Results for:
PubChem ID: 7362

Furan-2-carbaldehyde

Mass-Spectra

Compound Details

Synonymous names
FURFURAL
2-Furaldehyde
furan-2-carbaldehyde
98-01-1
2-Furancarboxaldehyde
Furaldehyde
Furfuraldehyde
Fural
2-Formylfuran
2-Furanaldehyde
2-Furancarbonal
Furancarbonal
Furfurole
2-Furfural
Furfurylaldehyde
2-Furfuraldehyde
Pyromucic aldehyde
Furale
Furole
Furol
2-Furylaldehyde
2-Furylcarboxaldehyde
2-Furyl-methanal
Furfurale
Furyl-methanal
2-Furylmethanal
2-Furil-metanale
Furan-2-carboxaldehyde
2-furancarbaldehyde
Quakeral
Fufural
alpha-Furole
2-Formylofuran
2-Formyl furan
2-Furankarbaldehyd
Nci-C56177
alpha-Furfuraldehyde
Furfural (natural)
Rcra waste number U125
Furaldehydes
Caswell No. 466
FEMA No. 2489
furan-2-aldehyde
NSC 8841
CCRIS 1044
HSDB 542
CHEBI:34768
UNII-DJ1HGI319P
.alpha.-Furole
EINECS 202-627-7
DJ1HGI319P
MFCD00003229
EPA Pesticide Chemical Code 043301
BRN 0105755
2-furancarboxyaldehyde
DTXSID1020647
AI3-04466
NSC-8841
DTXCID50647
EC 202-627-7
5-17-09-00292 (Beilstein Handbook Reference)
NCGC00091328-01
FURFURAL (IARC)
FURFURAL [IARC]
Furfurale [Italian]
2-Formylofuran [Polish]
2-Furankarbaldehyd [Czech]
CAS-98-01-1
2-Furil-metanale [Italian]
UN1199
RCRA waste no. U125
Hydrojasmal
Furfuralu
a-furfuraldehyde
Qo furfural
a-Furole
alpha-furaldehyde
2-furanal
Furfural ACS grade
furan-2 carbaldehyde
FURFURALDEHYDES
Furfural, 99%
2-Furaldehyde, 8CI
2-furan-carboxaldehyde
2-Furanocarboxyaldehyde
FURFURAL [FHFI]
FURFURAL [HSDB]
FURFURAL [INCI]
FURFURAL [FCC]
FURFURAL [MI]
2-Furylaldehyde xypropane
U1199
WLN: T5OJ BVH
BIDD:ER0698
FURAL/PYROMUCIC ALDEHYDE
Furfural, ACS reagent, 99%
CHEMBL189362
QSPL 006
QSPL 102
FEMA 2489
Furan-2-carbaldehyde (Furfural)
NSC8841
Furfural, >=98%, FCC, FG
Furfural, for synthesis, 98.0%
STR00358
Tox21_111114
Tox21_202191
Tox21_300170
BDBM50486229
Furaldehydes [UN1199] [Poison]
STL283124
AKOS000118907
AM81812
Furfural, analytical reference material
MCULE-5757882837
Furfural 100 microg/mL in Acetonitrile
USEPA/OPP Pesticide Code: 043301
Furfural, natural, >=98%, FCC, FG
Furfural, SAJ first grade, >=99.0%
NCGC00091328-02
NCGC00091328-03
NCGC00091328-04
NCGC00253954-01
NCGC00259740-01
BP-31002
DB-003668
CS-0015696
F0073
NS00003316
EN300-18110
ASCORBIC ACID IMPURITY A [EP IMPURITY]
A845786
Q412429
F1294-0048
InChI=1/C5H4O2/c6-4-5-2-1-3-7-5/h1-4
furfural; furfuraldehyde; furfurol; 2-furaldehyde; 2-furancarboxaldehyde; furan-2-carboxaldehyde
Microorganism:

