A gene sequencing reaction device, a gene sequencing system and a gene sequencing reaction method. The gene sequencing reaction device includes: a supporting platform; a dipping container disposed on the supporting platform, wherein the dipping container has a dipping reaction area, and the dipping reaction area is configured to hold a chemical reagent for gene sequencing reaction, so as to dip a sequencing chip having a DNA sample loading structure on the surface and having a DNA sample loaded thereon in the chemical reagent to perform a gene sequencing reaction; a temperature control apparatus, configured to control the temperature of the chemical reagent in the dipping reaction area; and a transfer apparatus, configured to insert the sequencing chip into the dipping reaction area or pull out the sequencing chip from the dipping reaction area.

Provided is a heat treatment device for slide specimen testing, and the heat treatment device mainly includes a container, a base, a heater, a liquid outlet, a liquid inlet, a controller and a thermocouple. When such device is used together with devices such as a slide cover plate and a slide rack, a large amount of slide specimens can be carried out steps of reagent loading, cleaning, heat treatment, temperature maintaining and drying inside one same device, especially multi-step operations such as an immunohistochemical testing, an original hybrid gene testing, and other protein testing, DNA nucleotide and gene testing on the slide specimen. All testing on the slide specimen is enabled to be performed in one same device from the beginning to the end, guaranteeing that all slide specimens are completely covered by the reagent from the beginning to the end, and all slide specimens are carried out the heat treatment at a uniform temperature. The operation procedures are simplified, and reliability and repeatability of slide specimen processing are enhanced.

Provided is a heat treatment device for slide specimen testing, and the heat treatment device mainly includes a container, a base, a heater, a liquid outlet, a liquid inlet, a controller and a thermocouple. When such device is used together with devices such as a slide cover plate and a slide rack, a large amount of slide specimens can be carried out steps of reagent loading, cleaning, heat treatment, temperature maintaining and drying inside one same device, especially multi-step operations such as an immunohistochemical testing, an original hybrid gene testing, and other protein testing, DNA nucleotide and gene testing on the slide specimen. All testing on the slide specimen is enabled to be performed in one same device from the beginning to the end, guaranteeing that all slide specimens are completely covered by the reagent from the beginning to the end, and all slide specimens are carried out the heat treatment at a uniform temperature. The operation procedures are simplified, and reliability and repeatability of slide specimen processing are enhanced.

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 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 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 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.

The invention provides a method of thawing a sample comprised in a container, the method comprising the steps of: a) calculating an agitation program as a function of either or both of the sample volume and the type of the container, and the ice fraction in the sample, and optionally the thermal conductivity of the sample container; b) agitating said sample according to the program to agitate at least one region of the sample; and c) changing the agitation program applied to at least one region of the sample in response to changes in the sample volume and/or sample ice fraction. The invention further provides a method of reducing shearing to cells during a method of agitation, and methods for thawing a sample wherein a sample container is differentially heated. An apparatus for use in the methods is also provided, as is an apparatus for thawing and/or cooling a sample which comprises a resilient vessel wall.

The present invention relates to a pressure vessel (1) for receiving samples (P) to be heated, having a reaction chamber (2) as a pressure space for the initiation and/or facilitation of chemical and/or physical pressure reactions, the reaction chamber (2) being designed for receiving a liquid (5), a magnetic disk (8) mounted rotatably about an axis of rotation in the reaction chamber (2), and a magnet arrangement (10), provided outside the reaction chamber (2), for generating a rotating magnetic field for rotationally driving the magnetic disk (8) about its axis of rotation, the magnetic disk (8) having at least one passage bore (13), which extends transversely in relation to the axis of rotation and is provided in such a way that liquid (5) received in the reaction chamber (2) is driven through the passage opening (13) by rotation of the magnetic disk (8) in order to stir the liquid (5).

A laboratory sample/specimen temperature control device, specifically a metal bead bath that has its metal bead temperature controlled by a continuous flow of air into the bed of beads that is heated or cooled by a Peltier device that the air flows over. This provides great thermal uniformity across the bed of beads and constantly monitors and regulates the heat or cooling input rather than utilizing an on/off modulation temperature input approach.