The present invention proposes a production method for obtainment of three-dimensional closed graphene-based nano-/microstructures (10) using a coaxial multilayer core-shell production process (1000) comprising a coaxial flow system (100) having a first flow path (101) and a first fluid exit (1011) at an end of said first flow path; and a second flow path (102) circumferentially surrounding said first flow path (101), said second flow path having a second fluid exit (1021); wherein a first fluid (1) flows through the first flow path and exits through the first fluid exit (1011); and a second fluid (2) which is immiscible with the first fluid (1) under the conditions where said production method is conducted, flows through the second flow path (102) and exits through the second fluid exit (1021) such that the second fluid (2) circumferentially covers the first fluid (1) upon leaving the coaxial flow system (100); said second fluid (2) comprises a graphene-based material, a polymeric material and solvent.

A composition comprising an emulsion comprising a plurality of particles is provided. An article comprising a substrate, and a plurality of particles comprising a core and a shell, wherein the plurality of particles are in the form of a coating layer on the substrate is provided. Further, a method for coating a substrate, and a method for preparing the composition are provided.

A composition comprising an emulsion comprising a plurality of particles is provided. An article comprising a substrate, and a plurality of particles comprising a core and a shell, wherein the plurality of particles are in the form of a coating layer on the substrate is provided. Further, a method for coating a substrate, and a method for preparing the composition are provided.

Novel hybrid nanoparticles, useful for inhibiting or slowing down the formation of sulfur deposits or minerals in a well during the extraction of gas or oil. Specifically, the nanoparticles each include (i) a polyorganosiloxane (POS) matrix; and, optionally as a coating over a lanthanide oxide core, (iii) at least one polymeric scale inhibitor during the extraction of gas or oil. The invention also relates to the method for obtaining the nanoinhibitors and the application of same.

Novel hybrid nanoparticles, useful for inhibiting or slowing down the formation of sulfur deposits or minerals in a well during the extraction of gas or oil. Specifically, the nanoparticles each include (i) a polyorganosiloxane (POS) matrix; and, optionally as a coating over a lanthanide oxide core, (iii) at least one polymeric scale inhibitor during the extraction of gas or oil. The invention also relates to the method for obtaining the nanoinhibitors and the application of same.

A microfluidic droplet generator that includes a body, an inlet arranged adjacent an upper surface of the body, and a sample reservoir adapted to contain a reservoir fluid that is immiscible in water. The sample reservoir includes a floor and a sidewall coupled to the floor. The floor extends along a horizontal axis and the sidewall extends along a vertical axis substantially perpendicular to the horizontal axis. The microfluidic droplet generator also includes one or more microchannels fluidly connecting the inlet to the sample reservoir. Each of the microchannels includes an inlet end and a reservoir end, and the reservoir end of each of the microchannels intersects the sidewall of the sample reservoir at a location beneath the upper surface of the body.

A microfluidic droplet generator that includes a body, an inlet arranged adjacent an upper surface of the body, and a sample reservoir adapted to contain a reservoir fluid that is immiscible in water. The sample reservoir includes a floor and a sidewall coupled to the floor. The floor extends along a horizontal axis and the sidewall extends along a vertical axis substantially perpendicular to the horizontal axis. The microfluidic droplet generator also includes one or more microchannels fluidly connecting the inlet to the sample reservoir. Each of the microchannels includes an inlet end and a reservoir end, and the reservoir end of each of the microchannels intersects the sidewall of the sample reservoir at a location beneath the upper surface of the body.

Proposed are a microcapsule having a core-shell structure that has high-temperature durability and solvent resistance and is environment-friendly. The microcapsule includes a core portion containing a hydrophobic active component and a shell portion surrounding the core portion and containing a silane crosslinkable polyurethane-based resin derived from a crosslinkable alkoxy silane group-terminated prepolymer.

The present invention provides microcapsules encapsulating hydrophilic or hydrophobic active agents in an inorganic shell, processes for their preparation and compositions comprising them.

The invention relates to microcapsule composition which encapsulates active material that may be used in products for washing and cleaning and/or care and protection of animate or inanimate. The invention also relates to polyurethane and polyurea microcapsules that may be modified with additional polymers.