A method for manufacturing a three-dimensional object includes steps of: a) providing a digital description of the object as a set of voxels; b) sequentially creating an actual set of voxels corresponding to the digital set of voxels; wherein at least one voxel comprises a water-soluble poly urea derived from: i) a polymer or mixture of polymers and a composition ii) selected from the group consisting of: urea, diisocyanate (methylene diphenyl diisocyanate, toluene diisocyanate, hexamethylene diisocyanate, isophorone diisocyanate) and mixtures thereof.

The present invention relates to a one-component processing method and system for preparing polyurea materials. This method and system involves a polymerization process using cyclic oligomeric polyurea precursors. These cyclic oligomeric precursors have dynamic urea bonds such as hindered urea bonds (HUBs). These cyclic oligomeric precursors exhibit dynamic properties to reversibly dissociate .sub.in situ yielding isocyanate and amine components which polymerize to yield the polyureas, such as linear, branched or cross-linked polyureas. This method and system has advantages over conventional methods that utilize two-component systems. Such two-component systems require the segregation of the isocyanate and amine components to prevent premature or too rapid polymerization. The resulting polyureas are useful for a variety of applications including coatings.

The present invention relates to a one-component processing method and system for preparing polyurea materials. This method and system involves a polymerization process using cyclic oligomeric polyurea precursors. These cyclic oligomeric precursors have dynamic urea bonds such as hindered urea bonds (HUBs). These cyclic oligomeric precursors exhibit dynamic properties to reversibly dissociate .sub.in situ yielding isocyanate and amine components which polymerize to yield the polyureas, such as linear, branched or cross-linked polyureas. This method and system has advantages over conventional methods that utilize two-component systems. Such two-component systems require the segregation of the isocyanate and amine components to prevent premature or too rapid polymerization. The resulting polyureas are useful for a variety of applications including coatings.

The present invention is directed to a novel group of amino acid-based poly(ester urea)s (PEUs) for use in biodegradable adhesive and related methods for their making and use. These novel amino acid-based PEUs have a wide variation in mechanical properties and degradation behavior that can be tuned by varying the amino acids and polyols used to form the polyester monomers that form the PEUs. Importantly, these novel PEUs have been shown to be non-toxic in vitro and in vivo and may be suitable to a wide variety of biomedical and other uses. In some embodiments, the adhesive properties of these degradable amino acid-based poly(ester urea) adhesives has been further improved by the incorporation of controlled amounts of catechol functional groups into the side chains of the PEU via post-polymerization functionalization chemistry.

The present invention is directed to a novel group of amino acid-based poly(ester urea)s (PEUs) for use in biodegradable adhesive and related methods for their making and use. These novel amino acid-based PEUs have a wide variation in mechanical properties and degradation behavior that can be tuned by varying the amino acids and polyols used to form the polyester monomers that form the PEUs. Importantly, these novel PEUs have been shown to be non-toxic in vitro and in vivo and may be suitable to a wide variety of biomedical and other uses. In some embodiments, the adhesive properties of these degradable amino acid-based poly(ester urea) adhesives has been further improved by the incorporation of controlled amounts of catechol functional groups into the side chains of the PEU via post-polymerization functionalization chemistry.

The subject invention provides oligo(carbamoylated guanidine)s (OCGs) having fast and selective mycobactericidal effects via disruption of the mycobacterial membrane potential. OCGs also potentiates bedaquiline, an oxidative phosphorylation-targeting anti-TB drug. The combination of OCG and anti-TB drug can be used as an effective therapy for treating tuberculosis.

The subject invention provides oligo(carbamoylated guanidine)s (OCGs) having fast and selective mycobactericidal effects via disruption of the mycobacterial membrane potential. OCGs also potentiates bedaquiline, an oxidative phosphorylation-targeting anti-TB drug. The combination of OCG and anti-TB drug can be used as an effective therapy for treating tuberculosis.

The subject invention provides oligo(carbamoylated guanidine)s (OCGs) having fast and selective mycobactericidal effects via disruption of the mycobacterial membrane potential. OCGs also potentiates bedaquiline, an oxidative phosphorylation-targeting anti-TB drug. The combination of OCG and anti-TB drug can be used as an effective therapy for treating tuberculosis.

The subject invention provides oligo(carbamoylated guanidine)s (OCGs) having fast and selective mycobactericidal effects via disruption of the mycobacterial membrane potential. OCGs also potentiates bedaquiline, an oxidative phosphorylation-targeting anti-TB drug. The combination of OCG and anti-TB drug can be used as an effective therapy for treating tuberculosis.

A polyurethane urea composition and a preparation method thereof are provided. The method includes mixing and reacting an urea and an amine compound to obtain a polyurea oligomer, and mixing and reacting the polyurea oligomer and a cyclic carbonate compound to obtain a polyurethane urea composition having a repeating unit represented by formula I:

R.sup.2U.sup.2U.sup.1U.sup.2R.sup.2, wherein [formula I] U.sup.1 is

##STR00001## a is an integer of 1 to 10000, each U.sup.2 is independently

##STR00002## each R.sup.1 is independently a C1 to C20 alkyl group, a C3 to C20 cycloalkyl group, a C8 to C20 alkylaryl group, a polyether group having a weight-average molecular weight of 100 g/mol to 10000 g/mol, or a combination thereof, and each R.sup.2 is independently an aliphatic group, a cycloaliphatic group, an aromatic group substituted by an alkyl or an unsubstituted aromatic group, an oligo polyether group, an oligo polyester group, or a combination thereof.