Results for:
PubChem ID: 8129

Heptan-1-ol

Mass-Spectra

Compound Details

Synonymous names
1-HEPTANOL
Heptan-1-ol
Heptyl alcohol
111-70-6
Heptanol
n-Heptanol
n-Heptyl alcohol
Enanthic alcohol
Gentanol
n-Heptan-1-ol
Enanthyl alcohol
1-Hydroxyheptane
Alcohol C-7
Hydroxy heptane
n-Heptanol-1
53535-33-4
FEMA No. 2548
NSC 3703
Heptane-1-ol
l'Alcool n-heptylique primaire
n-Heptyl--d7 Alcohol
1219804-99-5
HEPTYL ALCOHOL, N-
DTXSID8021937
FEMA 2548
NSC3703
8JQ5607IO5
NSC-3703
Hydroxyheptane
Hexyl carbinol
C7 alcohol
DTXCID601937
Pri-n-heptyl alcohol
N-HEPTYL-D15 ALCOHOL
Heptyl alcohol, primary
FEMA Number 2548
Heptyl alcohol (natural)
N-Heptanol-1 [French]
1-heptyl alcohol
CAS-111-70-6
38007-42-0
HSDB 1077
EINECS 203-897-9
BRN 1731686
l'Alcool N-heptylique primaire [French]
UNII-8JQ5607IO5
AI3-15363
heptanol-1
1-Heptanol purum
Alcohol C7
MFCD00002986
1-Hept
Heptyl alcohol, 8CI
1-Heptanol, 98%
starbld0033280
1-HEPTANOL [MI]
EC 203-897-9
n-C7H15OH
SCHEMBL2077
1-HEPTANOL [HSDB]
HEPTYL ALCOHOL [FCC]
WLN: Q7
4-01-00-01731 (Beilstein Handbook Reference)
HEPTYL ALCOHOL [FHFI]
CHEMBL273459
Heptyl alcohol, natural, 98%
1-Heptanol, analytical standard
BDBM22605
CHEBI:43003
CHEBI:88619
EINECS 258-615-7
Tox21_201247
Tox21_303470
1-Heptanol, >=99.5% (GC)
LMFA05000122
STL280281
Heptyl alcohol, >=97%, FCC, FG
AKOS000120104
HY-W099504
MCULE-5882959353
1-Heptanol, purum, >=99.0% (GC)
NCGC00249005-01
NCGC00257506-01
NCGC00258799-01
BP-31150
LS-13378
CS-0152146
H0033
NS00007978
EN300-19352
A802399
Q113820
J-002619
F0001-0245
Z104473596
InChI=1/C7H16O/c1-2-3-4-5-6-7-8/h8H,2-7H2,1H
Microorganism:

Yes

IUPAC nameheptan-1-ol
SMILESCCCCCCCO
InchiInChI=1S/C7H16O/c1-2-3-4-5-6-7-8/h8H,2-7H2,1H3
FormulaC7H16O
PubChem ID8129
Molweight116.2
LogP2.7
Atoms8
Bonds5
H-bond Acceptor1
H-bond Donor1
Chemical Classificationalcohols
CHEBI-ID43003
Supernatural-IDSN0021082

mVOC Specific Details

Boiling Point
DegreeReference
175.8 °C peer reviewed
Volatilization
The Henry's Law constant for 1-heptanol is 1.88X10-5 atm-cu m/mole(1). This Henry's Law constant indicates that 1-heptanol is expected to volatilize from water surfaces(2). 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)(2) is estimated as 2.2 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)(2) is estimated as 20 days(SRC). 1-Heptanol's Henry's Law constant indicates that volatilization from moist soil surfaces may occur(SRC). 1-Heptanol is not expected to volatilize from dry soil surfaces(SRC) based upon a vapor pressure of 0.216 mm Hg(3).
Literature: (1) Butler JAV; J Chem Soc pp. 280-5 (1935) (2) Lyman WJ et al; Handbook of Chemical Property Estimation Methods. Washington, DC: Amer Chem Soc pp. 15-1 to 15-29 (1990) (3) Yaws CL; Handbook of Vapor Pressures, Gulf Publ Co, Houston TX p.391 (1994)
Soil Adsorption
The Koc of 1-heptanol is estimated as 74(SRC), using a water solubility of 1,670 mg/L(1) and a regression-derived equation(2). According to a classification scheme(3), this estimated Koc value suggests that 1-heptanol is expected to have high mobility in soil.
Literature: (1) Yalkowsky SH, He Y; Handbook of Aqueous Solubility Data. CRC Press LLC, Boca Raton, FL. p. 438 (2003) (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
0.2163 mm Hg at 25 deg CYaws CL; Handbook of Vapor Pressures, Gulf Publ Co, Houston TX p.391 (1994)
MS-Links
Massbank-Links

