畫名稱(中文) 結合新型太陽能材料的負碳排放溫室對植物免疫反應的影響研究
計畫名稱(英文) Investigation of the effect of negative carbon emission greenhouse integrated with novel solar materials on plant immune response
共同主持人 陳禮弘 助理教授 / 植物病理學系
協同主持人 陳志銘 教授 / 化學工程學系
中文摘要 目前溫室種植技術已被廣泛用於植物的培育,而溫室多以壓克力或玻璃等材質構成,讓太陽光能透進溫室讓植物吸收。若進一步考慮到政府推動的2050淨零碳排以及展綠、增氣、減煤、非核的能源轉型,將新穎光電材料之太陽能電池和溫室設施做整合,不只能提供電能於智慧農業設施,也能夠達到零碳排甚至負碳排的目標。然而,在太陽能發電的同時也必須讓植物所需要的光穿過,因此半透明太陽能電池為一個很好的解決方案。植物的葉綠素主要利用藍光 (400nm-500nm)與紅光 (600nm-700nm)行光合作用,並且遠紅外光(700nm-850nm)的應用使植物產生避蔭反應(Shade avoidance response),進而促進植物生長。在此研究中我們將探討以三種新穎光電材料(包括有機導電聚合物或小分子、鈣鈦礦、染料)製備半透明之太陽能電池,並以此半透明太陽能電池搭建溫室以提供溫室所需電力。這些新穎光電材料的特性在於易於調整的吸光波段,使其可選擇性的吸收太陽光中的特定光譜,而調控穿透至溫室內的太陽光,以達到發電以及精準調控植物的生長速度及免疫反應的效果。
英文摘要 Greenhouses are mostly made of acrylic or glass materials, so that sunlight can penetrate into the greenhouse for plants to absorb. At present, greenhouse planting technology has been widely used in the cultivation of plants. If further consideration is given to the government′s 2050 net-zero carbon emissions and the development of green energy, the integration of solar cells and greenhouse facilities with novel optoelectronic materials can not only provide electricity for smart agricultural facilities but also achieve the goal of zero carbon emission or even negative carbon emission. However, while solar power generation, it must also let the light needed by plants pass through; thus, semitransparent solar cells come out as a good solution. The chlorophyll of plants mainly uses blue light (400nm-500nm) and red light (600nm-700nm) for photosynthesis, and the application of far-infrared light (700nm-850nm) makes plants produce shade avoidance response (Shade avoidance response), thereby promoting plant growth. In this study, we will investigate the semitransparent solar cells with three novel optoelectronic materials (including organic conductive polymers or small molecules, perovskites, dyes), and integrate these solar cells to the greenhouse to provide the electricity required for the greenhouse. Because the light absorption range of these novel optoelectronic materials can be tuned, the semitransparent solar cells can regulate the sunlight that penetrates into the greenhouse to achieve power generation and precise control of plant growth rate and immunity.