To provide a proton conductive material which has high proton conductivity even under no humidification and does not elute into water. A proton conductive material comprising a proton-source-polymer and a proton-channel-polymer, wherein at least one selected from the group consisting of the proton-source-polymer and the proton-channel-polymer is a polymer containing an aromatic ring, and wherein at least a part of the polymer containing the aromatic ring has a stacked structure formed by n-n interactions, and a proton conductive material comprising a proton-source-crosslinked-polymer, wherein the proton-source-crosslinked-polymer is a polymer having a main skeleton which contains a proton source group and an aromatic ring, and a crosslinked structure which contains a proton channel, and wherein at least a part of the proton-source-crosslinked-polymer has a stacked structure formed by n-n interactions.

The present invention relates to a polymer foam, said polymer foam comprising pores forming an open-cell polymer foam, said polymer foam comprising a supramolecular gel inside pores, and said polymer foam comprising at least one enzyme. The present invention relates to a supramolecular gel; its preparation and its applications, notably in chemical synthesis and kinetic resolution, in particular of organic compounds. The present invention also relates to flow chemistry.

The present invention provides use of an ionization radiation source in preparation of a porous crystalline material, and a method for preparing a MOFs material and a COFs material. In the present invention, the ionization radiation source is used for preparing the porous crystalline material; under the irradiation of the ionization radiation source, the porous crystalline material (MOFs, COFs) can be synthesized in an extremely short time, wherein the ionization radiation source is used for providing energy required in a reaction for preparing the porous crystalline material. The preparation process does not need heating, so that energy consumption is reduced and a high-pressure system is avoided. The aforementioned preparation method is simple, low in instrument and equipment cost, and thus is a environmentally friendly and extremely low-cost synthesis method.

A supramolecular approach has been developed for preparation of size-controllable nanoparticles, from three different molecular building blocks.

Disclosed herein are daisy chain polymers and methods of making daisy chain polymers under redox control employing an energy ratchet mechanism using a molecular-pump-containing monomer comprising a recognition site and a Coulombic barrier.

A composition for forming an underlayer film necessary for facilitating alignment of self-assembled film into desired vertical pattern. Composition for forming an underlayer film of self-assembled film including a polymer having unit structure containing aliphatic polycyclic structure of aliphatic polycyclic compound in main chain. The polymer is a polymer having unit structure containing aliphatic polycyclic structure of aliphatic polycyclic compound with aromatic ring structure of aromatic ring-containing compound or polymer chain derived from vinyl group of vinyl group-containing compound in main chain. The polymer has unit structure of Formula (1):
X—Y  Formula (1)
wherein X is single bond, divalent group having vinyl structure as polymer chain, or divalent group having aromatic ring-containing structure as polymer chain, and Y is divalent group having aliphatic polycyclic structure as polymer chain. The aliphatic polycyclic compound is bi- to hexa-cyclic diene compound. The aliphatic polycyclic compound is dicyclopentadiene or norbornadiene.

Provided is a polymeric micelle pharmaceutical preparation that can increase the ratio of contrast at tumor site to background contrast in a short period of time after administration of a lactosome and can suppress the ABC phenomenon so that the lactosome can be administered more than once within a short span. A branched-type amphiphilic block polymer comprising: a multi-branched hydrophilic block comprising sarcosine; and a hydrophobic block comprising polylactic acid. The branched-type amphiphilic block polymer, wherein the number of branches of the hydrophilic block is 3. A molecular assembly comprising the branched-type amphiphilic block polymer. The molecular assembly further comprising a linear type amphiphilic block polymer.

A polyimide composite, a method of preparing thereof, and an application thereof are provided. A general structure of the polyimide composite is: SiO.sub.2-(β-CD-Ada).sub.x/PI, and x is 3 to 5. The polyimide composite has the functions of self-repairing and anti-aging.

The disclosure relates to compositions and superstructures comprising peptide amphiphiles. In some aspects, the disclosure relates to compositions and superstructures comprising host and guest peptide amphiphiles, wherein the host and guest moieties of the peptide amphiphiles interact via non-covalent interactions to form a supramolecular assembly, such a superstructure. In some aspects, the superstructure further comprises a bioactive moiety. Suitable bioactive moieties may be selected to promote cell growth, migration, and/or differentiation.

The present invention provides an aqueous floor coating composition comprising: (A) water; (B) at least one supramolecular polymer; and (C) optionally, one or more additional ingredients. The supramolecular polymer (B) comprises polymerized units derived from: (1) one or more 4H monomers which comprise a polymerizable group and a quadruple hydrogen bonding (4H) moiety; (2) at least one monomer having acid functional groups; and (3) one or more ethylenically unsaturated monomers. In a preferred embodiment, the supramolecular polymer comprises 4H monomers derived from reaction of an isopropenyl alpha,alpha-dimethylbenzyl isocyanate (TMI) and 2-amino-4-hydroxy-6-methylpyrimidine (MIC), as well as acid functional monomers selected from (meth)acrylic acid, and ethylenically unsaturated monomers comprising butyl acrylate, methyl methacrylate, and styrene.