821-41-0

Basic information

• Product Name: 5-HEXEN-1-OL
• Synonyms: 5-HEXEN-1-OL;6-HYDROXY-1-HEXENE;1-Hexen-6-ol;5-hexenol;Hex-5-en-1-ol;5-Hexen-1-ol, 97+%;5-HEXEN-1-OL 99%;5-Hexen-1-ol,99%
• CAS NO: 821-41-0
• Molecular Formula: C₆H₁₂O
• Molecular Weight: 100.16
• EINECS: 212-477-4
• Product Categories: omega-Functional Alkanols, Carboxylic Acids, Amines & Halides;omega-Unsaturated Alkanols;NULL
• Mol File: 821-41-0.mol
• Article Data: 68

Chemical Properties

• Melting Point: <-20°C
• Boiling Point: 78-80 °C25 mm Hg(lit.)
• Flash Point: 117 °F
• Appearance: Clear colorless/Liquid
• Density: 0.834 g/mL at 25 °C(lit.)
• Vapor Pressure: 1.5mmHg at 25°C
• Refractive Index: n20/D 1.435(lit.)
• Storage Temp.: Flammables area
• Solubility: 18.6g/l
• PKA: 15.17±0.10(Predicted)
• Water Solubility: Miscible with water.
• BRN: 1236458
• CAS DataBase Reference: 5-HEXEN-1-OL(CAS DataBase Reference)
• NIST Chemistry Reference: 5-HEXEN-1-OL(821-41-0)
• EPA Substance Registry System: 5-HEXEN-1-OL(821-41-0)

Safety Data

• Hazard Codes: F
• Statements: 10
• Safety Statements: 16-24/25
• RIDADR: UN 1987 3/PG 3
• WGK Germany: 1
• F: 9
• TSCA: Yes
• HazardClass: 3
• PackingGroup: III
• Hazardous Substances Data: 821-41-0(Hazardous Substances Data)

Usage

Chemical Properties

Different sources of media describe the Chemical Properties of 821-41-0 differently. You can refer to the following data:
1. CLEAR COLOURLESS LIQUID
2. Colorless liquid; green aroma.

Uses

5-Hexen-1-ol is used in cyclization to a tetrahydropyran by phenylselenoetherification. It is also used as a building block in synthetic chemistry. Further, it is used to prepare 6-bromo-hex-1-ene by reaction with phosphorus tribromide.

InChI:InChI=1/C6H12O/c1-2-3-4-5-6-7/h2,7H,1,3-6H2

Synthetic route

2-iodomethyltetrahydropyran (43216-12-2) → 5-Hexen-1-ol (821-41-0)

Conditions	Yield
With indium In methanol for 4.5h; sonication;	95%
With dimethylboron bromide; tetra-(n-butyl)ammonium iodide; triethylamine In dichloromethane at 0℃; for 0.5h;	82%

(S)-4-(but-3-enyl)-2,2-dimethyl-1,3-dioxolane (127102-60-7) → 5-Hexen-1-ol (821-41-0)

Conditions	Yield
With water; acetic acid	95%

5-hexyl-1-ol (928-90-5) → 5-Hexen-1-ol (821-41-0)

Conditions	Yield
With dimethylamine borane In ethanol at 25℃; for 0.5h; Reagent/catalyst; Time;	95%
With palladium on activated charcoal; hydrogen In water at 25℃; under 760.051 Torr; for 1.5h;	68%
With quinoline; hydrogen In methanol; water at 20℃; under 760.051 Torr; for 0.433333h; chemoselective reaction;
With hydrogen In ethanol at 20℃; under 760.051 Torr; for 3.4h; Schlenk technique; Sealed tube; chemoselective reaction;	> 99 %Chromat.
With Dimethylphenylsilane; water In dimethyl sulfoxide at 70℃; for 0.333333h; Inert atmosphere; stereoselective reaction;

ethyl hex-5-enoate (54653-25-7) → 5-Hexen-1-ol (821-41-0)

