bacteriorhodopsin-based solar cell
基于细菌红质的光能电池
bacteriorhodopsin is a protein found in certain microorganisms.
细菌视紫红质是一种存在于某些微生物中的蛋白质。
the study of bacteriorhodopsin has implications for solar energy conversion.
对细菌视紫红质的研究对太阳能转换具有重要意义。
bacteriorhodopsin can be used in bioengineering applications.
细菌视紫红质可以用于生物工程应用。
researchers are exploring the properties of bacteriorhodopsin.
研究人员正在探索细菌视紫红质的特性。
bacteriorhodopsin functions as a light-driven proton pump.
细菌视紫红质作为光驱动质子泵发挥作用。
the structure of bacteriorhodopsin is crucial for its function.
细菌视紫红质的结构对其功能至关重要。
understanding bacteriorhodopsin can lead to advancements in optical devices.
了解细菌视紫红质可以推动光学设备的进步。
bacteriorhodopsin is often studied in the context of microbiology.
细菌视紫红质通常在微生物学的背景下进行研究。
scientists are investigating the potential of bacteriorhodopsin in nanotechnology.
科学家们正在研究细菌视紫红质在纳米技术中的潜力。
bacteriorhodopsin's unique properties make it a subject of interest in research.
细菌视紫红质的独特性质使其成为研究的兴趣对象。
bacteriorhodopsin-based solar cell
基于细菌红质的光能电池
bacteriorhodopsin is a protein found in certain microorganisms.
细菌视紫红质是一种存在于某些微生物中的蛋白质。
the study of bacteriorhodopsin has implications for solar energy conversion.
对细菌视紫红质的研究对太阳能转换具有重要意义。
bacteriorhodopsin can be used in bioengineering applications.
细菌视紫红质可以用于生物工程应用。
researchers are exploring the properties of bacteriorhodopsin.
研究人员正在探索细菌视紫红质的特性。
bacteriorhodopsin functions as a light-driven proton pump.
细菌视紫红质作为光驱动质子泵发挥作用。
the structure of bacteriorhodopsin is crucial for its function.
细菌视紫红质的结构对其功能至关重要。
understanding bacteriorhodopsin can lead to advancements in optical devices.
了解细菌视紫红质可以推动光学设备的进步。
bacteriorhodopsin is often studied in the context of microbiology.
细菌视紫红质通常在微生物学的背景下进行研究。
scientists are investigating the potential of bacteriorhodopsin in nanotechnology.
科学家们正在研究细菌视紫红质在纳米技术中的潜力。
bacteriorhodopsin's unique properties make it a subject of interest in research.
细菌视紫红质的独特性质使其成为研究的兴趣对象。
探索常用高频词汇