benzaldehyde

100-52-7

Benzoic aldehyde

Phenylmethanal

Benzenecarboxaldehyde

Benzenecarbonal

Benzenemethylal

Benzaldehyde FFC

Benzene carbaldehyde

Benzene carboxaldehyde

benzanoaldehyde

Benzylaldehyde

Benzoyl hydride

NCI-C56133

Benzoic acid aldehyde

FEMA No. 2127

Caswell No. 076

Phenylformaldehyde

Benzaldehyde (natural)

NSC 7917

Benzadehyde

Benzyaldehyde

CCRIS 2376

HSDB 388

NSC-7917

EINECS 202-860-4

UNII-TA269SD04T

Benzaldehyde-carbonyl-13C

Benzaldehyde [NF]

EPA Pesticide Chemical Code 008601

Benzaldehyde-formyl-d

TA269SD04T

Benzaldehyde-alpha-d1

DTXSID8039241

CHEBI:17169

AI3-09931

MFCD00003299

8013-76-1

Benzaldehyde, methyl-

CHEMBL15972

DTXCID90134

NSC7917

EC 202-860-4

Phenylmethanal benzenecarboxaldehyde

Benzaldehyde (NF)

NCGC00091819-01

NCGC00091819-02

BENZALDEHYDE (II)

BENZALDEHYDE [II]

BENZALDEHYDE (MART.)

BENZALDEHYDE [MART.]

benzaldehyd

Benzaldhyde

BENZALDEHYDE (USP IMPURITY)

BENZALDEHYDE [USP IMPURITY]

BDBM50139371

CAS-100-52-7

FENTANYL IMPURITY E (EP IMPURITY)

FENTANYL IMPURITY E [EP IMPURITY]

TRIBENOSIDE IMPURITY C (EP IMPURITY)

TRIBENOSIDE IMPURITY C [EP IMPURITY]

BENZYL ALCOHOL IMPURITY A (EP IMPURITY)

BENZYL ALCOHOL IMPURITY A [EP IMPURITY]

FENTANYL CITRATE IMPURITY E (EP IMPURITY)

FENTANYL CITRATE IMPURITY E [EP IMPURITY]

AMFETAMINE SULFATE IMPURITY D (EP IMPURITY)

AMFETAMINE SULFATE IMPURITY D [EP IMPURITY]

UN1990

BENZALKONIUM CHLORIDE IMPURITY B (EP IMPURITY)

BENZALKONIUM CHLORIDE IMPURITY B [EP IMPURITY]

GLYCOPYRRONIUM BROMIDE IMPURITY F (EP IMPURITY)

GLYCOPYRRONIUM BROMIDE IMPURITY F [EP IMPURITY]

HYDROUS BENZOYL PEROXIDE IMPURITY A (EP IMPURITY)

HYDROUS BENZOYL PEROXIDE IMPURITY A [EP IMPURITY]

benzaidehyde

benzaldehvde

benzaldehye

benzaldeyde

BENZOYLL PEROXIDE HYDROUS IMPURITY A (EP IMPURITY)

BENZOYLL PEROXIDE HYDROUS IMPURITY A [EP IMPURITY]

C7H6O

phenyl-methanone

Benzene methylal

Aromatic aldehyde

Benzoylwasserstoff

(phenyl)methanone

benzenecarbaldehyde

Benzaldehyde,(S)

PhCHO

Benzene carcaboxaldehyde

2vj1

WLN: VHR

BENZALDEHYDE [MI]

SCHEMBL573

BENZALDEHYDE [FCC]

BENZALDEHYDE [FHFI]

BENZALDEHYDE [HSDB]

BENZALDEHYDE [INCI]

BENZALDEHYDE [VANDF]

ghl.PD_Mitscher_leg0.170

BENZALDEHYDE [USP-RS]

Benzaldehyde, AR, >=99%

Benzaldehyde, LR, >=99%

BIDD:ER0249

BDBM60953

Benzaldehyde, analytical standard

Ald3-H_000012

Benzaldehyde, >=98%, FG, FCC

Ald3.1-H_000160

Ald3.1-H_000479

Ald3.1-H_000798

Tox21_113069

Tox21_113244

Tox21_200634

s5574

STL194067

Benzaldehyde, for synthesis, 95.0%

AKOS000119172

Benzaldehyde [UN1990] [Class 9]

CCG-266041

MCULE-7744113682

NA 1989

Benzaldehyde, purum, >=98.0% (GC)

