Abstract: A dispenser (10) for a volatilizable material has a first member (14) that is substantially cup-shaped with a given diameter (X) and with a given depth (Z) and having a first peripheral flange (16) having a first diameter (D). A second member (18) has a second peripheral flange (20) with a second diameter (D2) greater than the given diameter (X). The first peripheral flange (16) and the second peripheral flange (20) are in intimate contact thereby defining a volatilizable material chamber (22) between the bottom (24) of the second member (18) and the bottom (26) of the first cup-shaped member (14). A volatilizable material (12) such as liquid mercury is placed in the chamber; and a hermetic seal (28) is formed between the first and second flanges. When installed in a fluorescent lamp the volatilizable material is released by heating the dispenser with RF current. The material is released when the vapor pressure within the dispenser reaches about 20 atmospheres.

Abstract: A chemical compound is disclosed herein for performing a complex enzymatic neutralization and fixation of formaldehyde, providing a method for instantaneous neutralization of formaldehyde vapors and offering a complete and rapid control of incidental releases, and a complete protection of workers against airborne formaldehyde during the course of their work. The compound includes alkanolamine, for instantaneous reaction with formaldehyde, and for absorbing hydrogen sulfide and carbon dioxide from the air, and a human protein, which reacts with airborne formaldehyde and forms the major enzyme involved in formaldehyde oxidation in oral mucosa. The compound also contains cyclodextrins for inclusion complexation of all the components of spent and/or unused aqueous formaldehyde solutions.

Abstract: Pathogens, toxins, and some chemical warfare agents inside an enclosure are destroyed using hydroxyl free radicals. The hydroxyl free radicals can be generated by, for example, reacting ozone with water in the presence of ultraviolet light or reacting hydrogen with nitrogen dioxide in the presence of ultraviolet light.

Abstract: A household electric appliance including a heating part and titanium oxide particles to be activated by heating, the heating part being a heating device inherently possessed by the household electric appliance and/or an additional heating device not inherently possessed by the household electric appliance.

Abstract: The present invention reduces the amount of oxygen in an oxygen-containing gas within a closed environment. A selected amount of hydrogen gas is mixed with a portion of the oxygen-containing gas from the closed environment to form a first gas mixture. A catalyst exposed to the first gas mixture causes a reaction between the hydrogen and at least a portion of the oxygen therein. The resulting second gas mixture, which is returned to the closed environment, has a lower percentage of oxygen. At least one oxygen sensor is positioned in the closed environment to determine when oxygen levels in the closed environment reach a threshold level. The output signal from the sensor is used to control when and/or how much hydrogen is mixed in the first gas mixture.

Abstract: A device 1 for evaporating volatile liquids comprises a casing 2 and a bottle 3 containing the volatile liquid. the device 1 contains within it a heater which is heated by connecting the device into a wall socket by means of an electric plug 4. The device comprises container-receiving means 40 which interact with engagement means 8 formed on the neck of the bottle 3. Release of the bottle is effected by means of a button 7 which causes deformation of the container-receiving means 40 leading to release of the bottle 3. The button 7 is located on the same face of the device 1 as the electric plug 4. This means that the button is not accessible whilst the device is connected to a wall socket. This prevents appropriate removal of the bottle 3 from the casing 2 whilst the device 1 is connected to an electric current.

Abstract: A fibrous catalyst comprises at least one transition metal anchored to a polymer fiber having a plurality of grafted units grafted to a polymer backbone. The polymer backbone may be a polyolefin, a fluorinated polyethylene, cellulose or viscose. The grafted units comprise a salt of a carboxylic acid, which in a preferred embodiment is a sodium salt of acrylic acid. The catalysts are particularly suitable for scavenging oxygen from sealed packages or containers and may further comprise a chemical indicator for the presence or absence of oxygen.

Abstract: Decontamination is achieved by producing an activated cleaning fluid mist using a decontamination apparatus having a source of a cleaning fluid, a mist generator having an input flow of the cleaning fluid and an output flow of a mist of the cleaning fluid at substantially one atmosphere ambient pressure, and an activator positioned to activate the mist of the cleaning fluid to produce the activated cleaning fluid mist wherein atoms of the cleaning fluid are activated. The activated cleaning fluid mist is contacted to a location to be decontaminated.