Conditions	Yield
With lithium aluminium tetrahydride In diethyl ether	93%

hexane-1,2,6-triol (106-69-4) → 5-Hexen-1-ol (821-41-0)

Conditions	Yield
With rhenium(VII) oxide; triphenylphosphine at 165℃; for 1h; Reagent/catalyst; Concentration; Temperature;	91%
With rac-3-octanol at 170℃; for 1h;	38%

6-chloro-1-hexanol (2009-83-8) → 5-Hexen-1-ol (821-41-0)

Conditions	Yield
at 700℃; for 2h;	87%
With tert-butoxide; 18-crown-6 ether In tetrahydrofuran for 1.85h; Heating;	72%

2-(bromomethyl)tetrahydro-2H-pyran (34723-82-5, 130233-15-7, 130233-16-8) → 5-Hexen-1-ol (821-41-0)

Conditions	Yield
Stage #1: 2-(bromomethyl)tetrahydro-2H-pyran With sodium In diethyl ether for 2h; Metallation; Heating; Stage #2: With water Hydrolysis;	87%
With sodium	76%
With Na; pyridinium p-toluenesulfonate 1.) MeOH; 2.) CDCl3; Multistep reaction;

6-(allyloxy)hex-1-ene → 5-Hexen-1-ol (821-41-0)

Conditions	Yield
With 2,3-dicyano-5,6-dichloro-p-benzoquinone In dichloromethane; water for 18h; Ambient temperature;	85%

2-(chloromethyl)tetrahydropyran (18420-41-2, 130233-13-5, 130233-14-6) → 5-Hexen-1-ol (821-41-0)

Conditions	Yield
With sodium In diethyl ether for 16h;	83.5%
With diethyl ether; sodium

6-(tetrahydropyran-2-yloxy)hex-1-ene (77022-44-7) → 5-Hexen-1-ol (821-41-0)

Conditions	Yield
With toluene-4-sulfonic acid In methanol for 4h; Ambient temperature;	82%
With ammonium chloride at 20℃; for 0.166667h; Yield given;

2,6-diphenylphenyl hex-5-enyl ether (1315481-26-5) → 5-Hexen-1-ol (821-41-0)

Conditions	Yield
Stage #1: 2,6-diphenylphenyl hex-5-enyl ether With sodium In tetrahydrofuran at 20℃; for 24h; Inert atmosphere; Stage #2: With water In tetrahydrofuran at 0 - 20℃; Inert atmosphere; regioselective reaction;	81%

phenyl(6-hexanol)sulfoxide (49639-25-0) → 5-Hexen-1-ol (821-41-0)

Conditions	Yield
In various solvent(s) for 0.0166667h; Irradiation;	80%

1-((hex-5-en-1-yloxy)methyl)-4-methoxybenzene (207795-48-0) → 5-Hexen-1-ol (821-41-0)

Conditions	Yield
With montmorillonite K 10 supported ammonium nitrate In neat (no solvent) for 0.05h; Irradiation;	80%

potassium trifluoro(hex-5-en-1-yl)borate → 5-Hexen-1-ol (821-41-0)

Conditions	Yield
With rose bengal; triethylamine In ethanol at 25℃; for 12h; Schlenk technique; Irradiation;	78%

1-iodopropan-3-ol (627-32-7) + allyl bromide (106-95-6) → 5-Hexen-1-ol (821-41-0)

Conditions	Yield
With palladium diacetate; copper(II) acetate monohydrate; ammonium bromide; lithium chloride In water; N,N-dimethyl-formamide at 0℃; for 12h; Electrochemical reaction;	73%

1,6-hexanediol (629-11-8) → 5-Hexen-1-ol (821-41-0)

Conditions	Yield
With 1-hexadecylcarboxylic acid at 330 - 350℃; under 760 Torr; for 24h;	71%

5-hexenoic acid (1577-22-6) → 5-Hexen-1-ol (821-41-0)

