A flame-retardant sugar derivative, a process for forming a flame-retardant sugar derivative, and an article of manufacture comprising a flame-retardant sugar derivative are disclosed. The flame-retardant sugar derivative can be synthesized from sorbitol, gluconic acid, or glucaric acid obtained from a bio-based source, and can have at least one phosphoryl or phosphonyl moiety. The process for forming the flame-retardant sugar derivative can include reacting sorbitol, gluconic acid, or glucaric acid and a flame-retardant phosphorus-based molecule to form the flame-retardant sugar derivative.

A flame-retardant sugar derivative, a process for forming a flame-retardant sugar derivative, and an article of manufacture comprising a flame-retardant sugar derivative are disclosed. The flame-retardant sugar derivative can be synthesized from sorbitol, gluconic acid, or glucaric acid obtained from a bio-based source, and can have at least one phosphoryl or phosphonyl moiety. The process for forming the flame-retardant sugar derivative can include reacting sorbitol, gluconic acid, or glucaric acid and a flame-retardant phosphorus-based molecule to form the flame-retardant sugar derivative.

A flame-retardant compound, a process for forming a flame-retardant compound, and an article of manufacture are disclosed. The flame-retardant compound includes a tetrazine moiety and at least one organophosphorus moiety. The process includes obtaining starting materials, which include a benzonitrile compound, a phosphorus-based compound, and hydrazine. The process also includes reacting the starting materials to form a tetrazine flame retardant. The article of manufacture includes a polymer and a flame-retardant compound having a tetrazine moiety and at least one organophosphorus moiety.

A flame-retardant compound, a process for forming a flame-retardant compound, and an article of manufacture are disclosed. The flame-retardant compound includes a tetrazine moiety and at least one organophosphorus moiety. The process includes obtaining starting materials, which include a benzonitrile compound, a phosphorus-based compound, and hydrazine. The process also includes reacting the starting materials to form a tetrazine flame retardant. The article of manufacture includes a polymer and a flame-retardant compound having a tetrazine moiety and at least one organophosphorus moiety.

A flame-retardant compound, a process for forming a flame-retardant polymer, and an article of manufacture are disclosed. The flame-retardant compound includes at least one muconic acid moiety and at least one phosphorus-based moiety. The process for forming the flame-retardant polymer includes obtaining a muconic acid compound, obtaining a muconic acid compound, reacting the muconic acid compound with the phosphorus compound to form a flame-retardant compound, and incorporating the flame-retardant compound into a polymer. The article of manufacture comprises a material that contains a flame-retardant compound derived from muconic acid.

A flame-retardant compound, a process for forming a flame-retardant polymer, and an article of manufacture are disclosed. The flame-retardant compound includes at least one muconic acid moiety and at least one phosphorus-based moiety. The process for forming the flame-retardant polymer includes obtaining a muconic acid compound, obtaining a muconic acid compound, reacting the muconic acid compound with the phosphorus compound to form a flame-retardant compound, and incorporating the flame-retardant compound into a polymer. The article of manufacture comprises a material that contains a flame-retardant compound derived from muconic acid.

A limonene-based flame-retardant compound, a method of making a flame-retardant polymer, and an article of manufacture comprising a material that includes a limonene-based flame-retardant compound are provided. In an embodiment, the method includes forming a limonene-based derivative; forming a phosphorus-based flame-retardant molecule; reacting the limonene-based derivative with the phosphorus-based flame-retardant molecule to form a limonene-based flame-retardant compound; and forming a flame-retardant polymer from the limonene-based flame-retardant compound. In some embodiments, the limonene-based flame-retardant compound has variable functionality including vinyl, epoxide, methylene bridges, and thioethers.

A limonene-based flame-retardant compound, a method of making a flame-retardant polymer, and an article of manufacture comprising a material that includes a limonene-based flame-retardant compound are provided. In an embodiment, the method includes forming a limonene-based derivative; forming a phosphorus-based flame-retardant molecule; reacting the limonene-based derivative with the phosphorus-based flame-retardant molecule to form a limonene-based flame-retardant compound; and forming a flame-retardant polymer from the limonene-based flame-retardant compound. In some embodiments, the limonene-based flame-retardant compound has variable functionality including vinyl, epoxide, methylene bridges, and thioethers.

A flame-retardant compound, a process for forming a flame-retardant compound, and an article of manufacture comprising a material containing a flame-retardant polyetheretherketone based polymer are disclosed. The flame-retardant compound includes two or more polyetheretherketone polymer chains and at least one flame-retardant aryl diamine cross-linker moiety, wherein the flame-retardant aryl diamine cross-linker moiety contains at least one flame-retardant functional group. The process includes selecting a flame-retardant aryl diamine, wherein the flame-retardant aryl diamine contains at least one flame-retardant functional group, selecting a polyetheretherketone polymer, and reacting the flame-retardant aryl diamine with the polyetheretherketone polymer to form a flame-retardant polyetheretherketone based polymer having flame-retardant aryl diamine cross-linkers, wherein the flame-retardant aryl diamine cross-linkers contain the at least one flame-retardant functional group. The article of manufacture includes a material containing a flame-retardant polyetheretherketone based polymer having flame-retardant aryl diamine cross-linkers.

A flame-retardant compound, a process for forming a flame-retardant compound, and an article of manufacture comprising a material containing a flame-retardant polyetheretherketone based polymer are disclosed. The flame-retardant compound includes two or more polyetheretherketone polymer chains and at least one flame-retardant aryl diamine cross-linker moiety, wherein the flame-retardant aryl diamine cross-linker moiety contains at least one flame-retardant functional group. The process includes selecting a flame-retardant aryl diamine, wherein the flame-retardant aryl diamine contains at least one flame-retardant functional group, selecting a polyetheretherketone polymer, and reacting the flame-retardant aryl diamine with the polyetheretherketone polymer to form a flame-retardant polyetheretherketone based polymer having flame-retardant aryl diamine cross-linkers, wherein the flame-retardant aryl diamine cross-linkers contain the at least one flame-retardant functional group. The article of manufacture includes a material containing a flame-retardant polyetheretherketone based polymer having flame-retardant aryl diamine cross-linkers.