Abstract: Process and apparatus for gas cleaning, as in HVAC systems or semiconductor manufacturing clean rooms, for removing 99.999% of particulate and gaseous contaminants, which may be effectively used to remove and neutralize Bio-chem agents introduced by terrorists, having a first stage in which large quantities of positively charged liquid droplets are introduced into the gas to be cleaned so as to remove virtually all negatively charged particulates and at least 90% of neutral particulates and soluble gases; a second stage in which most positively charged droplets from the first stage are removed and remaining particulates are given a positive charge; a third stage in which large quantities of negatively charged liquid droplets are introduced to remove positively charged particulates and more soluble gas contaminants; and a fourth stage in which the negatively charged droplets are removed from the cleaned gas stream.

Abstract: A closed system odorant chamber or wick-style odorizer and method for transferring odorant to an odorant chamber is described. Two cylinders are connected to the odorant chamber, which in turn may be connected to a gas line. The pressure differential between the two cylinders causes odorant to flow into the odorant chamber until an appropriate odorant level is reached. After filling up the odorant chamber, the two cylinders are disconnected from the odorant chamber. It is emphasized that this abstract is provided to comply with the rules requiring an abstract that will allow a searcher or other reader to quickly ascertain the subject matter of the technical disclosure; and is submitted with the understanding that it will not be used to interpret or limit the scope or meaning of the claims under 37 C.F.R. § 1.72.

Abstract: A computer fan assembly mechanism having filtering and sterilizing functions comprises a fan body. An air passageway is formed at a hollow portion in the fan body. The air passageway has an intake and an air vent, which corresponds to the fan, is located on the fan body. A photo-catalytic net is disposed at the intake. One or more UV LEDs are disposed on the air passageway to illuminate the photo-catalytic net. Through illumination of the UV LED onto the photo-catalytic net, the object of filtering and sterilizing air passing the intake can be accomplished.

Abstract: A biochemical agent is denatured by producing an activated cleaning fluid mist containing activated hydroxyl species wherein at least a portion of the activated cleaning fluid mist is in an activated state at substantially one atmospheric ambient pressure, and contacting the activated cleaning fluid mist to a biochemical agent.

Abstract: An apparatus for treating pollutants in a gas may include a source of hydrogen peroxide, and a treatment injector for creating and injecting dissociated hydrogen peroxide into the flow of gas. The treatment injector may further include an injector housing having an inlet, an outlet, and a hollow interior extending therebetween. The inlet may be connected in fluid communication with the source of hydrogen peroxide so that hydrogen peroxide flows through the hollow interior and toward the outlet. At least one ultraviolet (UV) lamp may be positioned within the hollow interior of the injector housing. The at least one UV lamp may dissociate the hydrogen peroxide flowing through the tube. The dissociated hydrogen peroxide may be injected into the flow of gas from the outlet for treating pollutants, such as nitrogen oxides.

Abstract: A system and method for purifying air is provided. An air purifier may include a housing, a means to move an airstream into the housing, and a pair of ultraviolet radiation generating means and associated control means to produce ozone to destruct airborne contaminants. The housing may be an elongated hollow tube, and the ultraviolet radiation generating means may be lamps of generally cylindrical shape axially aligned in the hollow tube. The control means may be lamp drivers and timers. The air purifier may further include a reactive filter across an exit means to reduce residual amounts of ozone in the stream of air passing through the exit means.

Abstract: Disclosed herein are methods of sterilizing a device in a sterilizer, methods of sterilizing a device in an enclosure in a sterilizer, and enclosures for retaining a device capable of being sterilized in a sterilization process. The sterilization process comprises hydrogen peroxide vapor or gas. The sterilization load may include an enclosure, which can be a tray or a container. The tray or container comprises at least a volume of aluminum oxide. The ratio of the amount of hydrogen peroxide gas or vapor introduced into the sterilizer to the volume of aluminum oxide is at least 24 mg/cm3.

Abstract: A sterilization system (14) includes a sensor (10) for detection of a component, such as hydrogen peroxide vapor, in a multi-component vapor, such as a mixture of vapor hydrogen peroxide and water supplied to a chamber (12) of the system. The sensor preferably uses a wavelength range in which hydrogen peroxide strongly absorbs but other components of the vapor, such as water, do not. A suitable wavelength for detection of hydrogen peroxide is from about 7500 to about 8400 nm, since there is little absorption by water in this range. This avoids the need to use complex subtraction procedures normally used to remove the contribution of water from detected absorbance measurements. A control system (16, 30) controls operating conditions of the sterilization system, such as a heater (82), pressure release valves (74), vaporization rate of hydrogen peroxide by a vaporizer (22), and the like to maintain optimum sterilization conditions within the chamber.