Conditions	Yield
With lithium aluminium tetrahydride	71%
With hydrogen In aq. phosphate buffer at 50℃; under 1500.15 Torr; for 48h; pH=7; Autoclave;
With lithium aluminium tetrahydride In tetrahydrofuran at 0 - 20℃; Inert atmosphere;

(E)-hex-2-ene-1,6-diol (63974-05-0) → 5-Hexen-1-ol (821-41-0)

Conditions	Yield
With lithium aluminium tetrahydride In 1,2-dimethoxyethane for 120h; Heating;	70%

1-iodopropan-3-ol (627-32-7) + 3-chloroprop-1-ene (107-05-1) → 5-Hexen-1-ol (821-41-0)

Conditions	Yield
With palladium diacetate; copper(II) acetate monohydrate; ammonium bromide; lithium chloride In water; N,N-dimethyl-formamide at 0℃; for 12h; Electrochemical reaction;	70%

trimethylene oxide (503-30-0) + allyl-trimethyl-silane (762-72-1) → 5-Hexen-1-ol (821-41-0)

Conditions	Yield
With titanium tetrachloride In dichloromethane at -100 - 20℃;	69%

hex-5-enyl hydroperoxide (86692-87-7) → 5-Hexen-1-ol (821-41-0) + (+/-)-2-pentanol (6032-29-7) + hex-5-en-1-al (764-59-0)

Conditions	Yield
In pentane for 48h; Irradiation;	A 60% B 10% C 30%

hex-5-enyl hydroperoxide (86692-87-7) → 5-Hexen-1-ol (821-41-0) + hex-5-en-1-al (764-59-0) + 5-hexenyl acetate (5048-26-0)

Conditions	Yield
With titanium(III) chloride; acetic acid In water for 2h;	A 56% B 27% C 17%

methyl 5-hexenoate (2396-80-7) → 5-Hexen-1-ol (821-41-0) + trans-2-methylcyclopentanol (25144-04-1)

Conditions	Yield
With sodium In tetrahydrofuran; ammonia at -78 - -33℃; Cyclization; Bouveault-Blanc reduction;	A 36% B 54%

methyl 5-hexenoate (2396-80-7) → 5-Hexen-1-ol (821-41-0)

Conditions	Yield
With ethanol; [bis({2‐[bis(propan‐2‐yl)phosphanyl]ethyl})amine](borohydride)(carbonyl)(hydride)iron(II) at 100℃; for 24h; Inert atmosphere; Sealed tube; Darkness;	53%

1 ,6-dibromohexane (629-03-8) → 1-hexene (592-41-6) + 5-Hexen-1-ol (821-41-0) + hexane (110-54-3) + 1,5-Hexadien (592-42-7)

Conditions	Yield
With tetramethylammonium perchlorate In water-d2; N,N-dimethyl-formamide Solvent; Electrolysis; Overall yield = 90 %;	A 22% B 9% C 50% D 16%
With tetramethylammonium perchlorate In N,N-dimethyl-formamide Electrolysis;	A 22% B 7% C 39% D 18%

6,8-dioxa-bicyclo[3.2.1]oct-2-ene (27925-22-0) → 5-Hexen-1-ol (821-41-0) + (E)-hex-2-ene-1,6-diol (63974-05-0) + hex-4-en-1-ol (6126-50-7, 928-91-6, 928-92-7)

Conditions	Yield
With lithium aluminium tetrahydride In 1,2-dimethoxyethane for 150h; Heating;	A 23% B 5% C 46%
With lithium aluminium tetrahydride In 1,2-dimethoxyethane for 150h; Product distribution; Heating; also with various other allylic ethers and allylic alcohols;	A 23% B 5% C 46%

hex-5-enyl hydroperoxide (86692-87-7) → 5-Hexen-1-ol (821-41-0) + hex-5-en-1-al (764-59-0) + phenol (108-95-2)

Conditions	Yield
In benzene for 48h; Irradiation;	A 44% B 43% C 13%

1,5-Hexadien (592-42-7) → 5-Hexen-1-ol (821-41-0)