Benzaldehyde, ReagentPlus(R), >=99%

NCGC00091819-03

NCGC00258188-01

PS-11959

Benzaldehyde, natural, >=98%, FCC, FG

DB-023673

B2379

Benzaldehyde, SAJ special grade, >=98.0%

NS00008510

Benzaldehyde, Vetec(TM) reagent grade, 98%

Benzaldehyde 1000 microg/mL in Dichloromethane

Benzaldehyde 2000 microg/mL in Dichloromethane

Benzaldehyde, puriss. p.a., >=99.0% (GC)

C00193

C00261

D02314

A800226

Q372524

SR-01000944375

Benzaldehyde, purified by redistillation, >=99.5%

SR-01000944375-1

F1294-0144

Flavor and Extract Manufacturers' Association No. 2127

InChI=1/C7H6O/c8-6-7-4-2-1-3-5-7/h1-6

Benzaldehyde, European Pharmacopoeia (EP) Reference Standard

Benzaldehyde, United States Pharmacopeia (USP) Reference Standard

Benzaldehyde, Pharmaceutical Secondary Standard; Certified Reference Material

The Henry's Law constant for benzaldehyde is 2.67X10-5 atm-cu m/mole(1). This Henry's Law constant indicates that benzaldehyde 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 1.5 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 14 days(SRC). Benzaldehyde's Henry's Law constant indicates that volatilization from moist soil surfaces may occur(SRC). Benzaldehyde is expected to volatilize from dry soil surfaces(SRC) based upon a vapor pressure of 1.27 mm Hg at 25 deg C(3).
Literature: (1) Betterton EA, Hoffmann MR; Environ Sci Technol 22: 1415-8 (1988) (2) Lyman WJ et al; Handbook of Chemical Property Estimation Methods. Washington, DC: Amer Chem Soc pp. 15-1 to 15-29 (1990) (3) Ambrose D et al; J Chem Therm 7: 1143-57 (1975)

Using a structure estimation method based on molecular connectivity indices(1), the Koc of benzaldehyde can be estimated to be 11(SRC). According to a classification scheme(2), this estimated Koc value suggests that benzaldehyde is expected to have very high mobility in soil.
Literature: (1) US EPA; Estimation Program Interface (EPI) Suite. Ver. 4.1. Nov, 2012. Available from, as of May 30, 2016: http://www2.epa.gov/tsca-screening-tools/ (2) Swann RL et al; Res Rev 85: 17-28 (1983)

2-METHYLFURAN

534-22-5

Silvan

Methylfuran

Sylvan

2-Methyl furan

5-Methylfuran

Furan, 2-methyl-

alpha-Methylfuran

Furan, methyl-

.alpha.-Methylfuran

Methyl furan

2-METHYL-FURAN

51O3BGW3F2

27137-41-3

DTXSID9025611

CHEBI:88912

NSC-3707

2-Methylfuran-d3

Silvan [Czech]

WLN: T5OJ B1

25301-08-0

CCRIS 2920

NSC 3707

EINECS 208-594-5

UN2301

BRN 0103733

UNII-51O3BGW3F2

2methylfuran

2-methylfurane

AI3-24245

alpha -Methylfuran

EINECS 248-253-8

Methylfuran (DOT)

MFCD00003248

2-Methylfuran, 99%, FG

5-17-01-00322 (Beilstein Handbook Reference)

2-METHYLFURAN [FHFI]

DTXCID405611

CHEMBL1445555

FEMA NO. 4179

NSC3707

NSC5211

2-Methylfuran (ACD/Name 4.0)

2-Methylfuran, analytical standard

AMY11051

NSC-5211

Tox21_200203

STL264121

AKOS000120176

MCULE-3620289319

UN 2301

NCGC00091686-01

NCGC00091686-02

NCGC00257757-01

CAS-534-22-5

DB-015962

M0226

NS00021195

2-Methylfuran 100 microg/mL in Acetonitrile

2-Methylfuran, >=98%, stabilized with BHT

EN300-19054

2-Methylfuran [UN2301] [Flammable liquid]

A829577

Q209438

J-510050

F0001-1386

InChI=1/C5H6O/c1-5-3-2-4-6-5/h2-4H,1H

Z104472456

2-Methylfuran, contains 200-400 BHT as stabilizer, 99%

toluene

methylbenzene

108-88-3

toluol

Phenylmethane

methacide

methylbenzol

Benzene, methyl-

antisal 1a

Toluen

tolu-sol

Methane, phenyl-

Tolueen

Toluolo

phenyl methane

1-Methylbenzene

monomethyl benzene

RCRA waste number U220

Tolueno

methyl-Benzene

Caswell No. 859

p-toluene

NCI-C07272

CP 25

CCRIS 2366

HSDB 131

NSC 406333

UN 1294

4-methylbenzene

Benzene, methyl

EINECS 203-625-9

UNII-3FPU23BG52

EPA Pesticide Chemical Code 080601

NSC-406333

3FPU23BG52

DTXSID7021360

CHEBI:17578

AI3-02261

TOLUENE (RING-D5)

CHEMBL9113

DTXCID501360

EC 203-625-9

Toluene, anhydrous

MFCD00008512

NCGC00090939-02

TOLUENE (IARC)

TOLUENE [IARC]

TOLUENE (MART.)

