Energetic Biocidal Materials and Spore Neutralization
نویسندگان
چکیده
Title of Document: ENERGETIC BIOCIDAL MATERIALS AND SPORE NEUTRALIZATION Wenbo Zhou, Doctor of Philosophy, 2015 Directed By: Professor Michael R. Zachariah, Department of Chemical and Biomolecular Engineering and Department of Chemistry and Biochemistry The objective of this dissertation is to explore a more accurate and versatile approach to investigating the neutralization of spores suffered from ultrafast heating and biocide based stresses, and further to explore and understand novel methods to supply ultrafast heating and biocides through nanostructured energetic materials A surface heating method was developed to apply accurate (± 25 ̊C), high heating rate thermal energy (200 800 ̊C, ~10 ~10 ̊C/s). Uniform attachment of bacterial spores was achieved electrophoretically onto fine wires in liquids, which could be quantitatively detached into suspension for spore enumeration. The spore inactivation increased with temperature and heating rate, and fit a sigmoid response. The neutralization mechanisms of peak temperature and heating rate were correlated to the DNA damage at ~10 ̊C/s, and to the coat rupture by ultrafast vapor pressurization inside spores at ~10 ̊C/s. Humidity was found to have a synergistic effect of rapid heating and chlorine gas to neutralization efficiency. The primary neutralization mechanism of Cl2 and rapid heat is proposed to be chlorine reacting with the spore surface. The stress-kill correlation above provides guidance to explore new biocidal thermites, and to probe mechanisms. Results show that nano-Al/K2S2O8 released more gas at a lower temperature and generated a higher maximum pressure than the other nano-Al/oxysalts. Given that this thermite formulation generates the similar amount of SO2 as O2, it can be considered as a potential candidate for use in energetic biocidal applications. The reaction mechanisms of persulfate and other oxysalts containing thermites can be divided into two groups, with the reactive thermites (e.g. Al/K2S2O8) that generate ~10× higher of pressure and ~10× shorter of burn time ignited via a solid-gas Al/O2 reaction, while the less reactive thermites (e.g. Al/K2SO4) following a condensed phase Al/O reaction mechanism. These different ignition mechanisms were further re-evaluated by investigating the roles of free and bound oxygen. A constant critical reaction rate for ignition was found which is independent to ignition temperature, heating rate and free vs. bound oxygen. ENERGETIC BIOCIDAL MATERIALS AND SPORE NEUTRALIZATION
منابع مشابه
Validation of Spore-Forming Organisms Recovery from Peroxygen-Based Disinfectants
Neutralization method evaluation is a crucial preliminary step in biocidal agent evaluation and environmental monitoring (EM) programs. In the present study, four commercial peroxygen/Ag+-based sporicidal disinfectants in pharmaceutical industry were tested against 3 spore-forming microorganisms (Aspergillus brasiliensis, Bacillus subtilis subsp. spizizenii and Bacillus cereus). An in-house mad...
متن کاملAspects of tests and assessment of filtering materials used for respiratory protection against bioaerosols. Part I: type of active substance, contact time, microorganism species.
This paper presents the results of a study on antimicrobial activity of polymer filter nonwovens produced by needle-punching or melt-blowing with an addition of disinfecting agents. The first part of the paper discusses how the biocidal activity of nonwovens is a function of the active agent added to the nonwovens, the duration of the contact of microorganisms with nonwovens and the type of mic...
متن کاملComparison of biocidal and sporicidal effects of spark discharge plasma and mercury-vapor low pressure lamp radiations
In this work it was shown that the inactivation micromycets spore (fungi) to hot plasma radiation of self-sustained spark discharge on air is much more effectively than UVradiation mercury-vapor lamp. Though the discharge electrical power is 15 times and UVphotons flux 430 times more for mercury lamp than for spark discharge. Discussed method inactivation is very simple.
متن کاملNanomaterials and Coatings with Antimicrobial Properties
Contents 1. Introduction 2. Application of nanostructures and biologically active metals 3. Cosmetics and sanitary products based on natural nanomaterials 4. Textile materials with antibacterial properties 4.1. Use of antibacterial textile materials 4.2. Antibacterial processing of textile materials with nanosystems 5. Antibacterial processing of nonwoven materials and leather with nanosystems ...
متن کاملRecovery of Gram-Positive Cocci and Candida albicans from Peroxygen/Silver-Based Disinfectants.
Neutralization method evaluation is an important first step in a disinfectant validation study program. It is also crucial in assessment of the efficiency of microbial recovery media in the presence of a residual biocidal agent. In the present study, four commercially available peroxygen/silver-based disinfectant formulae--intended to be used in a pharmaceutical facility sanitization program--w...
متن کامل