Described herein are substituted polyetheramines with a low melting point which are obtainable by condensation of at least two N-(hydroxyalkyl)amines to obtain a polyetheramine and subsequent reaction of at least one remaining hydroxy group and/or, if present, at least one secondary amino group of said polyetheramine with ethylene oxide and at least one further alkylene oxide to obtain a substituted polyetheramine. Uses of such substituted polyetheramines in fields of cosmetic formulations, as crude oil emulsion brakers, in pigment dispersions of ink jets, in electro paintings, or in cementitious compositions as well as methods wherein said substituted polyetheramines are used in said fields are described herein.

A process for preparing non-naturally-occurring defined monomer sequence polymers is provided, and in which a high degree of synthetic control is obtained by the use of solvent resistant diafiltration membranes. Also provided is a process for separating non-naturally-occurring defined monomer sequence polymers from synthetic by-products or excess reagents using solvent resistant diafiltration membranes, and a use of a solvent resistant diafiltration membrane in processes for preparing and separating non-naturally-occurring defined monomer sequence polymers.

A method of creating a hydrogel, comprising the step of condensing first and second functional groups, wherein the first group comprises a molecule or macromolecule of interest containing two or more hydroxylamine or aminooxy groups and the second group comprises a molecule or macromolecule of interest containing two or more aldehyde/ketone/other reactive oxo groups, under conditions such that a hydrogel forms.

The invention provides compound of the general formula: ##STR00001##
in which each X independently represents a polymer chain; n represents an integer greater than 1; Q represents a linker; Y represents an amide group; and Z represents either CH.(CH.sub.2L).sub.2 or C(CH.sub.2L)(CH.sub.2), in which each L independently represents a leaving group. The compounds are useful reagents for the conjugation of polymers to proteins, the resulting conjugates being novel and also forming part of the invention.

The present invention provides compounds represented by formula (I) and pharmaceutical acceptable salts thereof, preparation method therefor and pharmaceutical composition containing the compounds represented by formula (I) and pharmaceutical acceptable salts thereof. In the compounds of the present invention, each terminal group of polyethylene glycol molecule can bond with a plurality of rapamycin molecules by cactus oligopeptide, with the loading rate of the pharmaceutical being increased. The compounds can be used to induce immunosuppression and treat graft rejection, autoimmune disease, solid tumors, fungal infection, and cardiovascular and cerebrovascular disease. ##STR00001##

A capped bisphenol polyether oligomer including a reactive end group, wherein the capped bisphenol polyether oligomer further includes a repeating unit derived from: a bisphenol monomer, a benzylic dihalide, a tertiary cycloalkyl dihalide, or a combination thereof; and optionally, the capped bisphenol polyether oligomer further includes a branching agent.

The present invention relates to the technical field of hydraulic compositions, for example concrete and mortar compositions. More specifically, the present patent application relates to additives used in hydraulic compositions, to the compositions containing same, and also to the method for preparing these additives and to the various uses thereof.

Described are a process for producing hydrosilylable polyoxyalkylene ethers, comprising the steps of (1) alkoxylation of at least one terminally unsaturated alcohol with alkylene oxides to afford a polyoxyalkylene ether, (2) etherification of the polyoxyalkylene ether from step (1) and (3) neutralization of the product from step (2) under buffered conditions, and hydrosilylable polyoxyalkylene ether mixtures.

Provided is a multi-arm polyethylene glycol-azido derivative of general formula I, wherein R is a central molecule, which is selected from a polyhydroxy structure, a polyamino structure or a polycarboxyl structure; n is the number of branches or arms, n3; PEG is the same or different (CH.sub.2CH.sub.2O).sub.m, the average value of m being an integer from 3 to 250; X is a linking group of a azido end group; k is the number of the branches having the azido end group; F is selected from the group consisting of amino, carboxyl, sulfhydryl, ester group, maleic imide group and acrylic group; and Y is a linking group of an end group F. ##STR00001##

The present invention is directed to a process for preparing hyperbranched phosphoric acid esters as well as a hyper-branched phosphoric acid ester, its use for dispersing solid substances and in the production of water- and/or solvent-based coatings and paints, printing inks and/or plastics such as unsaturated polyesters, PVC or plastisols and a pigment dispersion comprising the at least one hyperbranched phosphoric acid ester or salt thereof and its use as a component in paints or lacquers.