Conditions	Yield
With tetrahydrofuran; alkaline aqueous hydrogen peroxide; diborane
With sodium hydroxide; 9-borabicyclo[3.3.1]nonane dimer; dihydrogen peroxide 1) 2h, THF; 2) 0 deg C; 3) 50 deg C; Yield given. Multistep reaction;
With sodium tetrahydroborate; 18-crown-6 ether; dihydrogen peroxide; sodium methylate; titanium(III) chloride 1.) THF, 30 deg C, 5 h, 2.) THF, methanol, 40 deg C; Yield given. Multistep reaction;
Multi-step reaction with 3 steps 1: hydrogen bromide 2: acetic acid 3: ethanolic KOH-solution

5-hexenyl acetate (5048-26-0) → 5-Hexen-1-ol (821-41-0)

Conditions	Yield
With potassium hydroxide
Saponification;

tetrahydrofuran (109-99-9) + Peroxyde de t-butyle et d'hex-5-enyle (107671-69-2) → 2-pentyl-tetrahydro-furan (3208-31-9) + 5-Hexen-1-ol (821-41-0) + (tetrahydrofuryl-2 methyl)-2 tetrahydropyranne (134141-96-1) + 6-(tetrahydrofuran-2-yl)hexan-1-ol + 6-(Tetrahydro-furan-2-yl)-hexanal + C14H26O3

Conditions	Yield
at 140℃; for 10h; Mechanism; Product distribution;	A 6 % Chromat. B 5 % Chromat. C 20 % Chromat. D 15 % Chromat. E 12 % Chromat. F 8 % Chromat.

5-Hexen-1-ol (821-41-0) → hex-5-en-1-al (764-59-0)

Conditions	Yield
Stage #1: 5-Hexen-1-ol With oxalyl dichloride; dimethyl sulfoxide In dichloromethane at -78℃; for 1h; Swern oxidation; Inert atmosphere; Stage #2: With triethylamine In dichloromethane at -78 - 0℃; Swern oxidation; Inert atmosphere;	100%
Stage #1: 5-Hexen-1-ol With oxalyl dichloride; dimethyl sulfoxide at -78℃; for 1h; Stage #2: With triethylamine	100%
With (NH4)4[CuMo6O18(OH)6]·5H2O; oxygen; sodium sulfite In water; acetonitrile at 60℃; under 760.051 Torr; for 6h;	95%

5-Hexen-1-ol (821-41-0) + benzoyl chloride (98-88-4) → benzoic acid hex-5-enyl ester (41795-26-0)

Conditions	Yield
With dmap; triethylamine In dichloromethane at 0 - 20℃;	100%
With dmap; triethylamine In dichloromethane at 0 - 20℃; Inert atmosphere;	98%
With triethylamine In tetrahydrofuran at 20℃;	93%

5-Hexen-1-ol (821-41-0) + methanesulfonyl chloride (124-63-0) → 5-hexenyl methanesulfonate (64818-36-6)

Conditions	Yield
With triethylamine In dichloromethane at 20℃; for 1h;	100%
With triethylamine In dichloromethane at -15℃; for 1h; Green chemistry;	100%
With triethylamine In dichloromethane at -15℃; for 1.5h;	100%

5-Hexen-1-ol (821-41-0) + Phenylselenyl chloride (5707-04-0) → (2-(phenylselanylmethyl)oxane) (75526-73-7)

Conditions	Yield
With pyridine In dichloromethane at 20℃;	100%
With zinc(II) chloride In dichloromethane at 20℃;	100%
With silver(l) oxide In dichloromethane at 20℃;	100%

5-Hexen-1-ol (821-41-0) + benzeneselenenyl m-nitrobenzenesulfonate (133708-80-2) → (2-(phenylselanylmethyl)oxane) (75526-73-7)

