Methods for colloidal particle manipulation mediated by an elastic fluid responsive to changes in boundary conditions, including methods of controlling motion of colloidal particles using wavy wall boundary conditions are provided. Additionally, methods for driving transitions in topological defect configurations of colloidal particles using wavy wall boundary conditions are provided.

A reactor includes a core body having an outer peripheral iron core. A least three iron cores are in contact with or connected to an inner surface of the outer peripheral iron core, and coils are wound onto the at least three iron cores. Gaps are formed between two adjacent iron cores from among the at least three iron cores or between the at least three iron cores and a central iron core disposed at the center of the core body, through which gaps the iron cores are magnetically connectable. The reactor also includes an end plate fastened to at least one end of the core body such that the end plate is shaped to correspond to the outer peripheral iron core. The end plate is formed from a plurality of end plate parts.

Gastrointestinal tract simulation system and compartment therefor. The compartment comprising a vessel having an open top surrounded by a peripheral edge portion and an air-tight lid system configured to be placed onto the peripheral edge portion. The lid system comprises a body with a plurality of passageways extending through the body and providing access to the interior of the vessel, the plurality of passageways comprising passageways for fluid transfer tubes and passageways for mounting at least one sensor component. The lid system is provided with releasable sealing elements for sealing the plurality of passageways and at least one pressing element which is common to at least a number of the sealing elements and configured for applying pressure to each of the respective sealing elements to effect the sealing of the respective passageways.

A semiconductor quantum dot is provided with a non-metallic substrate, and has a particle size ranged from 0.3 to 100 nm. A method of carrying out a chemical reaction or a photoluminescence reaction by using the semiconductor quantum dot is also provided. A redox reaction of a target sample is carried out, an active substance is generated, or an electron-hole pair is produced from the semiconductor quantum dot by providing the semiconductor quantum dot with a predetermined energy. Photons are released by the combination of the electron-hole pair so as to perform the photoluminescence reaction.

One of the chief purposes of researchers in the field of chemistry is to perform chemical reactions at high rates; a method that can be adopted to achieve such goal is to perform reactions in magnetized solvents. Being passed through the Solvents Magnetizing Apparatus (SMA) magnetizes the solvent, and the magnetic property remains intact for a few days, while most chemical reactions are done in less than one day. It should be taken into consideration that the magnetized solvent is different from the Zeeman effect in chemistry. This technology is widely used in performing chemical processes of most chemical reactions.

A solar thermochemical reactor includes an outer member, an inner member disposed within an outer member, wherein the outer member surrounds the inner member and wherein the outer member has an aperture for receiving solar radiation and wherein an inner cavity and an outer cavity are formed by the inner member and outer member and a reactive material capable of being magnetically stabilized wherein the reactive material is disposed in the outer cavity between the inner member and the outer member.

A solar thermochemical reactor includes an outer member, an inner member disposed within an outer member, wherein the outer member surrounds the inner member and wherein the outer member has an aperture for receiving solar radiation and wherein an inner cavity and an outer cavity are formed by the inner member and outer member and a reactive material capable of being magnetically stabilized wherein the reactive material is disposed in the outer cavity between the inner member and the outer member.

A reactor includes a core body and an end plate fastened to at least one end of the core body. The end plate is formed from a plurality of end plate parts.

A method for bonding a fluid to a substance includes filling a first pressure vessel with the fluid and pressurizing the first pressure vessel to a first pressure. The fluid is the circulated through an electric arc formed within the first pressure vessel, thereby creating a treated fluid. Within a second pressure vessel, the substance is exposed to a magnetic field, thereby forming a polarized substance. The treated fluid and polarized substance are combined under a second pressure within a third pressure vessel, thereby exposing the treated fluid to the polarized substance at a pressure sufficient to achieve a bond.

Described herein are methods of chemical reactions using active quantum chemistry. The methods are optimized and apply energies more directly and more efficiently, compared to conventional chemical reactions, in order to cause and/or promote chemical reactions.