A nanocarbon separation device includes a separation tank which is configured to accommodate a dispersion liquid including a nanocarbon, a first electrode that is provided at an upper part in the separation tank, a second electrode that is provided at a lower part in the separation tank, and a partition member that is provided between the first electrode and the second electrode in the separation tank, and the partition member partitions the separation tank into a plurality of regions.

A nanocarbon separation device of the present invention includes a separation tank which is configured to accommodate a dispersion liquid including a nanocarbon, a first electrode that is provided at an upper part in the separation tank, a second electrode that is provided at a lower part in the separation tank, and a porous structure that is provided between the first electrode and the second electrode in the separation tank.

A nanocarbon separation device of the present invention includes a separation tank which is configured to accommodate a dispersion liquid including a nanocarbon, a first electrode that is provided at an upper part in the separation tank, a second electrode that is provided at a lower part in the separation tank, and a porous structure that is provided between the first electrode and the second electrode in the separation tank.

Provided herein are, inter alia, biological manufacturing and downstream purification processes.

Provided herein are, inter alia, biological manufacturing and downstream purification processes.

Provided herein are, inter alia, biological manufacturing and downstream purification processes.

Provided herein are, inter alia, biological manufacturing and downstream purification processes.

A nucleic acid detection kit includes a detection chip, an electrophoresis box, and a barrier unit. The detection chip includes a channel and an outlet. The outlet is connected to the channel. The temperature-dependent barrier unit may be in a first state or a second state. The barrier unit is disposed on a side of the outlet close to the channel when the barrier unit is in the first state, so that the channel is disconnected from the electrophoresis box. The barrier unit is away from the outlet when the barrier unit is in the second state, so that the channel is connected to the electrophoresis box. A nucleic acid detection device including the nucleic acid detection kit is also disclosed. The nucleic acid detection device has a simple structure, which is portable, flexible, and convenient, and can be used at home.

An apparatus is described. The apparatus includes a particle collector to collect particles from an electrically insulating liquid that one or more electronic devices are to be immersed within. The particle collector having an input port to receive the electrically insulating liquid. The particle collector having an output port to emit the electrically insulating liquid. The particle collector having one or more phoretic force devices. The phoretic force devices to induce phoretic forces within the particle collector that cause the particles to collect within the particle collector. A structure is also described. The structure is to be immersed in electrically insulating liquid and mimic a boiling enhancement layer of a cooling assembly of a chip package disposed on an electronic circuit board that is also immersed in the electrically insulating liquid.

An apparatus is described. The apparatus includes a particle collector to collect particles from an electrically insulating liquid that one or more electronic devices are to be immersed within. The particle collector having an input port to receive the electrically insulating liquid. The particle collector having an output port to emit the electrically insulating liquid. The particle collector having one or more phoretic force devices. The phoretic force devices to induce phoretic forces within the particle collector that cause the particles to collect within the particle collector. A structure is also described. The structure is to be immersed in electrically insulating liquid and mimic a boiling enhancement layer of a cooling assembly of a chip package disposed on an electronic circuit board that is also immersed in the electrically insulating liquid.