A bacterial spore model of pulsed electric fields on spore morphology change revealed by simulation and SEM

机译：模拟和SEM揭示了脉冲电场对孢子形态变化的细菌孢子模型

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A two-layered spore model was proposed to analyze morphological change of bacterial spores subjected under pulsed electric fields. The outer layer, i.e. spore coat, was defined by Mooney-Rivlin hyper-elastic material model. The inner layer, i.e. peptidoglycan and spore core, was modeled by applying additional adhesion forces. The effect of pulsed electric fields on surface displacement was simulated in COMSOL Multiphysics and verified by SEM. The electro-mechanical theory, considering spore coat as a capacitor, was used to explain concavity; and the thin viscoelastic film theory, considering membrane bilayer as fluctuating surfaces, was used to explain leakage forming. Mutual interaction of external electric fields, charged spores, adhesion forces and ions movement were all predicted to contribute to concavity and leakage.

机译：提出了一个两层的孢子模型来分析在脉冲电场下细菌孢子的形态变化。外层，即孢子皮层，是由Mooney-Rivlin超弹性材料模型定义的。内层，即肽聚糖和孢子核，是通过施加附加的粘附力来建模的。在COMSOL Multiphysics中模拟了脉冲电场对表面位移的影响，并通过SEM进行了验证。机电理论以孢子皮为电容器，用来解释凹度。并以薄膜双层为波动表面的薄粘弹性膜理论来解释泄漏的形成。外部电场，带电的孢子，粘附力和离子运动的相互影响都被预测会导致凹陷和泄漏。

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《Annual International Conference of the IEEE Engineering in Medicine and Biology Society》|2014年|6822-6825|共4页
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Qiu Xing; Lee Yin Tung; Yung Pun To;
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Electric breakdown; Electric fields; Ions; Microorganisms; Shape; Surface morphology; Surface treatment;

机译：电击穿;电场;离子;微生物;形状;表面形态;表面处理;

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1. Inactivation of Bacillus subtilis spores by pulsed electric fields (PEF) in combination with thermal energy II. Modeling thermal inactivation of B. subtilis spores during PEF processing in combination with thermal energy. [J] . Siemer C, Toepfl S, Heinz V. Food Control . 2014,第Null期

机译：脉冲电场（PEF）结合热能II使枯草芽孢杆菌孢子失活。在PEF加工过程中结合热能对枯草芽孢杆菌孢子的热失活进行建模。
2. Sensitivities of Germinating Spores and Carvacrol-Adapted Vegetative Cells and Spores of Bacillus cereus to Nisin and Pulsed-Electric-Field Treatment [J] . Irene E. Pol, Willy G. C. van Arendonk, Hennie C. Mastwijk, Applied and Environmental Microbiology . 2001,第4期

机译：萌发芽孢和适应香芹酚的营养细胞和蜡状芽孢杆菌孢子对乳链菌肽和脉冲电场处理的敏感性
3. Destruction and Inhibition of Bacterial Spores by High Voltage Pulsed Electric Field [J] . V.O. MARQUEZ, G.S. MITTAL, M.W. GRIFFITHS Journal of Food Science . 1997,第2期

机译：高压脉冲电场对细菌孢子的破坏和抑制
4. A bacterial spore model of pulsed electric fields on spore morphology change revealed by simulation and SEM [C] . Qiu Xing, Lee Yin Tung, Yung Pun To Annual International Conference of the IEEE Engineering in Medicine and Biology Society . 2014

机译：仿真和SEM揭示孢子形态变化脉冲电场的细菌孢子模型
5. Inactivation of bacterial spores in milk using pulsed electric fields (Bacillus stearothermophilus, Bacillus licheniformis). [D] . Ross, Alexander Iain Vaughan. 2003

机译：使用脉冲电场（嗜热脂肪芽孢杆菌，地衣芽孢杆菌）灭活牛奶中的细菌孢子。
6. Sensitivities of Germinating Spores and Carvacrol-Adapted Vegetative Cells and Spores of Bacillus cereus to Nisin and Pulsed-Electric-Field Treatment [O] . Irene E. Pol, Willy G. C. van Arendonk, Hennie C. Mastwijk, 2001

机译：萌发芽孢和适应香芹酚的营养细胞和蜡状芽孢杆菌孢子对乳链菌肽和脉冲电场处理的敏感性
7. Electro-Mechanical Stresses on Bacillus Atrophaeus Bacterial Spore Germination Induced by Pulsed Electric Fields [O] . Xing Qiu, Wen Jie WU 2020

机译：脉冲电场诱导的芽孢杆菌细菌孢子萌发的机电应力
8. Studies on Bacterial Spore Ultraviolet Light Resistance and Regulation of theActivity of a Spore Protease [R] . Setlow, P. 1993

机译：细菌孢子紫外线抗性及孢子蛋白酶活性调节的研究

A bacterial spore model of pulsed electric fields on spore morphology change revealed by simulation and SEM

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