Species emitting the compound
KingdomSpeciesBiological FunctionOrigin/HabitatReference
EukaryotaAspergillus NigerNANACosta et al. 2016
EukaryotaCandida AlbicansNANACosta et al. 2016
ProkaryotaLactobacillus PlantarumNAYang et al. 2022
EukaryotaTrichoderma Harzianum0NALi et al. 2018
EukaryotaTrichoderma HarzianumNALi et al. 2018
EukaryotaCandida AlbicansATCC MYA-2876, American Type Culture CollectionCosta et al. 2020
EukaryotaCandida GlabrataATCC 90030, American Type Culture CollectionCosta et al. 2020
EukaryotaCandida TropicalisATCC 750, American Type Culture CollectionCosta et al. 2020
EukaryotaTuber Melanosporumn/aNASplivallo et al. 2007
EukaryotaTuber Borchiin/aNASplivallo et al. 2007
EukaryotaTuber Indicumn/aNASplivallo et al. 2007
EukaryotaTuber Aestivumn/aAgricultural Centre of Castilla and León Community (Monasterio de la Santa Espina, Valladolid, Spain) and Navaleno (Soria, Spain).Diaz et al. 2003
ProkaryotaBacillus Cereusn/aNABlom et al. 2011
ProkaryotaBurkholderia Andropogonisn/aNABlom et al. 2011
ProkaryotaChromobacterium Violaceumn/aNABlom et al. 2011
ProkaryotaCupriavidus Necatorn/aNABlom et al. 2011
ProkaryotaBurkholderia Graminisn/aNABlom et al. 2011
ProkaryotaEscherichia Colin/aNABlom et al. 2011
ProkaryotaLimnobacter Thiooxidansn/aNABlom et al. 2011
ProkaryotaPseudomonas Chlororaphisn/aNABlom et al. 2011
ProkaryotaPseudomonas Fluorescensn/aNABlom et al. 2011
ProkaryotaPseudomonas Putidan/aNABlom et al. 2011
ProkaryotaSerratia Entomophilan/aNABlom et al. 2011
ProkaryotaSerratia Marcescensn/aNABlom et al. 2011
ProkaryotaSerratia Plymuthican/aNABlom et al. 2011
ProkaryotaSerratia Proteamaculansn/aNABlom et al. 2011
ProkaryotaStenotrophomonas Rhizophilan/aNABlom et al. 2011
ProkaryotaBurkholderia Caledonican/aNABlom et al. 2011
ProkaryotaBurkholderia Caribensisn/aNABlom et al. 2011
ProkaryotaBurkholderia Caryophyllin/aNABlom et al. 2011
ProkaryotaBurkholderia Cepacian/aNABlom et al. 2011
ProkaryotaBurkholderia Fungorumn/aNABlom et al. 2011
ProkaryotaBurkholderia Gladiolin/aNABlom et al. 2011
ProkaryotaBurkholderia Glathein/aNABlom et al. 2011
ProkaryotaBurkholderia Glumaen/aNABlom et al. 2011
ProkaryotaBurkholderia Hospitan/aNABlom et al. 2011
ProkaryotaBurkholderia Kururiensisn/aNABlom et al. 2011
ProkaryotaBurkholderia Latan/aNABlom et al. 2011
ProkaryotaBurkholderia Phenaziniumn/aNABlom et al. 2011
ProkaryotaBurkholderia Phenoliruptrixn/aNABlom et al. 2011
ProkaryotaBurkholderia Phytofirmansn/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
ProkaryotaBurkholderia Tropican/aNABlom et al. 2011
ProkaryotaBurkholderia Xenovoransn/aNABlom et al. 2011
EukaryotaAscocoryne Sp.NAGriffin et al. 2010
EukaryotaFusarium CulmorumNASavel’eva et al. 2014
ProkaryotaBurkholderia CepaciaRhizosphereBlom et al. 2011
EukaryotaFusarium Graminearumn/aNABusko et al. 2014
EukaryotaAspergillus Flavusn/aNABeck et al. 2012
EukaryotaAspergillus Parasiticusn/aNABeck et al. 2012
EukaryotaAspergillus Nigern/aNABeck et al. 2012
EukaryotaPenicillium Glabrumn/aNABeck et al. 2012
EukaryotaRhizopus Stolonifern/aNABeck et al. 2012
EukaryotaSaccharomyces CerevisiaeNANALjunggren et al. 2019
EukaryotaSaccharomyces CerevisiaeNANAHarris et al. 2021
EukaryotaHanseniaspora UvarumNANAMozūraitis et al. 2022
ProkaryotaLactobacillus PlantarumNANAZhang et al. 2022
EukaryotaHanseniaspora ValbyensisNANATran et al. 2022
EukaryotaPhytophthora CactorumN/APhytophthora cactorum Loulier et al. 2020
Cyberlindnera FabianiiMa et al. 2023
Saccharomyces CerevisiaePeng et al. 2023
Method
KingdomSpeciesGrowth MediumApplied MethodVerification
EukaryotaAspergillus NigerYeast Glucose ChloramphenicolSPME/GCxGC-MSno
EukaryotaCandida AlbicansYeast Glucose ChloramphenicolSPME/GCxGC-MSno
ProkaryotaLactobacillus Plantarumginkgo biloba kernel juicetriple quadrupole GC-MSno
EukaryotaTrichoderma HarzianumPDA plateSPME-GC-MSno
EukaryotaTrichoderma Harzianumpotato dextrose agarSPME, GC-MSno
EukaryotaCandida AlbicansYGC mediaHS-SPME/GC-GC-ToFMSno
EukaryotaCandida GlabrataYGC mediaHS-SPME/GC-GC-ToFMSno
EukaryotaCandida TropicalisYGC mediaHS-SPME/GC-GC-ToFMSno
EukaryotaTuber Melanosporumn/an/ano
EukaryotaTuber Borchiin/an/ano
