An apparatus is provided for treating a liquid with a plasma. The apparatus includes one or two dielectric barriers, and the dielectric barrier(s) and high voltage electrode define a discharge zone therebetween. A high voltage electrode may be electrically insulated from the discharge zone by the inner dielectric barrier. In this apparatus, the outer dielectric barrier is gas and the discharge zone is configured to accept a gas flow therethrough.

This disclosure provides methods, systems, and compositions of matter for studying solvent accessibility and three-dimensional structure of biological molecules. A plasma can be used to generate marker radicals, which can interact with a biological molecule and mark the solvent-accessible portions of the biological molecule.

An in-liquid plasma generation device includes a housing which holds a liquid in an internal space, a gas supply tube which includes an opening in the internal space and discharges a gas into the liquid through the opening, a first electrode which has projecting part projecting into the internal space via the opening from inside of the gas supply tube, the projecting part including a conductor covered by a dielectric, a second electrode which surrounds the projecting part of the first electrode and includes a conductor isolated from the liquid by a dielectric, and a voltage applier which applies a voltage to between the first electrode and the second electrode. A space between the projecting part and the second electrode is a flow passage in which the gas discharged from the opening flows.

A device for creation of a plasma-activated liquid with defined characteristics. The device includes a plasma application device having a plasma applicator. A liquid is brought into contact with a gas plasma in the plasma application device. A sensor device serves for analysis of the composition of the plasma-treated liquid at least in terms of a species created by the plasma treatment. Based on a concentration of one or more species detected by the sensor device, treatment parameters of the liquid in the plasma application device can be adjusted or modified. Thereby a plasma-treated liquid with defined characteristics for treatment of a patient is provided.

A underwater plasma generating apparatus according to an embodiment of the present invention includes: a reactor inside of which a flow path, through which a working fluid passes, is formed along a length direction; and a dielectric insertion which is disposed on the flow path, partitions the flow path into a plurality of spaces, has therein one or more through holes for connecting the plurality of spaces and having a smaller cross-sectional width compared to the flow path, and has on one side, a metal catalyst coming into contact with the working fluid which has flowed in through the through holes.

There is provided an in-liquid plasma device including a tubular flow channel in which a liquid flow, and a cavitation generator and a voltage application unit which are disposed in the tubular flow channel. The cavitation generator generates cavitation in the liquid inside the tubular flow channel. The voltage application unit is located in the tubular flow channel so as to generate plasma by applying a voltage to the liquid in which the cavitation is generated. The cavitation generator has a throttle portion whose inner diameter is smaller than other sites in the tubular flow channel. The throttle portion has an upstream side inclined surface located on an upstream side of a narrowest site of the throttle portion, and a downstream side inclined surface located on a downstream side of the narrowest site of the throttle portion.

An apparatus comprises: a chamber (100) configured to be filled with electrically conductive liquid (102); a first electrode (104) and a second electrode (106) located within the chamber (100); an optical radiation receiver (126); and an electrically conductive contact area (108) of the first electrode (104) and an electrically conductive contact area (110) of the second electrode (106) are configured to be in contact with the liquid (102) of the chamber (100) wherein the electrically conductive contact area (108) of the first electrode (104) is configured to be smaller than the electrically conductive contact area (110) of the second electrode (106). The first electrode (104) and the second electrode (106) are configured to receive electric energy and output the electric energy to the liquid (102) in order to cause substance of the liquid (102) to emit optical radiation at the electrically conductive contact area (108) of the first electrode (104) on the basis of densification of the electric energy due to the smaller electrically conductive contact area (108) of the first electrode (104). The optical radiation receiver (126) is configured to receive the optical radiation for analysis of the liquid (102).

The invention relates to a water treatment apparatus based on plasma (ionized gas) discharge. In particular, the invention relates to the field of industrial and agricultural wastewater treatment. More particularly, the invention relates to disinfection of drinking water, and water in pools, spas and similar recreational water environments. The invention comprises a plasma reactor produces plasma discharge at low atmospheric pressure between liquid electrodes eliminating contamination of treated water by harmful nitrogen compounds and toxic substances due to electrode erosion.

According to an embodiment of the present invention, there is provided a device for forming at least a diamond film on a surface of a substrate, the device comprising: a container configured to hold a raw material liquid and to place the substrate in the raw material liquid; an electrode part comprising a positive electrode and a negative electrode and configured to generate a plasma in the raw material liquid; a raw material gas supply part and a carrier gas supply part, each of the raw material gas supply part and the carrier gas supply part being connected to the electrode part; and a power source configured to apply a voltage to the electrode part, wherein the power source is a direct current power source, and the electrode part further comprises an adjunctive member, and the adjunctive member is attached to an electrode at a plasma generation region of the electrode part.

A underwater plasma generating apparatus according to an embodiment of the present invention includes: a reactor inside of which a flow path, through which a working fluid passes, is formed along a length direction; and a dielectric insertion which is disposed on the flow path, partitions the flow path into a plurality of spaces, has therein one or more through holes for connecting the plurality of spaces and having a smaller cross-sectional width compared to the flow path, and has on one side, a metal catalyst coming into contact with the working fluid which has flowed in through the through holes.