TOLUENE [MART.]

TOLUENE (USP-RS)

TOLUENE [USP-RS]

Tolueen [Dutch]

Toluen [Czech]

Toluene, analytical standard

Tolueno [Spanish]

Toluolo [Italian]

methyl benzene

para-toluene

Methyl benzol

Toluene, ACS reagent, >=99.5%

Toluene 1000 microg/mL in Methanol

CAS-108-88-3

RAMIPRIL IMPURITY G (EP IMPURITY)

RAMIPRIL IMPURITY G [EP IMPURITY]

PHME

UN1294

RCRA waste no. U220

methylbenzenes

Dracyl

phenyl-methane

toluene solvent

2-methylbenzene

toluene-

Methylbenzene; Toluene; Ramipril Imp. G (EP); Ramipril Impurity G

MePh

2-methyl benzene

4-methyl-benzene

Toluene ACS Grade

Toluene HPLC grade

Methylbenzene, 9CI

Toluene (Technical)

Toluene, for HPLC

PhCH3

Toluene, ACS reagent

Toluene, HPLC Grade

4i7k

TOLUENE [HSDB]

TOLUENE [INCI]

Toluene, 99.5%

TOLUENE [MI]

CP 25 (SOLVENT)

Toluene, Environmental Grade

Toluene, Semiconductor Grade

Toluene, LR, >=99%

C6H5CH3

TOLUENE [GREEN BOOK]

WLN: 1R

BIDD:ER0288

Toluene, anhydrous, 99.8%

Toluene, ASTM, 99.5%

Toluene, p.a., 99.5%

GTPL5481

Toluene, AR, >=99.5%

Toluene, for HPLC, 99.9%

Toluene, LR, rectified, 99%

CHEBI:38975

DTXSID00184990

DTXSID50175878

Toluene, HPLC grade, 99.8%

Toluene, Spectrophotometric Grade

Toluene 10 microg/mL in Methanol

Toluene, LR, sulfur free, 99%

Toluene, AR, rectified, 99.5%

Toluene, technical grade, 95.0%

BCP16202

Toluene, for HPLC, >=99.8%

Toluene, for HPLC, >=99.9%

Toluene, histology grade, practical

Toluene, PRA grade, >=99.8%

Toluene 100 microg/mL in Methanol

Tox21_111042

Tox21_201224

BDBM50008558

NSC406333

Toluene, purification grade, 99.8%

AKOS015840411

DB11558

MCULE-4817136027

Toluene, anhydrous, (water < 50ppm)

Toluene, puriss., >=99.5% (GC)

Toluene, SAJ first grade, >=99.0%

NCGC00090939-01

NCGC00090939-03

NCGC00258776-01

Toluene [UN1294] [Flammable liquid]

Toluene, JIS special grade, >=99.5%

Toluene, Laboratory Reagent, >=99.3%

Toluene, for HPLC, >=99.7% (GC)

Toluene, UV HPLC spectroscopic, 99.5%

Toluene, anhydrous, ZerO2(TM), 99.8%

DB-309420

NS00008096

T0260

Toluene, suitable for determination of dioxins

C01455

Q15779

Toluene, suitable for scintillation, >=99.7%

Toluene liquid density, NIST(R) SRM(R) 211d

A801937

SR-01000944565

Toluene, ACS spectrophotometric grade, >=99.5%

SR-01000944565-1

Toluene, p.a., ACS reagent, reag. ISO, 99.5%

InChI=1/C7H8/c1-7-5-3-2-4-6-7/h2-6H,1H

D5191 Vapor Pressure - 7.1kPa (1.03 psi), 10 x 10 mL

Toluene, p.a., ACS reagent, reag. ISO, reag. Ph. Eur., 99.5%

Toluene, absolute, over molecular sieve (H2O <=0.005%), >=99.7% (GC)

Toluene, Pharmaceutical Secondary Standard; Certified Reference Material

Residual Solvent - Toluene, Pharmaceutical Secondary Standard; Certified Reference Material

