Provided are multiply-insulated articles, comprising at least first and second containers disposed together such that the interior volume of the first container is sealed against the environment exterior to the article.

Provided are multiply-insulated articles, comprising at least first and second containers disposed together such that the interior volume of the first container is sealed against the environment exterior to the article.

A container has a chamber and a phase change material (PCM) that can remove heat from the chamber. The container can have a thermal conductor movably coupled in the container between a retracted position and a deployed position, where in the deployed position, while on a heat sink unit, the thermal conductor can draw heat from the PCM to solidify or charge the PCM, which can then maintain the chamber in a chilled state for a prolonged period of time. The container can have one or more heating elements in thermal communication with the chamber and operable to add heat to the chamber to increase or maintain a temperature of the chamber in a heated state for a prolonged period of time.

A container has a chamber and a phase change material (PCM) that can remove heat from the chamber. The container can have a thermal conductor movably coupled in the container between a retracted position and a deployed position, where in the deployed position, while on a heat sink unit, the thermal conductor can draw heat from the PCM to solidify or charge the PCM, which can then maintain the chamber in a chilled state for a prolonged period of time. The container can have one or more heating elements in thermal communication with the chamber and operable to add heat to the chamber to increase or maintain a temperature of the chamber in a heated state for a prolonged period of time.

An insulating container can be configured to retain a volume of liquid, and include a canister having a first inner wall having a first end having an opening extending into an internal reservoir, and a second outer wall forming an outer shell. The opening can be sealed by a spout adapter, the spout adapter having a spout channel extending between the internal reservoir and a spout opening, smaller than the opening of the canister. The spout opening may be sealed with a cap having a magnetic top surface, and the spout adapter may be further removably coupled to a lid that may be used as a cup into which a volume of the liquid can be poured.

Disclosed herein is a device in the form of a bung for insulating a container interior from the ambient environment, the bung comprising: a plurality of insulating segments; and one or more barriers for reflecting infrared radiation. Disclosed is: a method of preparing a shipping system for retaining a cryopreserved sample, the method comprising: loading a cryopreserved sample into a container such as a vacuum flask; and fitting the bung to the container to insulate the container interior from the ambient environment, and a method of cooling a container, such as a vacuum flask, for retaining cryopreserved samples to a desired temperature, the method comprising: cooling the container interior by pouring a cryogenic fluid such as liquid nitrogen into the container; and emptying the cryogenic fluid from the container, once the cooling has at least partially taken place.

Disclosed herein is a device in the form of a bung for insulating a container interior from the ambient environment, the bung comprising: a plurality of insulating segments; and one or more barriers for reflecting infrared radiation. Disclosed is: a method of preparing a shipping system for retaining a cryopreserved sample, the method comprising: loading a cryopreserved sample into a container such as a vacuum flask; and fitting the bung to the container to insulate the container interior from the ambient environment, and a method of cooling a container, such as a vacuum flask, for retaining cryopreserved samples to a desired temperature, the method comprising: cooling the container interior by pouring a cryogenic fluid such as liquid nitrogen into the container; and emptying the cryogenic fluid from the container, once the cooling has at least partially taken place.

An insulating container can be configured to retain a volume of liquid, and include a canister having a first inner wall having a first end having an opening extending into an internal reservoir, and a second outer wall forming an outer shell. The opening can be sealed by a spout adapter, the spout adapter having an internal passageway extending between the internal reservoir and a spout opening, which may be smaller than the opening of the canister. The spout opening may be sealed with an upper cap that has a magnetic top surface. The upper cap may be selectively coupled to seal the spout opening, or may be magnetically coupled to a magnetic docking surface of a docking structure on the spout adapter.

An insulating container can be configured to retain a volume of liquid, and include a canister having a first inner wall having a first end having an opening extending into an internal reservoir, and a second outer wall forming an outer shell. The opening can be sealed by a spout adapter, the spout adapter having an internal passageway extending between the internal reservoir and a spout opening, which may be smaller than the opening of the canister. The spout opening may be sealed with an upper cap that has a magnetic top surface. The upper cap may be selectively coupled to seal the spout opening, or may be magnetically coupled to a magnetic docking surface of a docking structure on the spout adapter.

An insulated container for food particulate and beverages is described. The insulated container includes a double-walled structure composed of a metal, and a glass structure arranged within a hollow interior of the double-walled structure. The glass structure includes a body and a sipping portion extending from the body. The sipping portion isolates the user's lips from contacting the double-walled structure. The glass structure may be repeatably removed for cleaning or replacement. The insulated structure includes a deformable flange that secures the glass structure to the double-walled structure. The insulated container may be vacuum-insulated.