Yes

IUPAC namefuran-2-carbaldehyde
SMILESC1=COC(=C1)C=O
InchiInChI=1S/C5H4O2/c6-4-5-2-1-3-7-5/h1-4H
FormulaC5H4O2
PubChem ID7362
Molweight96.08
LogP0.4
Atoms7
Bonds1
H-bond Acceptor2
H-bond Donor0
Chemical Classificationaromatic compounds aldehydes furan derivatives
CHEBI-ID34768
Supernatural-IDSN0138568

mVOC Specific Details

Boiling Point
DegreeReference
161.7 °C peer reviewed
Volatilization
The Henry's Law constant for furfural is estimated as 3.8X10-6 atm-cu m/mole(SRC) derived from its vapor pressure, 2.21 mm Hg(1), and water solubility, 7.41X10+4 mg/L(2). This Henry's Law constant indicates that furfural is expected to volatilize from water surfaces(3). Based on this Henry's Law constant, the volatilization half-life from a model river (1 m deep, flowing 1 m/sec, wind velocity of 3 m/sec)(3) is estimated as 9.6 days(SRC). The volatilization half-life from a model lake (1 m deep, flowing 0.05 m/sec, wind velocity of 0.5 m/sec)(3) is estimated as 73 days(SRC). Furfural's estimated Henry's Law constant indicates that volatilization from moist soil surfaces may occur(SRC). The potential for volatilization of furfural from dry soil surfaces may exist(SRC) based upon its vapor pressure(1).
Literature: (1) Daubert TE, Danner RP; Physical and Thermodynamic Properties of Pure Chemicals Data Compilation. Washington, DC: Taylor and Francis (1989) (2) Yalkowsky SH, He Y, eds; Handbook of aqueous solubility data. Boca Raton, FL: CRC Press p. 140 (2003) (3) Lyman WJ et al; Handbook of Chemical Property Estimation Methods. Washington, DC: Amer Chem Soc pp. 15-1 to 15-29 (1990)
Soil Adsorption
The Koc of furfural is estimated as 40(SRC), using a log Kow of 0.41(1) and a regression-derived equation(2). According to a classification scheme(3), this estimated Koc value suggests that furfural is expected to have very high mobility in soil.
Literature: (1) Hansch C et al; Exploring QSAR. Hydrophobic, Electronic, and Steric Constants. ACS Prof Ref Book. Heller SR, consult. ed., Washington, DC: Amer Chem Soc p. 11 (1995) (2) Lyman WJ et al; Handbook of Chemical Property Estimation Methods. Washington, DC: Amer Chem Soc pp. 4-9 (1990) (3) Swann RL et al; Res Rev 85: 17-28 (1983)
Vapor Pressure
PressureReference
2.21 mm Hg at 25 deg C (est)Daubert, T.E., R.P. Danner. Physical and Thermodynamic Properties of Pure Chemicals Data Compilation. Washington, D.C.: Taylor and Francis, 1989.
MS-Links
1D-NMR-Links
Massbank-Links