Conditions	Yield
In acetonitrile at 0℃; for 2h;	100%

5-Hexen-1-ol (821-41-0) + tert-butyldimethylsilyl chloride (18162-48-6) → tert-butyl(5-hexenyloxy)dimethylsilane (85807-84-7)

Conditions	Yield
With 1H-imidazole In N,N-dimethyl-formamide	100%
With 1H-imidazole In tetrahydrofuran at 20℃;	100%
With 1H-imidazole In dichloromethane at 20℃; for 19h;	100%

5-Hexen-1-ol (821-41-0) + p-toluenesulfonyl chloride (98-59-9) → hex-5-enyl 4-methylbenzenesulfonate (18922-06-0)

Conditions	Yield
With pyridine at 0 - 5℃; for 3h;	100%
With triethylamine In dichloromethane at 0 - 20℃; for 12h;	100%
With dmap; triethylamine In dichloromethane at 0 - 20℃; for 13h; Inert atmosphere;	98%

5-Hexen-1-ol (821-41-0) + diiodomethane (75-11-6) → 4-cyclopropylbutan-1-ol (5687-83-2)

Conditions	Yield
With trimethylaluminum In dichloromethane for 10h; Heating;	100%
With diethylzinc In 1,2-dichloro-ethane; toluene at 20℃;	40%
Stage #1: diiodomethane With diethylzinc; trifluoroacetic acid In n-heptane; dichloromethane at -10 - 10℃; for 1h; Stage #2: 5-Hexen-1-ol In n-heptane; dichloromethane at 0 - 20℃; for 1.5h;
With diethylzinc; trifluoroacetic acid In hexane; dichloromethane at 0 - 20℃; for 24h; Inert atmosphere;
With trimethylaluminum In hexane; dichloromethane at 20 - 40℃;

5-Hexen-1-ol (821-41-0) + tert-butylchlorodiphenylsilane (58479-61-1) → tert-butyl(hex-5-enyloxy)diphenylsilane (185999-07-9)

Conditions	Yield
With 1H-imidazole In dichloromethane at 0 - 20℃; for 5h;	100%
With 1H-imidazole In N,N-dimethyl-formamide at 20℃;	99%
With 1H-imidazole In dichloromethane at 23℃; for 2h;	99%

5-Hexen-1-ol (821-41-0) + Phenylselenyl bromide (34837-55-3) → (2-(phenylselanylmethyl)oxane) (75526-73-7)

Conditions	Yield
With pyridine In dichloromethane at 20℃;	100%
With zinc(II) chloride In dichloromethane at 20℃;	100%
With silver(l) oxide In dichloromethane at 20℃;	98%
With pyridine In dichloromethane at 20℃; Product distribution; Further Variations:; Reagents; Reaction partners;	90%

phthalimide (136918-14-4) + 5-Hexen-1-ol (821-41-0) → N-(5-hexenyl)phthalimide (52898-33-6)

Conditions	Yield
With di-isopropyl azodicarboxylate; triphenylphosphine In tetrahydrofuran at -20℃; for 0.166667h; Inert atmosphere;	100%
With di-isopropyl azodicarboxylate; triphenylphosphine In tetrahydrofuran at 0 - 23℃; Mitsunobu reaction; Inert atmosphere;	95%
With di-isopropyl azodicarboxylate; triphenylphosphine In tetrahydrofuran at 0 - 20℃; for 24h; Cooling with ice; Inert atmosphere;	84%
With di-isopropyl azodicarboxylate; triphenylphosphine In tetrahydrofuran at 20℃;

5-Hexen-1-ol (821-41-0) + N-allyl-o-nitrobenzenesulfonamide (65118-17-4) → N-allyl-N-(hex-5-enyl)-2'-nitrobenzenesulfonamide (1018389-28-0)

Conditions	Yield
With triphenylphosphine; diethylazodicarboxylate In tetrahydrofuran at 0 - 20℃; for 1h;	100%
With di-isopropyl azodicarboxylate; triphenylphosphine In tetrahydrofuran at 20℃; for 1h; Fukuyama-Mitsunobu reaction;	98%

