Modified chemical structures of cardanol extracted from cashew nut shell oil, and the use of the same to prepare imidazolium ionic liquids (IILs). The IILs can be used to prepare different types of silica, magnetite and calcium carbonate nanoparticles (NPs) as multifunctional oilfield chemicals for use in various oil spill collection, de-emulsification, viscosity improvement, asphaltene dispersant, and enhanced oil recovery applications.

The present disclosure discloses a solid amine material absorbing CO.sub.2, preparation method, and application thereof, including a porous carrier and water-resistant organic amine loaded on the porous carrier. The water-resistant organic amine includes a biomass-derived polyhydroxyl compound, hydrophilic organic amine and hydrophobic organic amine combined with the biomass-derived polyhydroxyl compound at the same time. The biomass-derived polyhydroxyl compound comprises a six-membered ring structure, with good water resistance and CO.sub.2 adsorption effect.

Modified chemical structures of cardanol extracted from cashew nut shell oil, and the use of the same to prepare imidazolium ionic liquids (IILs). The IILs can be used to prepare different types of silica, magnetite and calcium carbonate nanoparticles (NPs) as multifunctional oilfield chemicals for use in various oil spill collection, de-emulsification, viscosity improvement, asphaltene dispersant, and enhanced oil recovery applications.

Modified chemical structures of cardanol extracted from cashew nut shell oil, and the use of the same to prepare imidazolium ionic liquids (IILs). The IILs can be used to prepare different types of silica, magnetite and calcium carbonate nanoparticles (NPs) as multifunctional oilfield chemicals for use in various oil spill collection, de-emulsification, viscosity improvement, asphaltene dispersant, and enhanced oil recovery applications.

The present invention relates to layered multi-metal-oxide-based magnetic biochar and a preparation method and use thereof. The preparation method includes: S1. mixing biomass and an iron salt solution for impregnation, and then adjusting a first pH value of a solid phase material after solid-liquid separation to obtain pretreated biomass; and S2. pyrolyzing the pretreated biomass to obtain magnetic biochar, then mixing the magnetic biochar with a solution containing at least two metal salts and adjusting a second pH value, and then performing hydrothermal treatment to obtain the layered multi-metal-oxide-based magnetic biochar. The obtained layered multi-metal-oxide-based magnetic biochar has a large specific surface area, magnetic properties, a layered morphology, and strong adsorption capacity, and can be applied to the treatment of arsenic- and cadmium-containing composite contaminated water bodies, and also to arsenic and cadmium passivation in farmland soil, thereby reducing health risks of crops in the food chains, and ensuring food safety.

Modified chemical structures of cardanol extracted from cashew nut shell oil, and the use of the same to prepare imidazolium ionic liquids (IILs). The IILs can be used to prepare different types of silica, magnetite and calcium carbonate nanoparticles (NPs) as multifunctional oilfield chemicals for use in various oil spill collection, de-emulsification, viscosity improvement, asphaltene dispersant, and enhanced oil recovery applications.

Provided are sequestering agents for sequestering non-water moieties from an aqueous solution. The sequestering agents may comprise a detergent; and a polymer operable to stabilize formation of a detergent micelle thereby causing the detergent and polymer to self-assemble into a nanonet upon exposure to the aqueous solution. Also provided are kits therefore and methods for use of the sequestering agents and kits.

A method and composition for absorbing ionizing radiation in air flow systems. A neutron poison is used in combination with a binder and is applied to a filter of an air flow system with the result that ionizing radiation is absorbed from the filter and air.

Direct polymerization of lipid monomers or polymer scaffolding of non-lipid monomers coupled with irradiation or redox polymerization performed at neutral pH resulted in stabilized lipid assemblies. An initiator-buffer component and NaHS03 redox mixture polymerizes reactive lipid monomers at near neutral pH conditions to preserve functionality of reconstituted membrane proteins. Improved stability of black lipid membranes (BLMs) is attained by chemical cross-linking of polymerizable, hydrophobic and commercially available non-lipid monomers partitioned into the suspended lipid membranes, and by suspending the BLMs across low surface energy apertures. Substrate apertures having low surface energy modifiers with amphiphobic properties facilitated a reproducible formation of BLMs by promoting interactions between the lipid tail and the substrate material. In addition, polymeric lipid bilayer membranes were prepared by photochemical or redox initiated polymerization of polymerizable lipid monomers, and disposed onto supporting substrates for use in chromatography columns.

The invention describes the process by which a standard mixture of organic compounds are spiked and retained onto a composite sorbent matrix for the controlled generation of a standard in fluid above the spiked matrix either in a gaseous or aqueous phase. The novelty of the aforementioned composite matrix stems from the combination of an immobilizing liquid phase such as silicone oil or a polyacrylonitrile solution, and solid, porous particles such as polystyrene-co-divinylbenzene (PS-DVB) or hydrophilic/Lipophilic Balance (HLB) particles to strongly retain the spiked standards. These novel composite mixtures exhibit sorptive capabilities greater than the sum of their individual components. In addition swelling of the particles with the liquid phase facilitates immobilization of the composite sorbent matrix in the vial. With thermodynamic equilibrium strongly favoring the sorbent phase for a wide range of chemical compounds, this invention allows for the reproducible generation of an ultra-low concentration standard analyte mixture in fluid.