Species emitting the compound
KingdomSpeciesBiological FunctionOrigin/HabitatReference
ProkaryotaPseudomonas AeruginosaNANADavis et al. 2020
ProkaryotaPseudomonas AeruginosaNANANeerincx et al. 2016
ProkaryotaStaphylococcus EpidermidisDSMZ - Deutsche Sammlung von Mikroorganismen und ZellkulturenVerhulst et al. 2009
ProkaryotaBacillus Cereusn/aNABlom et al. 2011
ProkaryotaCellulomonas Udan/aNABlom et al. 2011
ProkaryotaBurkholderia Caledonican/aNABlom et al. 2011
ProkaryotaChromobacterium Violaceumn/aNABlom et al. 2011
ProkaryotaCupriavidus Necatorn/aNABlom et al. 2011
ProkaryotaPandoraea Norimbergensisn/aNABlom et al. 2011
ProkaryotaPseudomonas Aeruginosan/aNABlom et al. 2011
ProkaryotaPseudomonas Chlororaphisn/aNABlom et al. 2011
ProkaryotaSerratia Entomophilan/aNABlom et al. 2011
ProkaryotaSerratia Marcescensn/aNABlom et al. 2011
ProkaryotaSerratia Plymuthican/aNABlom et al. 2011
ProkaryotaBurkholderia Andropogonisn/aNABlom et al. 2011
ProkaryotaBurkholderia Caryophyllin/aNABlom et al. 2011
ProkaryotaBurkholderia Pyrrocinian/aNABlom et al. 2011
ProkaryotaBurkholderia Saccharin/aNABlom et al. 2011
ProkaryotaBurkholderia Sordidicolan/aNABlom et al. 2011
ProkaryotaBurkholderia Terricolan/aNABlom et al. 2011
ProkaryotaBurkholderia Thailandensisn/aNABlom et al. 2011
ProkaryotaEscherichia Colin/aNABlom et al. 2011
ProkaryotaPseudomonas Putidan/aNABlom et al. 2011
ProkaryotaSerratia Proteamaculansn/aNABlom et al. 2011
ProkaryotaStenotrophomonas Rhizophilan/aNABlom et al. 2011
EukaryotaTuber Aestivumn/aAgricultural Centre of Castilla and León Community (Monasterio de la Santa Espina, Valladolid, Spain) and Navaleno (Soria, Spain).Diaz et al. 2003
EukaryotaFusarium Culmorumnasandy dune soil, NetherlandsSchmidt et al. 2015
EukaryotaCeratocystis Sp.Probably an active stimulator of germinatinon of uredospores of Puccinia graminis.NAStotzky and Schenck 1976
EukaryotaThielaviopsis BasicolaProbably an active stimulator of germinatinon of uredospores of Puccinia graminis.NAStotzky and Schenck 1976
EukaryotaPuccinia GraminisProbably an active stimulator of germinatinon of uredospores of Puccinia graminis.NAStotzky and Schenck 1976
ProkaryotaCytophaga-Flavobacterium-Bacteroidesn/aNADickschat et al. 2005_3
ProkaryotaCollimonas Fungivoransn/aNAGarbeva et al. 2014
ProkaryotaCollimonas Pratensisn/aNAGarbeva et al. 2014
EukaryotaFomitopsis PinicolanaGermanyRösecke et al. 2000
EukaryotaPleurotus EryngiinanaUsami et al. 2014
ProkaryotaLentilactobacillus BuchneriNANASquara et al. 2022
ProkaryotaLacticaseibacillus ParacaseiNANASquara et al. 2022
EukaryotaSaccharomyces CerevisiaeNANAHarris et al. 2021
Method
KingdomSpeciesGrowth MediumApplied MethodVerification
ProkaryotaPseudomonas AeruginosaLB brothSPME/GCxGC-MSno
ProkaryotaPseudomonas AeruginosaBrain Heart InfusionTD/GC-MSno
ProkaryotaStaphylococcus Epidermidisblood agarGC-MSno
ProkaryotaBacillus CereusMR-VPHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaCellulomonas UdaLB and AngleHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia CaledonicaMR-VPHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaChromobacterium ViolaceumMR-VPHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaCupriavidus NecatorMR-VPHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaPandoraea NorimbergensisMR-VPHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaPseudomonas AeruginosaMR-VPHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaPseudomonas ChlororaphisMS and AngleHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaSerratia EntomophilaMR-VPHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaSerratia MarcescensLBHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaSerratia PlymuthicaMR-VPHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia AndropogonisMS and AngleHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia CaryophylliMSHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia PyrrociniaMSHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia SacchariMSHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia SordidicolaAngleHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia TerricolaMSHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia ThailandensisAngleHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaEscherichia ColiMS and AngleHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaPseudomonas PutidaMSHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaSerratia ProteamaculansMSHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaStenotrophomonas RhizophilaMSHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
EukaryotaTuber Aestivumn/an/ano
EukaryotaFusarium Culmorumwater agar supplied with artificial root exudatesGC/MS-Q-TOFno
EukaryotaCeratocystis Sp.n/an/ano
EukaryotaThielaviopsis Basicolan/an/ano
EukaryotaPuccinia Graminisn/an/ano
ProkaryotaCytophaga-Flavobacterium-Bacteroidesn/an/ano
ProkaryotaCollimonas Fungivoranssand supplemented with artificial root exudatesHeadspace trapping/GC-MSno
ProkaryotaCollimonas Pratensissand supplemented with artificial root exudatesHeadspace trapping/GC-MSno
EukaryotaFomitopsis PinicolanaGC/MSno
EukaryotaPleurotus EryngiinaGC/MS, GC-O, AEDAno
ProkaryotaLentilactobacillus Buchnerimaize silageHS-SPME coupled with GC-TOF MSno
ProkaryotaLacticaseibacillus Paracaseimaize silageHS-SPME coupled with GC-TOF MSno
EukaryotaSaccharomyces Cerevisiaemalt extract brothHS-SPME with GC-MSno