Toluene, puriss. p.a., ACS reagent, reag. ISO, reag. Ph. Eur., >=99.7% (GC)

25013-04-1

The Henry's Law constant for toluene is 6.64X10-3 atm-cu m/mole(1). This Henry's Law constant indicates that toluene 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 2.9 hours(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 3.8 days(SRC). Toluene's Henry's Law constant indicates that volatilization from moist soil surfaces may occur(SRC). Toluene is expected to volatilize from dry soil surfaces(SRC) based upon a vapor pressure of 28.4 mm Hg(3). The air-water interface equilibrium partitioning coefficient for toluene, at a concentration of 0.47 mg/L, has been reported to be 0.223, 0.226, 0.273, and 0.336 at 26.9, 31.9, 36.9, and 41.9 deg C, respectively(4). A first-order volatilization rate calculated for toluene from water using an inverse reactive simulation was reported as 6.62X10-6/sec(5). The volatilization half-life of toluene from a water column of one meter depth was estimated to be 5.18 hours(6). Toluene was reported to have a disappearance half-life of <2 days due to volatilization in two different soil types, a Captina silt loam and a McLaurin sandy loam(7).
Literature: (1) Mackay D et al; Environ Sci Technol 13: 333-6 (1979) (2) Lyman WJ et al; Handbook of Chemical Property Estimation Methods. Washington, DC: Amer Chem Soc pp. 15-1 to 15-29 (1990) (3) Daubert TE, Danner RP; Physical and Thermodynamic Properties of Pure Chemicals Data Compilation. Washington, DC: Taylor and Francis (1989) (4) Cheng W-H et al; Atmos Environ 37: 4807-4815 (2003) (5) Keefe SH et al; Environ Sci Technol 38: 2209-2216 (2004) (6) Mackay D, Leinonen PJ; Environ Sci Technol 9: 1178-80 (1975) (7) Anderson TA et al; J Environ Qual 20:420-4 (1991)

The Koc of toluene was reported as 178 in a sandy soil(1) and as 37 (Wendover silty loam), 160 (Grimsby silt loam), 160 (Vaudreil sandy loam) and 46 (sandy soil)(2). The Koc of toluene in lake sediment was measured as 166(3). According to a classification scheme(4), these measured Koc values suggest that toluene is expected to have high to moderate mobility in soil.
Literature: (1) Wilson JT et al; J Environ Qual 10: 501-6 (1981) (2) Nathwani JS, Phillips CR; Chemosphere 6: 157-62 (1977) (3) Kan AT et al; Environ Sci Technol 32: 892-902 (1998) (4) Swann RL et al; Res Rev 85: 17-28 (1983)
Literature: #In association with clay minerals, toluene's adsorption is inversely proportional to the pH of the soil. Approximately 40-70% of toluene applied to the surface of sandy soils is volatilized.
Literature: IARC. Monographs on the Evaluation of the Carcinogenic Risk of Chemicals to Humans. Geneva: World Health Organization, International Agency for Research on Cancer, 1972-PRESENT. (Multivolume work). Available at: http://monographs.iarc.fr/ENG/Classification/index.php, p. V47: 90 (1989)

Dimethyl trisulfide

3658-80-8

Trisulfide, dimethyl

Methyl trisulfide

DIMETHYLTRISULFIDE

2,3,4-Trithiapentane

Dimethyl trisulphide

(methyltrisulfanyl)methane

dimethyltrisulfane

DMTS

FEMA No. 3275

CH3SSSCH3

3E691T3NL1

NSC-97324

UNII-3E691T3NL1

Dimethyl trisufide

EINECS 222-910-9

2,4-Trithiapentane

NSC 97324

trisulfane, dimethyl-

1,3-Dimethyltrisulfane

AI3-26172

1,3-Dimethyltrisulfane #

SCHEMBL446658

methylsulfanyldisulfanyl-methane

CHEBI:4614

DTXSID9063118

DIMETHYL TRISULFIDE [FHFI]

Dimethyl trisulfide, >=98%, FG

NSC97324

MFCD00039808

NSC801680

s6311

AKOS015897465

NSC-801680

2,3,4-Trithiapentane; NSC 97324

Dimethyl trisulfide, analytical standard

BS-43830

1,3-Dimethyltrisulfane (ACD/Name 4.0)

DB-003633

HY-128454

CS-0099182

D3418

NS00022106

C08372

D90187

InChI=1/C2H6S3/c1-3-5-4-2/h1-2H

A823301

Q-100435

Q5277321

FLAMMABLE LIQUID, N.O.S. (DIMETHYL TRISULPHIDE)