EukaryotaTuber Indicumn/an/ano
EukaryotaTuber Aestivumn/an/ano
ProkaryotaBacillus CereusLB, MR-VP and AngleHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia AndropogonisMR-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
ProkaryotaBurkholderia GraminisLB, MR-VP and AngleHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaEscherichia ColiMR-VP and AngleHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaLimnobacter ThiooxidansMR-VP, MS and AngleHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaPseudomonas ChlororaphisLB, MR-VP, MS and AngleHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaPseudomonas FluorescensAngleHeadspace 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 EntomophilaMR-VPHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaSerratia MarcescensMR-VP, MS and AngleHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaSerratia PlymuthicaAngleHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaSerratia ProteamaculansLBHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaStenotrophomonas RhizophilaAngleHeadspace 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
ProkaryotaBurkholderia CaribensisLB and AngleHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia CaryophylliMR-VP and MS Headspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia CepaciaMR-VP and AngleHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia FungorumMR-VPHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia GladioliLB and MR-VPHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia GlatheiMR-VPHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia GlumaeMR-VPHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia HospitaMR-VPHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia KururiensisMR-VPHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia LataMR-VP and MS Headspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia PhenaziniumLB and MR-VPHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia PhenoliruptrixLB, MR-VP, MS and AngleHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia PhytofirmansLB, MR-VP and MS Headspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia PyrrociniaLB, MR-VP and MS Headspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia SacchariLB, MR-VP and MS Headspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia SordidicolaMR-VP and AngleHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia TerricolaMR-VP and LBHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia ThailandensisMR-VP, MS and AngleHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia TropicaMR-VP and MS Headspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
ProkaryotaBurkholderia XenovoransMR-VPHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)no
EukaryotaAscocoryne Sp.no
EukaryotaFusarium Culmorumno
ProkaryotaBurkholderia CepaciaMR-VP and AngleHeadspace air was trapped in glass Gerstel TDS tubes and analysed by gas chromatography with mass selective detection (GC-MSD)yes
EukaryotaFusarium Graminearumyeast extract sucrose agarSPME/GC-MSno
EukaryotaAspergillus Flavuspotato dextrose agar and Polyunsaturated Fatty AcidsSPME/ GC-MSno
EukaryotaAspergillus Parasiticuspotato dextrose agar and Polyunsaturated Fatty AcidsSPME/ GC-MSno
EukaryotaAspergillus Nigerpotato dextrose agar and Polyunsaturated Fatty AcidsSPME/ GC-MSno
EukaryotaPenicillium Glabrumpotato dextrose agar and Polyunsaturated Fatty AcidsSPME/ GC-MSno
EukaryotaRhizopus Stoloniferpotato dextrose agar and Polyunsaturated Fatty AcidsSPME/ GC-MSno
EukaryotaSaccharomyces Cerevisiaeliquid YPD mediumGC-MSno
EukaryotaSaccharomyces Cerevisiaemalt extract brothHS-SPME with GC-MSno
EukaryotaHanseniaspora UvarumYPD-agar plates (1% yeast extract, 1% peptone, 2% dextrose, 2% agar)SPME-GC-MSno
ProkaryotaLactobacillus Plantarumchickpea milkUHPLC/MSno
EukaryotaHanseniaspora Valbyensissugared green and black teaHS-SPME-GC/MSno
EukaryotaPhytophthora CactorumPotato Dextrose AgarSPME/GC-MS/MSstandard
Cyberlindnera Fabianiituna cooking liquidHS-SPME-GC/MSno
Saccharomyces Cerevisiaesea buckthorn juiceHS-SPME-GC–MS/UHPLC–MSno