Methods for the synthesis of the FDCA may be divided into four groups: The process has also been patented by the French company Agro Industrie Recherches et Developpements. This is also the process which DuPont and ADM are using according to patent literature. HMF and
methoxymethylfurfural (MMF) oxidation was also studied with a series of conventional metal bromide catalysts (Co, Mn, Br) used for the oxidation of
para-xylene to
terephthalic acid. Also, the direct, one pot dehydration and oxidation of fructose to FDCA via intermediate HMF has been investigated with good selectivities, unfortunately this system does not work in water.
Catalytic conversions of various furan derivatives The third class includes reactions describing the synthesis of FDCA from furfural. Furfural can be oxidized to
2-furoic acid with
nitric acid and the latter was subsequently converted to its methyl ester. The ester was then converted via chloromethylation at position 5 to give 5-chloromethylfuroate. The latter was oxidized with nitric acid to form dimethyl 2,5-furandicarboxylate, which, after the alkaline hydrolysis gave FDCA in 50% yield. Andrisano reported that potassium 2-furoate, when heated up to 300 °C in a nitrogen atmosphere, underwent decarboxylation to furan with simultaneous carboxylation at position 5 to di-potassium 2,5-furandicarboxylate.
Biological conversion of HMF FDCA has also been detected in human urine. A healthy human produces 3–5 mg/day. Numerous studies were undertaken to establish the metabolism of this compound and to determine the quantity, which is produced depending on the healthiness of the human. It was demonstrated that the individual quantity of produced FDCA increased after the injection of fructose. FDCA was also detected in blood plasma. Recently, the enzyme furfural/HMF
oxidoreductase was isolated from the bacterium
Cupriavidus basilensis HMF14. This enzyme might be able to convert HMF to FDCA using molecular oxygen, although an
aldehyde dehydrogenase might also play a role. A
Pseudomonas putida strain that was genetically engineered to express this enzyme can completely and selectively convert HMF to FDCA. This
biocatalysis is performed in water, at ambient temperature and pressure, without toxic or polluting chemicals, making it very environmentally friendly. Several other enzymes have been described later, including HMFO. This flavin dependent oxidase catalyzes the three consecutive oxidations to form FDCA from HMF.
Industrial production DuPont has announced the production of FDCA for use in PTF. In 2011, Avantium was the first company to build a FDCA pilot plant in Geleen, the Netherlands. Avantium has fully proven its technology to produce FDCA in this pilot plant and the company now plans to open the world's first commercial FDCA plant. Currently Avantium has begun the construction of a 5kt FDCA commercial plant in Delfzijl, the Netherlands. The plant will be finished at the end of 2023 with commercial production starting early in 2024. Ten offtake agreements have been signed. ==Properties and conversions==