Herein, results of photoinduced pH oscillatory phenomena of microalgae in laboratory systems are presented. Microalgae are an extremely complex biomaterial in which light-induced quantum mechanical processes induce changes in the surrounding aqueous environment (medium). A phenomenological understanding of the photoresponse by a quantitative study of pH oscillations of the medium is provided. The biochemical processes of algal metabolism and photosynthesis and the impact of light on a nitrate-enriched medium are examined. pH variations in the external medium and the impact on future applications of microalgae are presented. External pH dominantly impacts conductivity in the solution of algal biophotovoltaic devices. This is the first dynamic study of the light-induced pH behavior of microalgae with direct relevance to carbon capture, biophotovoltaic electricity generation, and quantum photosynthesis.

中文翻译：

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第一种光合生物材料的定量光响应：微藻系统的物理测量和分析

在此，介绍了实验室系统中微藻光诱导 pH 振荡现象的结果。微藻是一种极其复杂的生物材料，其中光诱导的量子力学过程会引起周围水环境（介质）的变化。通过定量研究介质的 pH 值振荡，提供了对光响应的现象学理解。研究了藻类代谢和光合作用的生化过程以及光对富含硝酸盐的培养基的影响。介绍了外部介质中的 pH 值变化以及对微藻未来应用的影响。外部 pH 值主要影响藻类生物光伏装置溶液中的电导率。这是对与碳捕获直接相关的微藻光诱导 pH 行为的首次动态研究，