The invention relates to a container system for transport of biological material comprising a container casing and an insulating device, wherein the container casing defines a container interior space for accommodation of the insulating device and for accommodation of biological material to be transported, and wherein the insulating device is constituted of at least two insulating portions, which are formed so as to surround the biological material inside the container interior space. The invention further relates to uses of such a container system for packaging and transport of biological material, as well as methods of packaging biological material for transport.

The invention relates to a container system for transport of biological material comprising a container casing and an insulating device, wherein the container casing defines a container interior space for accommodation of the insulating device and for accommodation of biological material to be transported, and wherein the insulating device is constituted of at least two insulating portions, which are formed so as to surround the biological material inside the container interior space. The invention further relates to uses of such a container system for packaging and transport of biological material, as well as methods of packaging biological material for transport.

An apparatus for controlling an experimental temperature of experimental material is disclosed. The apparatus can include a structural holder structured to hold the experimental material, the structural holder including a surface to receive the experimental material. The apparatus can also include a first layer, a second layer and a third layer of respectively a phase change material, a reflective material and an insulating material, the first layer disposed on the surface of the structural holder, the second layer disposed on the first layer, and the third layer disposed on the second layer, at least the first layer of the phase change material being configured to control the experimental temperature of the experimental material when held by the structural holder.

An apparatus for controlling an experimental temperature of experimental material is disclosed. The apparatus can include a structural holder structured to hold the experimental material, the structural holder including a surface to receive the experimental material. The apparatus can also include a first layer, a second layer and a third layer of respectively a phase change material, a reflective material and an insulating material, the first layer disposed on the surface of the structural holder, the second layer disposed on the first layer, and the third layer disposed on the second layer, at least the first layer of the phase change material being configured to control the experimental temperature of the experimental material when held by the structural holder.

The present invention stores a cooled sample subjected to freezing treatment, or the like, while preventing the formation of condensation and frost-like substances and loads the sample into a sample holder for observation using a charged particle beam device. The present invention is provided with a main body for storing a sample and a lid unit mounted above the main body and is characterized in that the main body is divided into a first space and a second space by a partition member; the first space accommodates a cooling medium for cooling the sample; the second space has, disposed therein, a heating unit for heating the cooling medium accommodated in the first space; and the lid unit has, formed therein, a discharge port for discharging the gas generated by the heating of the cooling medium to the outside.

The present invention stores a cooled sample subjected to freezing treatment, or the like, while preventing the formation of condensation and frost-like substances and loads the sample into a sample holder for observation using a charged particle beam device. The present invention is provided with a main body for storing a sample and a lid unit mounted above the main body and is characterized in that the main body is divided into a first space and a second space by a partition member; the first space accommodates a cooling medium for cooling the sample; the second space has, disposed therein, a heating unit for heating the cooling medium accommodated in the first space; and the lid unit has, formed therein, a discharge port for discharging the gas generated by the heating of the cooling medium to the outside.

Fluidic systems including cartridges comprising vessels, microfluidic channels and related methods for performing chemical and/or biological analyses are generally provided. The systems described herein include, according to certain embodiments, a cartridge comprising a vessel adapted and arranged to contain a fluid and/or reagent for performing a chemical and/or biological analysis. The vessel may be designed to have a particular shape or configuration, such as a tapered cross-sectional shape, e.g., to facilitate manipulation of a fluid and/or reagent within the vessel (e.g., a lyosphere).

A test element support comprises a heating element for heating a test element for analytical examination of a sample. The heating element comprises a substrate, which is made of at least one substrate material. The substrate comprises at least one active area configured for being heated and at least one non-active area outside the active area. The active and the non-active areas are separated by at least one thermal insulation element. The thermal insulation element has a lower thermal conductivity than the substrate material. The thermal insulation element is fully or partially embedded into the substrate. The test element support further comprises at least one heater. The heater comprises at least one heater substrate and the heater substrate is attached to the substrate, wherein the heater substrate is attached to a back face of the substrate. The back face opposes a front face of the substrate contacting the test element.

A test element support comprises a heating element for heating a test element for analytical examination of a sample. The heating element comprises a substrate, which is made of at least one substrate material. The substrate comprises at least one active area configured for being heated and at least one non-active area outside the active area. The active and the non-active areas are separated by at least one thermal insulation element. The thermal insulation element has a lower thermal conductivity than the substrate material. The thermal insulation element is fully or partially embedded into the substrate. The test element support further comprises at least one heater. The heater comprises at least one heater substrate and the heater substrate is attached to the substrate, wherein the heater substrate is attached to a back face of the substrate. The back face opposes a front face of the substrate contacting the test element.

A portable temperature-controlled container for receiving and housing one or more handheld carriers, each handheld carrier configured to transfer samples to and from a temperature-controlled storage environment, the handheld carrier including a handle and a tray portion, the tray portion configured to be slid into a port of a rack or tower provided in the temperature-controlled storage environment in order to withdraw a sample located in the port, the portable temperature-controlled container including a housing having an opening forming an internal cavity configured to receive one or more handheld carriers, and a lid configured to substantially close the opening, where the housing includes a recess configured to receive the handle of the handheld carrier such that closing of the lid substantially seals the internal cavity when the one or more handheld carriers are placed in the housing.