Abstract: A chemical vapor sterilization process is enhanced by controlling the temperature of a diffusion path between a vaporizer and a sterilization chamber so as to condense and then re-vaporize at least a portion of the vapor.

Abstract: A dispenser for controlling the release of volatile materials within a contained environment such as an automobile, a home, an office, a factory, or the like, comprises a housing having an opening therein, a volatile material positioned within the housing, and a temperature responsive component in operable association with the opening to regulate said opening in order to contain or release the volatile material. The temperature responsive component automatically controls the release of the volatile material in the contained environment in response to a change in the ambient temperature by uncovering or covering the opening of the housing. A method for controlling the release of volatile materials within a contained environment is also disclosed.

Abstract: A method and apparatus for the sterilization of air by destroying viral and/or biological contaminants is disclosed. Large concentrations of ozone mix with ambient air in a mixing chamber with a residence time long enough to destroy the contaminants. An ozone concentration high enough to efficiently destroy said contaminants, is inherently too high to be inhaled by people. This ozone laden, decontaminated air is then scrubbed or catalyzed to reduce the ozone concentration, below the current OSHA limits of 0.1 ppm for an 8-hour continuous exposure. The “conditioned” air can then be delivered to an indoor space. Incorporated in this decontamination apparatus is an ozone interlock system, which ensures that residual ozone does not enter the indoor air space.

Abstract: Systems, devices, methods, and compositions that improve the scent perception for a user. Improved scent perception is achieved by presenting alternating scents and by varying levels of output of scents, as well as by minimizing device clogging, thereby improving evaporation profiles.

Abstract: The invention is directed to a landscape product that burns a fuel containing citronella to deter insects and which does not look like a conventional anti-insect device in a landscaped environment. The landscape product comprises a container defining an aperture, a stone having a through bore and located above the fuel container, a wick holder located above the aperture and extending through the through-bore to a position above at least part of the stone, and a wick extending upwardly from within the fuel container and through the wick holder to a location above the wick holder and thence to a position above at least part of the stone. The landscape product is capable of burning a liquid fuel containing citronella oil to provide a landscape product to deter undesirable insects.

Abstract: An artificial flower includes a hollow stem and a flower portion disposed adjacent one end of the hollow stem. A fragrance source is associated with the artificial flower. In one embodiment, the fragrance source is disposed within the hollow stem of the artificial flower and the fragrance source is adapted to emit a fragrance that moves through at least a portion of the hollow stem.

Abstract: A tungsten oxide/titanium dioxide photocatalyst coating oxidizes contaminants in the air that adsorb onto the coating into water, carbon dioxide, and other substances. The tungsten oxide forms a monolayer on the titanium dioxide. When photons of the ultraviolet light are absorbed by the tungsten oxide/titanium dioxide photocatalyst coating, an electron is promoted from the valence band to the conduction band, producing a hole in the valence band. The holes in the valence band react with water applied on the tungsten oxide/titanium dioxide photocatalyst coating, forming reactive hydroxyl radicals. When a contaminant in the air is adsorbed onto the tungsten oxide/titanium dioxide photocatalyst, the hydroxyl radical attacks the contaminant, abstracting a hydrogen atom from the contaminant. The hydroxyl radical oxidizes the contaminant, producing water, carbon dioxide, and other substances. The tungsten oxide/titanium dioxide photocatalytic coating has low sensitivity to humidity variations.

Abstract: Phosphine gas is generated by agitating a reaction mixture of a metal phosphide and water with agitation air in a reaction pot of a phosphine gas generator. The resulting phosphine gas is then diluted with dilution air to produce a fumigant phosphine gas which is directly delivered to a commodity for fumigation. The reaction pot does not have any rotating means such as agitators, rotors, or stirrers. The generator provides on-site generation of phosphine gas in a rapid manner improving the fumigation efficiency for a commodity, such as grain, preferably contained within a storage structures, such as a grain silo. The generator has a built in deactivation system for the unused metal phosphide and phosphine gas.

