Abstract: Method and apparatus for generating, providing diffusion limited transport and evacuating gaseous phase material in a sub-atmospheric environment employing a molecular mobility enhancer (MME) component under reduced pressure to rapidly vaporize a liquid and/or solid, to transport generated vapor including a transport moiety into a diffusion processing zone and through diffusion restricted objects and to effectively evacuate non-consumed vapor from apparatus. Compositions, including solids, for delivery of MME-transport moiety vapor in a sub-atmospheric environment. Including those with improved storage and stability. Additionally, methods and apparatus for drying surfaces of articles in a sub-atmospheric environment. Compositions for generating a vapor in a sub-atmospheric environment for use in drying such articles. Methods and compositions herein useful for cleaning, sanitizing and sterilizing substrates, implements and devices including medical and electronic devices.

Abstract: Systems and methods are described for rapid sterilization of items in a vacuum or sterilization chamber. Embodiments include conductively heated, vacuum-based sterilization approaches that can be applied to devices, such as medical devices, electronic devices, and other suitable devices. For example, an item that has been exposed to excessive contamination is placed inside the sterilization chamber. The chamber can be depressurized to a vacuum level sufficient to gasify liquids inside a solid matrix holding a liquid sterilant, and the item can be conductively heated at least to replace latent heat of vaporization lost during the depressurization. Some embodiments include techniques relating to quality processing, monitoring and feedback control, and/or other functionality.

Abstract: A sterilization system and method are provided that convert a sterilant solution to a vapor using an outgassing process that removes sterilant vapor from a solution (e.g., liquid) or a solid and delivers the sterilant vapor into an interior of an enclosure vessel. The interior of the enclosed vessel is maintained at a vacuum pressure. Once the sterilant vapor enters the interior of the vessel, the vapor expands to all surfaces to effectively sterilizing the interior of the vessel.

Abstract: Systems and methods are described for rapid sterilization of items in a vacuum or sterilization chamber. Embodiments include conductively heated, vacuum-based sterilization approaches that can be applied to devices, such as medical devices, electronic devices, and other suitable devices. For example, an item that has been exposed to excessive contamination is placed inside the sterilization chamber. The chamber can be depressurized to a vacuum level sufficient to gasify liquids inside a solid matrix holding a liquid sterilant, and the item can be conductively heated at least to replace latent heat of vaporization lost during the depressurization. Some embodiments include techniques relating to quality processing, monitoring and feedback control, and/or other functionality.