5-Hexen-1-ol (821-41-0) + m-anisoyl chloride (1711-05-3) → hex-5-en-1-yl 3-methoxybenzoate

Conditions	Yield
With dmap; triethylamine In dichloromethane at 0 - 20℃; Inert atmosphere;	100%

trans-Crotonaldehyde (123-73-9) + 5-Hexen-1-ol (821-41-0) → (E)-7-hydroxyhept-2-enal (1100136-96-6)

Conditions	Yield
With tricyclohexylphosphine[1,3-bis(2,4,6-trimethylphenyl)-4,5-dihydroimidazol-2-ylidine][benzylidene]ruthenium(II) dichloride In dichloromethane for 2h; Reflux; Inert atmosphere;	100%

5-Hexen-1-ol (821-41-0) + p-toluenesulfonyl iodide (1950-78-3) → 5-iodo-6-(para-toluenesulfonyl)hexan-1-ol (141246-59-5)

Conditions	Yield
In acetonitrile Ambient temperature;	99%
In acetonitrile Mechanism; Ambient temperature; other alkenols;

5-Hexen-1-ol (821-41-0) → 4-(oxiran-2-yl)butyl acetate (21915-57-1)

Conditions	Yield
With [2-percarboxyethyl] functionalized silica In dichloromethane at 20℃; for 1h;	99%
With 3-chloro-benzenecarboperoxoic acid In dichloromethane at 0 - 20℃;	86%
With 3-chloro-benzenecarboperoxoic acid In water for 2h; pH=7.0;	85%

5-Hexen-1-ol (821-41-0) + 1,1,1,3,3,3-hexamethyl-disilazane (999-97-3) → (5-hexenyloxy)trimethylsilane (71138-63-1)

Conditions	Yield
With N-Bromosuccinimide In neat (no solvent) at 50℃; for 1.5h;	99%
at 20℃; immediate distillation; Yield given;

5-Hexen-1-ol (821-41-0) + 1-iodoheptadecafluorooctane (507-63-1) → rac-7,7,8,8,9,9,10,10,11,11,12,12,13,13,14,14,14-Heptadecafluoro-3-iodotetradecanol

Conditions	Yield
With C30H26N6Ru(2+)*2Cl(1-); sodium L-ascorbate In methanol; acetonitrile for 0.5h; Inert atmosphere; Irradiation;	99%
With 2,6-dimethylpyridine In acetonitrile at 20℃; for 12h; Catalytic behavior; Reagent/catalyst; Wavelength; Irradiation; Inert atmosphere; Sealed tube;	93%
With copper diacetate; Piperonyl butoxide In methanol for 48h; Ambient temperature;	90%

5-Hexen-1-ol (821-41-0) + allyl bromomethanesulfonamide (246540-39-6) → N-allyl-C-bromo-N-hex-5-enyl-methanesulfonamide (246540-42-1)

Conditions	Yield
With triphenylphosphine; diethylazodicarboxylate In tetrahydrofuran; toluene for 0.5h; Alkylation; Mitsunobu reaction;	99%
With triphenylphosphine; diethylazodicarboxylate In tetrahydrofuran; toluene Alkylation;	99%

5-Hexen-1-ol (821-41-0) + 1,3-bisphosphinopropane (3619-91-8) → 1,3-bis[di(6-hydroxyhexyl)phosphino]propane (288145-88-0)

Conditions	Yield
at 20℃; for 10h; Addition; Irradiation;	99%

5-Hexen-1-ol (821-41-0) + 3-(4-(allyloxy)phenyl)propanoic acid (6522-02-7) → 3-(4-allyloxy-phenyl)-propionic acid hex-5-enyl ester (515835-01-5)

Conditions	Yield
With dmap; dicyclohexyl-carbodiimide In dichloromethane at 0℃;	99%

5-Hexen-1-ol (821-41-0) + n-pentanethiol (110-66-7) → 6-(pentylsulfanyl)hexan-1-ol