Abstract: An air purification system that uses laser beams to purify air. A laser beam is set to sweep across the interior of a box that is open at two ends to the flow of air. The laser beam is of sufficient strength to destroy or neutralize any dust particles, pollen, pathogens, allergens, or gasses that are present in the flow of air through the box. An air baffle box is utilized at each end of the box with the air flow to prevent the laser beam from escaping from the box. A second preferred embodiment of the present invention is the use of a fan laser beam to purify a flow of air. Said fan laser beam is suppled to a box through which air is flowing in such a manner that all air passing through the box must also pass through said fan laser beam. An air baffle box is utilized at each end of the box to prevent the escape of laser beams.

Abstract: The invention provides a composition for diffusion in the air of an enclosure to be treated to combat the bacteria contained in the air of the enclosure. The composition contains 2-phenylphenol and natural and/or synthetic thymol dissolved in a solvent such as isopropyl alcohol, for example. The invention also provides a method of combating the bacteria in the air of an enclosure to be treated, which method includes a step of diffusing the antibacterial composition into the air of the enclosure. Finally, the invention provides the use of a catalytic combustion flask for implementing such a method.

Abstract: The coated multilayer structure comprising a polymeric base layer, an inorganic oxide gas barrier layer on a surface of the polymeric base layer, and a top coat on the inorganic oxide gas barrier layer, the top coat comprising a soluble compound capable of reducing the permeability of the multilayer structure to gas or vapor. A method for enhancing the gas or vapor barrier properties of a multilayer polymeric/inorganic oxide structure is also disclosed. According to one embodiment, SiOx coated polyethylene terephthalate containers are coated with a gas or vapor barrier enhancing top coat.

Abstract: Containers which are ready to be filled or a package material having a plastic surface can be sterilized by hydrogen peroxide in gaseous phase being supplied to the previously heated plastic surface, the entire sterilization procedure being performed with the hydrogen peroxide in gaseous phase.

Abstract: There is disclosed an adjustable germicidal system to be attached to an air handling apparatus. In one embodiment, an adjustable germicidal system comprises a first socket assembly adjustably coupled to a second socket assembly. The first socket assembly and the second socket assembly may be spatially adjusted with respect to one another in at least one dimension. A germicidal lamp is coupled to each of the socket assemblies. The adjustability of the socket assemblies allows the lamps to be placed in a desired alignment relative to one another and relative to one or more walls of the air handling apparatus. A single power cord is coupled to one of the socket assemblies.

Abstract: There is disclosed a germicidal lamp having a ballast integrated therewith. The germicidal lamp assembly permits simpler fixture designs, and may even result in near or total elimination of the fixture. It also eases installation of a complete germicidal system (fixture plus lamp). The germicidal lamp assembly simplifies maintenance by eliminating need to separately replace the ballast and the germicidal lamp. The germicidal lamp assembly reduces product stocking requirements. Maintenance scheduling can therefore be simpler, since only the germicidal lamp assembly need be checked and/or replaced, instead of separate ballast and a germicidal lamp. The germicidal lamp assembly is compact, so it reduces warehouse and storage costs, and allows installation in smaller spaces.

Abstract: The present invention is for a spore collection apparatus and its method of use. The portable spore collection apparatus includes a suction source, a nebulizer, an ionization chamber and a filter canister. The suction source collects the spores from a surface. The spores are activated by heating whereby spore dormancy is broken. Moisture is then applied to the spores to begin germination. The spores are then exposed to alpha particles causing extinction.

Abstract: The present invention provides a device for modifying an atmosphere in proximity to the device, the device comprising a sachet comprising a semipermeable material, and a composition including a mixture of acetylsalicylic acid and sodium bicarbonate contained within a cavity of the sachet. The invention further provides methods for modifying an atmosphere comprising placing a mixture of a carboxylic acid and a base in the atmosphere, wherein the atmosphere has a sufficient level of water vapor such that, upon contact of the water vapor with the mixture, carbon dioxide is produced.

