An apparatus for cryostorage and manipulation of a plurality of container units includes a cryochamber having a cryo-access port. The cryochamber is electrically cooled at cryogenic temperatures. A unit holder is located inside the cryochamber and is configured to hold a plurality of container units. A user access area is provided for selectively permitting access to a chosen container unit by an authenticated user who has been authenticated by the apparatus. A motive grasper is provided for selectively removing the chosen container unit from the cryochamber through the cryo-access port, and selectively placing the chosen container unit into the user access area.

A laboratory storage cabinet, including a cabinet housing, which delimits a storage space inside the cabinet housing from an outer surrounding area of the storage cabinet, wherein the cabinet housing has an air lock, which allows the transport of material between an inner transfer position, situated in the storage space, and an outer transfer position, situated in the outer surrounding area, wherein the storage space contains a storage device for receiving material at defined storage positions, and wherein the storage space contains a material-handling device for transporting material between the inner transfer position and the storage device, wherein, in a wall of the cabinet housing, the air lock has an air-lock opening, which passes through the wall, the air lock having a rotary element, which is mounted rotatably about an axis of rotation in relation to the cabinet housing and has at least one loading formation, which is fitted in the air-lock opening in such a way that the loading formation can be moved between the inner transfer position and the outer transfer position by rotation of the rotary element about the axis of rotation.

A remote system for monitoring and controlling one or more devices for use in the cryogenic processing of a sample is provided. A remote server capable of transmitting freezing profile data to one or more freezers, transmitting transportation profile data to one or more transportation devices, and transmitting thawing profile data to one or more thawing devices. The remote server is also capable of receiving detected data from the one or more freezers relating to the freezing of a sample in accordance with the freezing profile data, receiving detected data from the one or more transportation devices relating to the transportation of a sample in accordance with the transportation profile data, and receiving detected data from the one or more thawing machines relating to the thawing of a sample in accordance with the thawing profile data.

A storage system having racks and an outer container that receives the racks, each rack receiving a plurality of sample boxes, each box having a wireless ID tag. In certain embodiments, the storage system has reader electronics external to and distinct from the racks and that directly read the wireless ID tag of each box in at least one rack without relying on any reader electronics of any rack. In other embodiments, each rack has a set of rack reader electronics that read the wireless ID tag of each box in at least one rack, and the storage system has at least one removable reader access device removably connectable to the set of rack reader electronics of a rack in order to transmit the ID number of the wireless ID tag of each box in the rack outside of the outer container.

The present invention describes a blotting material comprising a profiled region that has a portion configured to protrude at least partially into a space created within a boundary formed by the rim of a holder for a sample grid. Also described are methods for making such profiles and components used to make said profiles. There are also provided methods for removing excess liquid from a sample grid by bringing the profiled blotting material into association with the sample grid past the sample grid holder. Systems comprises means to hold a sample grid holder, means to hold the blotting paper, and means to bring the two together are also described.

A system is provided for transporting, handling and monitoring samples in a temperature-controlled storage environment. The system includes a handheld carrier configured to transfer samples to and from a temperature-controlled storage station and a temperature-controlled container for receiving and housing one or more carriers. The carrier includes an integrated sample identification and temperature sensing capability configured to monitor a thermal history of one or more samples during transport, handling and storage including as the samples are conveyed between the temperature-controlled storage environment and the temperature-controlled container. That is, the carrier is adapted to be held in the hand during use. A carrier for conveying and monitoring samples during transport, handling and storage is also provided.

A cryostat chuck is disclosed. The disclosed chuck may be configured for use in a frozen-sectioning device, such as a cryostat, or other suitable host equipment. The disclosed chuck may include a tab portion configured, in accordance with some embodiments, to provide a means for gripping the chuck by hand (e.g., human or robotic) or by a tool or other desired interfacing element. The tab portion may serve to distance a user's hand or piece of gripping equipment from the sharp microtome of the host cryostat, reducing the opportunity of sustaining bodily injury or equipment damage. Moreover, the tab portion may provide a means by which the cryostat chuck may be manipulated when inserting, adjusting, or removing the chuck prior to, during, or after engagement by the cryostat (or other suitable host equipment).

The disclosure relates to a cryogen-free cooling apparatus for cooling a sample, comprising a vacuum chamber, a first cooling device which is configured to generate a first temperature in the vacuum chamber to provide a main thermal bath, a second cooling device, which is in connection with a sample stage on which a sample is to be arranged, wherein the second cooling device is a solid state cooler which is configured to provide a second temperature to the sample stage, and wherein the second temperature is different from the first temperature, and a sample loading device which is configured to change the sample while operating the first cooling device and the second cooling device, wherein the sample stage is held in the vacuum chamber by a plurality of first fibers of low thermal conductivity such that the sample stage is thermally decoupled from the main thermal bath.

The disclosure relates to a cryogen-free cooling apparatus for cooling a sample, comprising a vacuum chamber, a first cooling device which is configured to generate a first temperature in the vacuum chamber to provide a main thermal bath, a second cooling device, which is in connection with a sample stage on which a sample is to be arranged, wherein the second cooling device is a solid state cooler which is configured to provide a second temperature to the sample stage, and wherein the second temperature is different from the first temperature, and a sample loading device which is configured to change the sample while operating the first cooling device and the second cooling device, wherein the sample stage is held in the vacuum chamber by a plurality of first fibers of low thermal conductivity such that the sample stage is thermally decoupled from the main thermal bath.

A system and method facilitates transfers of specimen containers (e.g., vials with caps) between storage cassettes and carrier cassettes. The storage cassettes are designed to be stored in cryogenic refrigerators while the carrier cassettes are designed to be temporarily stored in a portable carrier. Identification information is read from wireless transponders carried by the specimen containers. Visual mappings of the positions of the specimen container in the cassettes is provided. Presence and position of the specimen containers in the cassettes is verified, and alerts of inconsistencies provided along with corrective commands. Inventories of specimen container and even specific specimen holders are provided.