Institute of Physics of the Czech Academy of Sciences, Prague, Czech Republic.
Department of Genetics and Microbiology, Faculty of Science, Charles University, Prague, Czech Republic.
Lett Appl Microbiol. 2022 Jun;74(6):924-931. doi: 10.1111/lam.13687. Epub 2022 Mar 8.
We studied the disinfection efficacy of boron-doped electrodes on Escherichia coli-contaminated water-based solutions in three different electrolytes, physiological solution (NaCl), phosphate buffer (PB), and phosphate buffer saline (PBS). The effect of the electrochemical oxidation treatment on the bacteria viability was studied by drop and spread plate cultivation methods, and supported by optical density measurements. We have found that bacterial suspensions in NaCl and PBS underwent a total inactivation of all viable bacteria within 10 min of the electrochemical treatment. By contrast, experiments performed in the PB showed a relatively minor decrease of viability by two orders of magnitude after 2 h of the treatment, which is almost comparable with the untreated control. The enhanced bacterial inactivation was assigned to reactive chlorine species, capable of penetrating the bacterial cytoplasmic membrane and killing bacteria from within.
我们研究了掺硼电极在三种不同电解质(生理盐水(NaCl)、磷酸盐缓冲液(PB)和磷酸盐缓冲盐水(PBS))中对大肠杆菌污染的水溶液的消毒效果。通过滴板和涂布平板培养方法研究了电化学氧化处理对细菌活力的影响,并通过光密度测量得到了支持。我们发现,在电化学处理 10 分钟内,NaCl 和 PBS 中的细菌悬浮液中的所有活菌完全失活。相比之下,在 PB 中进行的实验在处理 2 小时后,细菌活力仅降低了两个数量级,几乎与未经处理的对照相同。增强的细菌失活归因于活性氯物种,其能够穿透细菌细胞质膜并从内部杀死细菌。