Abstract: When microbial contamination is introduced into a room (20*) of an enclosure, such as a building, an HVAC system including supply ductwork (16) and a return ductwork (34) is decontaminated with hydrogen peroxide vapor. A decontamination controller (46) operates controllable baffles (22) at outlet registers (20), temporary controllable baffles (44) at inlet registers (30), and a blower system (10) to circulate hydrogen peroxide vapor from hydrogen peroxide vapor generators (42) through the ductwork in both forward and reverse directions. Further, at least portions of the baffles are closed to create dwell times in which the hydrogen peroxide vapor resides in the ductwork with minimal or turbulent flow.

Abstract: In general, the present invention provides a personal air sterilization unit including an intake port; an exhaust port; a sterilization duct communicating in between the intake port and the exhaust port; an ultraviolet light source emitting ultraviolet light and retained within the sterilization duct to expose the interior of the sterilization duct to ultraviolet light; and means for drawing air into the intake port, forcing it through the sterilization duct, where it is treated by ultraviolet light, and thereafter forcing it out through the exhaust port to create a circulating air current encompassing a personal air space.

Abstract: A wick-based emanation device for dispensing a volatile liquid is disclosed. The dispensing device includes a housing and a fan mounted in the housing for generating an air stream used for dispersing the volatile liquid. Walls of the housing form an enclosure for mounting the fan and for receiving an exposed portion of the wick therein. A retention structure is provided for coupling the wick to the housing and securing the wick in the air stream generated by the fan. The volatile liquid migrates along the wick from the reservoir to the exterior of the container where it is evaporated from the surface of the wick by forced airflow generated by a motorized fan mounted in the housing. The wick is formed to have a width dimension W which does not exceed 1.2 times a dimension R of a blade of the fan extending from the fan axis of rotation to an edge of the fan blade farthest from the axis of rotation.

Abstract: A method and device are provided for preventing the habituation of a fragrance composition. The method and device are adapted to provide to a space, which it is desired to fragrance, a continuous supply of a first fragrance composition and a periodic supply of a second fragrance composition. The fragrance composition(s) may be vaporized by heating and may include deodorant and/or insecticidal compounds.

Abstract: An oxygen enrichment system is provided. The system includes an electrochemical cell for generating oxygen from ambient air. The electrochemical cell extracts oxygen from ambient air based on hydroxide conduction. A mixer is provided in fluid communication with ambient air, and an outlet provides oxygen enriched air to a user or air-breathing apparatus. In further embodiments, a purification system is also included. The air enrichment system may be employed with suitable batteries to provide a portable air enrichment device.

Abstract: An ultraviolet disinfection (UV) system for purifying effluent streams, in particular produced by industrial or mechanical combustion, the system including a UV light-based gas purifier including a UV light source, which is positioned to provide a focused, controllable UV light output into the effluent streams contained by a channel housing that has at least one UV dose zone for providing effective sterilization of microorganisms and disinfection within an interior of the gas purifier. A method for UV purification using gas purifiers is also provided.

Abstract: The invention provides a system and a method for improving the delivery of volatiles from a burning candle by providing a stabilized laminar gas flow adjacent a volatile-containing molten pool, ensuring an enlarged molten pool by close regulation of thermal transfer between a monolithic candle mass and the surrounding atmosphere, and minimizing volatile loss through unregulated thermal gradients.

Abstract: A system for detection and treatment of chemical weapons and/or biological pathogens uses a detector system, an electrostatic precipitator or scrubber, a circulation system, and a control. The precipitator or scrubber is activated in response to a signal from the detector upon the detection of chemical weapons and/or biological pathogens.

Abstract: An ultraviolet flux multiplying air sterilization chamber comprises inner surfaces having a diffuse reflective behavior. The sterilization chamber includes an inlet aperture and an outlet aperture for air to flow through said chamber and a light source emitting an ultraviolet light. Due to the reflectivity of the inner surfaces of the chamber, a flux of the ultraviolet light is multiplied by reflecting multiple times from the inner surfaces of the chamber. The inlet and outlet apertures are advantageously configured to reduce the amount of light that escapes from the chamber and increase the amount of photons available in the chamber. In an exemplary embodiment, packed arrays of fibers, spheres, or other small particles are placed at the inlet and/or outlet to the chamber. These packed arrays provide light scattering events such that the light incident on the packed arrays reflects back with high reflectivity.

