Industry

  • OBMF

    OBMF

    Application The products from the etherification of 5-hydroxymethylfurfural can be used as raw materials to prepare polyamide and polyimide bio-based polymeric materials and can also be used to synthesize heterocyclic ligands and hepatitis antiviral precursors. Synonyms 5, 5'(oxy-bis(methylene))bis-2-furfural; Cirsiumaldehyde; 5,5'-Oxybis(5-methylene-2-furaldehyde); 7389-38-0; O-Bisme-furaldehyde; bis(5-formylfurfuryl)ether; SCHEMBL278333; 5-[(5-formylfuran-2-yl)methoxymethyl]furan-2-carbaldehyde; DTXSID90224470; ZINC4566165; 5,5'-(Oxybis(methylene))bis(furan-2-carbaldehyde) CAS Number 7389-38-0 | Molecular Formula C12H10O5 | Molecular
  • THFDM

    THFDM

    Application The chemical intermediates derived from deep hydrogenation of HMF have higher stability than unsaturated furan compounds and can be used as solvents, stabilizers, wetting agents, dispersants and decolorizers. In addition, 2,5-tetrahydrofurandimethanol is also used in the preparation of polyamide plastics, plasticizers, insecticides, etc. Synonyms 2,5-Anhydro-3,4-dideoxyhexitol; 2,5-Anhydro-3,4-didesoxyhexitol; 2,5-Anhydro-3,4-didésoxyhexitol; 2,5-dihydroxymethyltetrahydrofuran; 203-239-0; Hexitol, 2,5-anhydro-3,4-dideoxy; ((2R,5S)-Tetrahydrofuran-2,5-diyl)dimethanol; (5-Hydroxymethyl-tetrahydro-furan-2-yl)-methanol; (cis-Tetrahydrofuran-2,5-diyl)dimethanol;
  • Phenoxycyclophosphazene

    Phenoxycyclophosphazene

    Application Phenoxycyclophosphazene can be used as an additive-tip flame retardant or halogen-free fire retardant in epoxy resin,copper clad plate ,LED lumlinous diode,powder paint,encapsulating material or polymer matenial. Synonyms 2,2,4,4,6,6-hexaphenoxy-1,3,5-triaza-2λ5,4λ5,6λ5-triphosphacyclohexa-1,3,5-triene; Hexaphenoxycyclotriphosphazene; 1184-10-7; PHENOXYCYCLOPOSPHAZENE; Hexaphenoxycyclotriphosphazatriene; Cyclo-tris(diphenoxyphosphonitrile) CAS Number 1184-10-7 | Molecular Formula C36H30N3O6P3 | Molecular Weight 693.6 SMILES C1=CC=C(C=C1)OP2(=NP(=NP(=N2)(OC3=CC=CC=C3)OC4=CC=CC=C4)(OC5=CC=CC=C5)OC6=CC=CC=C6)OC7=CC=CC=C7 StdInChI InChI=1S/C36H30N3O6P3/c1-7-19-31(20-8-1)40-46(41-32-21-9-2-10-22-32)37-47(42-33-23-11-3-12-24-33,43-34-25-13-4-14-26-34)39-48(38-46,44-35-27-15-5-16-28-35)45-36-29-17-6-18-30-36/h1-30H StdInChIKey RNFJDJUURJAICM-UHFFFAOYSA-N Similar Products Supercapacitor PRODUCT
  • Xantphos

    Xantphos

    Application It is a useful catalyst in many reactions. And FCAD is the only manufacturer globally who can make this material up to MT scale. Ligand used in a synthesis of heterocycles by palladium-catalyzed C-N cross coupling of 3-bromothiophenes with 2-aminopyridines. Also used in a ruthenium-catalyzed alkylation of active methylene compounds with alcohols. Metal chelating
  • NiXanthphos

    NiXanthphos

    Application It is a useful catalyst in many reactions. And FCAD is the only manufacturer globally who can make this material up to MT scale. Synonyms 10H-phenoxazine, 4,6-bis(diphenylphosphino)-; 4,6-Bis(diphenylphosphino)-10H-phenoxazine; 4,6-bis(diphenylphosphanyl)-10H-phenoxazine; 4,6-Bis(diphenylphosphino)phenoxazine CAS Number 261733-18-0 | Molecular Formula C36H27NOP2 | Molecular Weight 551.5532 | MDL Number MFCD03788937 SMILES O3c5c(Nc4cccc(P(c1ccccc1)c2ccccc2)c34)cccc5P(c6ccccc6)c7ccccc7 StdInChI InChI=1S/C36H27NOP2/c1-5-15-27(16-6-1)39(28-17-7-2-8-18-28)33-25-13-23-31-35(33)38-36-32(37-31)24-14-26-34(36)40(29-19-9-3-10-20-29)30-21-11-4-12-22-30/h1-26,37H StdInChIKey HSWZLYXRAOXOLL-UHFFFAOYSA-N Similar Products Catalyst Series Appearance of our NiXanthphos PRODUCT
  • 2-Diphenylphosphinobenzaldehyde