Conditions	Yield
With 9-borabicyclo[3.3.1]nonane dimer In tetrahydrofuran at 20℃; for 3h;	99%

5-Hexen-1-ol (821-41-0) + (R)-1-(trimethylsilyl)-4-methyl-5-(tert-butyldiphenylsilyloxy)-1-pentyne → (E)-(R)-10-(Diphenyl-trimethylsilanyl-methoxy)-9-methyl-7-[1-trimethylsilanyl-meth-(Z)-ylidene]-dec-4-en-1-ol

Conditions	Yield
cyclopentadienylruthenium(II) trisacetonitrile hexafluorophosphate In acetone at 20℃; for 4h; Alder-ene reaction;	99%

5-Hexen-1-ol (821-41-0) + triisopropylsilyl chloride (13154-24-0) → (hex-5-en-1-yloxy)triisopropylsilane (173470-74-1)

Conditions	Yield
With 1H-imidazole In dichloromethane at 20℃; for 1h;	99%
With 1H-imidazole In dichloromethane at 0 - 20℃; Inert atmosphere;	94%
With dmap; triethylamine In tetrahydrofuran at 20℃;	90%
Stage #1: 5-Hexen-1-ol With 1H-imidazole; dmap In dichloromethane at 0℃; for 0.0833333h; Inert atmosphere; Stage #2: triisopropylsilyl chloride In dichloromethane at 0 - 20℃; for 3h; Inert atmosphere;	87%
With dmap; triethylamine for 72h;	83%

5-Hexen-1-ol (821-41-0) + 4-nitro-benzoyl chloride (122-04-3) → hex-5-enyl 4-nitrobenzoate (6835-50-3)

Conditions	Yield
With triethylamine In dichloromethane at 0 - 20℃; for 21h;	99%
With triethylamine In dichloromethane at 0 - 20℃; for 21h;	99%
With triethylamine In dichloromethane at 0 - 20℃; for 21h;	99%

5-Hexen-1-ol (821-41-0) + tris-(trimethylsilyl)silane (1873-77-4) → 6-[tris(trimethylsilyl)]-1-hexanol (1001067-36-2)

Conditions	Yield
With 1,1'-azobis(1-cyanocyclohexanenitrile) In water at 100℃; for 4h;	99%

5-Hexen-1-ol (821-41-0) + 2,2,4,4-tetramethyl-1,3-oxazolidine-3-carbonyl chloride (146176-60-5) → hex-5-enyl 2,2,4,4-tetramethyl-1,3-oxazolidine-3-carboxylate (152857-60-8)

Conditions	Yield
Stage #1: 5-Hexen-1-ol With sodium hydride In tetrahydrofuran; mineral oil at 20℃; for 0.5h; Stage #2: 2,2,4,4-tetramethyl-1,3-oxazolidine-3-carbonyl chloride In tetrahydrofuran; mineral oil at 80℃;	99%

5-Hexen-1-ol (821-41-0) + ethyl bromofluoroacetate (401-55-8) → ethyl 4-bromo-2-fluoro-8-hydroxyoctanoate (1277181-09-5)

Conditions	Yield
With Ir[(dF(CF3)ppy)2(dtbbpy)]PF6; lithium bromide In water; N,N-dimethyl-formamide for 24h; Visible-light irradiation; Inert atmosphere;	99%
With C30H26N6Ru(2+)*2Cl(1-); lithium bromide In dimethyl sulfoxide for 24h; Inert atmosphere; Irradiation;	99%
With 2,6-diiodo-4,4-difluoro-1,3,5,7-tetramethyl-8-phenyl-4-bora-3a,4a-diaza-s-indacene; sodium L-ascorbate; lithium bromide In water; N,N-dimethyl-formamide at 20℃; for 20h; Inert atmosphere; Schlenk technique; Irradiation;	89%
With 7-(diethylamino)-3-(thiophen-2-yl)-2H-chromen-2-one In ethanol; water at 20℃; for 36h; Schlenk technique; Inert atmosphere; Irradiation;	65%
With 2,6-dimethylpyridine; 4-methoxy-benzaldehyde In acetonitrile at 25℃; for 48h; Schlenk technique; Inert atmosphere; Sealed tube; Irradiation;	60%