Dimethyl disulfide

624-92-0

METHYL DISULFIDE

Dimethyldisulfide

Dimethyl disulphide

DMDS

Disulfide, dimethyl

2,3-Dithiabutane

(Methyldisulfanyl)methane

Methyldisulfide

Methyldithiomethane

(Methyldithio)methane

Sulfa-hitech

dimethyldisulphide

FEMA No. 3536

NSC 9370

1,2-Dimethyldisulfane

CCRIS 2939

HSDB 6400

EINECS 210-871-0

UNII-3P8D642K5E

CHEBI:4608

Dimethyl-d6 disulfide

AI3-25305

3P8D642K5E

NSC-9370

MFCD00008561

DTXSID4025117

(CH3S)2

EC 210-871-0

Paladin

UN2381

dimethydisulfide

methyl disulphide

Dimethyl disulfane

Disulfide dimethyl

MeS-SMe

Disulfide, dimethyl-

methyldisulfanyl methane

Dimethyl disulfide, 98%

Dimethyl disulfide, 99%

(Methyldisulfanyl)methane #

Dimethyl disulfide, >=99%

WLN: 1SS1

DTXCID805117

METHYL DISULFIDE [HSDB]

CHEMBL1347061

Dimethyl disulfide, >=99.0%

DIMETHYL DISULFIDE [FHFI]

NSC9370

BDBM233038

Dimethyl disulfide, >=98%, FG

AMY39506

EINECS 272-923-9

Tox21_201525

AKOS009157459

Dimethyl disulfide, analytical standard

MCULE-7451882535

UN 2381

NCGC00091798-01

NCGC00091798-02

NCGC00259075-01

CAS-624-92-0

Dimethyl disulfide, natural, >=98%, FG

D0714

Dimethyl disulfide, purum, >=98.0% (GC)

NS00001484

EN300-36043

InChI=1/C2H6S2/c1-3-4-2/h1-2H

C08371

E78981

A833808

Dimethyl disulfide [UN2381] [Flammable liquid]

Q419800

Q-100719

F0001-1676

The Henry's Law constant for dimethyl disulfide is reported as 1.21X10-3 atm-cu m/mole(1). This Henry's Law constant indicates that dimethyl disulfide is expected to volatilize rapidly 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 3.5 hours(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 4.1 days(SRC). Dimethyl disulfide's Henry's Law constant indicates that volatilization from moist soil surfaces may occur(SRC). In a laboratory study, the volatilization rate of dimethyl disulfide from a tidal marsh soil (at field capacity or 1.5 field capacity) ranged from 0.1 to 0.4 ng (sulfur basis)/min(3). Dimethyl disulfide is expected to volatilize from dry soil surfaces(SRC) based upon a vapor pressure of 28.7 mm Hg(4).
Literature: (1) Vitenberg AG et al; J Chromatography 112: 319-27 (1975) (2) Lyman WJ et al; Handbook of Chemical Property Estimation Methods. Washington, DC: Amer Chem Soc pp. 15-1 to 15-29 (1990) (3) Farwell SO et al; Soil Biol Biochem 11: 411-5 (1979) (4) Daubert TE, Danner RP; Physical & Thermodynamic Properties of Pure Chemicals: Data Compilation. New York, NY: Hemisphere Pub Corp (1989)

Using a structure estimation method based on molecular connectivity indices(1), the Koc of dimethyl disulfide can be estimated to be 40(SRC). According to a classification scheme(2), this estimated Koc value suggests that dimethyl disulfide is expected to have very high mobility in soil. Gas chromatographic studies with various air-dry and moist soils have shown that soil can sorb atmospheric, gas phase dimethyl disulfide(3). In one closed-system test, 17-94% of input dimethyl disulfide was sorbed by the soil in 10 min(3); in a 15-day test, dimethyl disulfide sorption was 101-306 ug sorbed/g soil(3). Soil microbes were found to be important for the gas phase sorption of dimethyl disulfide as 15-day sorption in sterilized soil was only 9-98 ug sorbed/g soil(3).
Literature: (1) US EPA; Estimation Program Interface (EPI) Suite. Ver. 4.1. Jan, 2011. Available from, as of Nov 7, 2013: http://www.epa.gov/oppt/exposure/pubs/episuitedl.htm (2) Swann RL et al; Res Rev 85: 17-28 (1983) (3) Bremner JM, Banwart WL; Soil Biol Biochem 8: 79-83 (1976)