A composition of five parts by mass of chitosan and one part graphene oxide is suspended in water. The composition may be used to form filtration layers of any size or shape and may be reinforced by additional layers. The composition may be used to construct a large filtration apparatus of any size or shape and may be used to form highly resilient, antimicrobial structures and surfaces for a variety of applications.

The present invention provides, inter alia, compositions including at least one pliable layer comprising a plurality of silk fibroin nanofibrils, and at least one rigid layer comprising a plurality of mineral crystals, wherein each rigid layer is associated with at least one pliable layer, as well as methods for the production and use thereof.

The present invention provides, inter alia, compositions including at least one pliable layer comprising a plurality of silk fibroin nanofibrils, and at least one rigid layer comprising a plurality of mineral crystals, wherein each rigid layer is associated with at least one pliable layer, as well as methods for the production and use thereof.

Described herein is a crosslinked graphene and biopolymer (e.g. lignin) based composite membrane that provides selective resistance for gases while providing water vapor permeability. Methods for making such membranes, and methods of using the membranes for dehydrating mixtures, are also described.

A semipermeable membrane includes a holding body with a low water absorption property having a lattice structure and having a semipermeable property in a liquid phase. A cell-culturing device is provided with the semipermeable membrane at least at a portion thereof. A tissue-type chip is provided with the cell-culturing device including one type of cells. An organ-type chip is provided with the cell-culturing device including at least two types of cells. A kit for providing a multicellular structure is provided with an openable and closable sealed container including the tissue-type chip or, and a culture medium. An organ-type chip system is provided with at least two of the tissue-type chips or the organ-type chips, and the tissue-type chips or the organ-type chips are connected while maintaining a sealing property. A cell-culturing method is a method of using the cell-culturing device.

A semipermeable membrane includes a holding body with a low water absorption property having a lattice structure and having a semipermeable property in a liquid phase. A cell-culturing device is provided with the semipermeable membrane at least at a portion thereof. A tissue-type chip is provided with the cell-culturing device including one type of cells. An organ-type chip is provided with the cell-culturing device including at least two types of cells. A kit for providing a multicellular structure is provided with an openable and closable sealed container including the tissue-type chip or, and a culture medium. An organ-type chip system is provided with at least two of the tissue-type chips or the organ-type chips, and the tissue-type chips or the organ-type chips are connected while maintaining a sealing property. A cell-culturing method is a method of using the cell-culturing device.

A method for producing permselective membrane includes preparing a support membrane having selective permeability and a lipid membrane containing a channel substance, the lipid membrane being formed on a surface of the support membrane. Excess lipids are removed with an acid or an alkali, and the support membrane has a permeation flux of 20 L/(m.sup.2.Math.h) or more and a desalination capacity of 1% to 20% at a pressure of 0.1 MPa.

Embodiments include nanofilms comprising the reaction product of a natural building block type A including at least two functional groups and a natural building block type B including at least three functional groups, wherein the natural building block type A and the natural building block type B react to form a branched polymer network including solvent-resistant bonds.

Embodiments include nanofilms comprising the reaction product of a natural building block type A including at least two functional groups and a natural building block type B including at least three functional groups, wherein the natural building block type A and the natural building block type B react to form a branched polymer network including solvent-resistant bonds.

A macromolecule membrane structure (2) comprises a membrane (3) with water-channeling integral membrane proteins (IMPS) (1) and is coated, on a first surface, with a silica layer (4). The silica layer (4) stabilizes the macromolecule membrane structure (2) and the water-channeling IMPS (1) while maintaining the water-channeling function of the water-channeling IMPs (1). As a consequence of this stabilization, the macromolecule membrane structure (2) may be used in a filtration device (5) for various filtration operations, including water purification.