Abstract: Described is an ester mixture of 1-cyclohexylethan-1-yl butyrate and 1-cyclohexylethan-1-yl acetate wherein the weight ratio of 1-cyclohexylethan-1-yl butyrate:1-cyclohexylethan-1-yl acetate is from about 20:80 up to about 80:20. The mixture is synergistically effective for its ability to counteract a malodour (1) emanating from a malodourous solid or liquid source into a 3-space proximate the solid or liquid source or (2) present in a malodourous air 3-space.

Abstract: An air sterilization system comprising an adherent agent, a plurality of electrostatically charged non-conductive objects, and high-energy is disclosed. The system preferably includes an enclosed chamber, an adherent generator, and at least one high-energy source. The air produced by the sterilization system is breathable air.

Abstract: A liquid product vaporizing apparatus for an air deodorizing system includes an air inlet port for drawing a stream of air into the system and directing the stream of air into a vaporization chamber. An atomizing nozzle sprays a mist of liquid deodorant from a liquid reservoir into the vaporization chamber as the stream of air flows through the vaporization chamber. Much of the atomized liquid deodorant vaporizes within the vaporization chamber. The vaporized particles of liquid deodorant mix with the stream of air flowing through the vaporization chamber to form a stream of treated air. Other particles of liquid deodorant condense and coalesce on the sidewall of the vaporization chamber and are drawn by gravity toward the liquid product reservoir so they may be re-sprayed from the atomizing nozzle. The treated air exits the vaporization chamber and is directed through distribution pipes to a plurality of vapor distribution ports.

Abstract: A method of treating exhaust gases containing halogen compound, the improvement in that the exhaust gases containing halogen compounds such as halogen gases and/or hydrogen halide gases (halogenated acid gases) are brought into contact with simple metals. The halogen compounds such as acid gases and halogen gases can thereby effectively be removed from the exhaust gases.

Abstract: A combination system for ozonating the air and water provided to an animal confinement house, such as a poultry house, to provide breathing air and drinking water with less viruses, bacteria and contaminants to the growing animals, such as poultry, using an air ozonation system to provide ozonated air to the animal confinement house and a water ozonation system to provide ozonated water to the animal confinement house, preferably utilizing a single ozone reactor to provide ozone to both the air ozonation system and the water ozonation system.

Abstract: An HVAC system for a motor vehicle including one or more ultraviolet light sources that are operatively disposed within one or more portions of the HVAC system and that are effective in treating microorganisms within the HVAC system. The HVAC system may also include one or more sensors and a controller for selectively activating and deactivating the one or more ultraviolet light sources.

Abstract: Systems and methods for cleansing a fluid stream including a support structure positioned generally perpendicular to the fluid stream, the support structure creating an interior space and including a plurality of apertures to allow fluid to flow through the apertures. Also included is at least one expanded sheet positioned within the space, the expanded sheet having a plurality of expanded slits, and a photocatalytic agent coupled to the expanded sheet to oxidize airborne contaminants when exposed to a light source. Pleats may be formed in the expanded sheet to further increase the reactive surface area.

Abstract: An apparatus and methodology for abating fungi in a building supported on a ground surface and having an upper enclosed living space and a lower enclosed space beneath the upper enclosed space and proximate or beneath the ground. The apparatus includes a blower positioned in the lower enclosed space and having an air inlet and an air exhaust; a plurality of intake conduits having inlet ends adapted to open in the lower enclosed space proximate a lower boundary of that space and outlet ends connected to the inlet of the blower; a plurality of exhaust conduits having inlet ends connected to the exhaust of the blower and outlet ends positioned exteriorly of the building; and a plurality of ultraviolet lamps positioned at spaced locations in the lower enclosed space and establishing germicidal killing zones intercepting and cleansing air moving from the lower enclosed space into the inlet ends of the intake conduits.

Abstract: A method and apparatus is described for neutralizing airborne pathogens in ventilated air, and in heating or air conditioning systems. The pathogen neutralization system is effective against a wide spectrum of pathogens, it incorporates commercially available components, and it can be readily integrated into commercial HVAC systems where it neutralizes airborne pathogens in large volumes of ventilated air in real time without any chemical reagents. Typically, the system has a flow-through reaction chamber that contains a UV light source that emits short intense flashes of broad-spectrum UV light, a source of water vapor or spray, and an ozone generator. The system generates highly reactive ozone intermediates by irradiating ozone gas with UV light in the presence of water droplets or water vapor. The pathogens that can be neutralized by this system include bacteria, viruses, spores, fungi and parasites.