    2-Diphenylphosphinobenzaldehyde

    Application It is a useful catalyst in many reactions. CAS Number 50777-76-9 | Molecular Formula C19H15OP | Molecular Weight 290.30 | MDL Number MFCD00013367 SMILES O=Cc3ccccc3P(c1ccccc1)c2ccccc2 StdInChI InChI=1S/C19H15OP/c20-15-16-9-7-8-14-19(16)21(17-10-3-1-4-11-17)18-12-5-2-6-13-18/h1-15H StdInChIKey DRCPJRZHAJMWOU-UHFFFAOYSA-N Similar Products Catalyst Series PRODUCT DETAILS PURCHASESAFETY INFORMATIONSPEC & OTHER DOCCUMENTSOUTBOUND LINKS Properties of 2-Diphenylphosphinobenzaldehyde Appearance Light yellow powder Flash Point 206.263 ºC Melting Point 112-115 ºC Boiling Point 417.444 ºC
  • FDME

    FDME

    Application FCAD has developed a method for producing furan dicarboxylic methyl ester (FDME) from fructose. FDME is a high-purity derivative of furandicarboxylic acid (FDCA), one of the 12 building blocks identified by the U.S. Department of Energy that can be converted into a number of high-value, bio-based chemicals or materials that can deliver high performance
  • LiBOB

    LiBOB

    Application LiBOB is a novel boron based Li salt electrolyte material for Li ion batteries. It is environmentally friendly with good film forming property and high thermal stability and is compatible with a variety of anodes and metal oxide cathode. Synonyms Lithium Bis(oxalato) Borate; Borate(1-), bis[ethanedioato(2-)-κO1,κO2]-, lithium (1:1) [ACD/Index Name];Lithium bis[ethanedioato(2-)-κ2O1,O2]borate(1-); Lithium 2,3,7,8-tetraoxo-1,4,6,9-tetraoxa-5-boraspiro[4.4]nonan-5-uide; Lithium bis(oxalate)borate;
  • LiODFB

    LiODFB

    Application LiODFB (Lithium oxalyldifluoroborate) is first reported as the salt for improved electrolyte of Li-ion battery. This salt was found to have the combined advantages of lithium bis(oxalato)borate (LiBOB) and LiBF4 due to its chemical structure comprising the half molecular moieties of LiBOB and LiBF4. Compared with LiBOB, the salt is more soluble in linear
  • LiBF4

    LiBF4

    Application LiBF4 (Lithium tetrafluoroborate) has been extensively tested for use in commercial secondary batteries, an application that exploits its high solubility in nonpolar solvents. Although BF4− has high ionic mobility, solutions of its Li+ salt are less conductive than other less associated salts. As an electrolyte in Lithium-ion batteries, LiBF4 offers some advantages relative to
  • FDM

    FDM

    Application FDM is a derivative of our key intermediate HMF CAS 67-47-0 which has applications in the manufacture of polyurethane foams and polyesters. The chemical intermediates derived from selective hydrogenation of HMF can be used as raw materials to synthesize pharmaceutical intermediates, nucleoside derivatives, crown ethers and other compounds as well as polyester, polyurethane and
  • HMF

    HMF

    Application HMF was originally developed by FCAD as the key intermediate of FDCA CAS 3238-40-2 which is widely used as a bio-based polymer material. Today, the biorefinery is an important approach for the current needs of energy and chemical building blocks for a diverse range of applications, that gradually may replace current dependence on fossil-fuel
  • FDCA

    FDCA

    Application FDCA has a large potential as a replacement for terephthalic acid, a widely used component in various polyesters, such as polyethylene terephthalate (PET) and polybutyleneterephthalate (PBT). PET has a market size approaching 4 billion lb/yr, and PBT is almost a billion lb/yr. The market value of PET polymers varies depending on the application, but