5-Hexen-1-ol (821-41-0) + Diethyl 2-bromomalonate (685-87-0) → diethyl 2-(2-bromo-6-hydroxyhexyl)malonate (1277180-98-9)

Conditions	Yield
With Ir[(dF(CF3)ppy)2(dtbbpy)]PF6; lithium bromide In water; N,N-dimethyl-formamide for 24h; Visible-light irradiation; Inert atmosphere;	99%
With [4,4’-bis(1,1-dimethylethyl)-2,2’-bipyridine-N1,N1‘]bis [3,5-difluoro-2-[5-(trifluoromethyl)-2-pyridinyl-N]phenyl-C]iridium(III) hexafluorophosphate; lithium bromide In water; N,N-dimethyl-formamide Inert atmosphere; Irradiation;	99%
With 2,6-dimethylpyridine; 4-methoxy-benzaldehyde In acetonitrile at 25℃; for 26h; Schlenk technique; Inert atmosphere; Sealed tube; Irradiation;	99%

5-Hexen-1-ol (821-41-0) + acetyl chloride (75-36-5) → oct-7-enoic acid (18719-24-9)

Conditions	Yield
With triethylamine In dichloromethane at 20℃; for 18h;	99%

Upstream product

• 18420-41-2 2-(chloromethyl)tetrahydropyran 
• 27925-22-0 6,8-dioxa-bicyclo[3.2.1]oct-2-ene 
• 629-11-8 1,6-hexanediol 
• 18922-04-8 6-iodohex-1-ene 
• 1577-22-6 5-hexenoic acid 
• 102067-72-1 3-chloro-2-vinyltetrahydrofuran 
• 629-03-8 1 ,6-dibromohexane 
• 629-09-4 1,6-diiodohexane 
• 6294-17-3 1-bromo-6-chlorohexane 
• 2206-26-0 [D₃]acetonitrile 
• 34683-73-3 1-chloro-6-iodohexane 
• 49639-25-0 phenyl(6-hexanol)sulfoxide 
• 2396-80-7 methyl 5-hexenoate 
• 286-20-4 cyclohexane-1,2-epoxide 

Downstream Products

• 75526-73-7 (2-(phenylselanylmethyl)oxane) 
• 127047-12-5 5-phenyl-hex-5-en-1-ol 
• 17924-66-2 phenyl-6 hexene-5 ol-1 (E) 
• 16387-61-4 6-phenylhexanal 
• 127047-11-4 5-phenylhexanal 
• 157099-67-7 hex-5-enyl 2-iodobenzoate 
• 111017-46-0 2-<<(4-methoxyphenyl)thio>methyl>tetrahydro-2H-pyran 
• 115022-77-0 C₁₃H₁₈Cl₂O₂Te 
• 141246-59-5 5-iodo-6-(para-toluenesulfonyl)hexan-1-ol 
• 117038-90-1 2-(4-tert-butylphenylthiomethyl)tetrahydropyran 
• 5440-83-5 oxane-2-yl-methyl acetate 
• 103348-78-3 2-(4-methoxyphenyl)hexahydrooxepine 
• 113345-04-3 2-<<(p-methoxyphenyl)telluro>methyl>tetrahydropyran 
• 113345-06-5 2,6-diacetoxyhexyl p-methylphenyl telluride 

Relevant articles and documents

Nickel-Catalyzed Formal Aminocarbonylation of Unactivated Alkyl Iodides with Isocyanides

Herein, we disclose a Ni-catalyzed formal aminocarbonylation of primary and secondary unactivated aliphatic iodides with isocyanides to afford alkyl amide, which proceeds via the selective monomigratory insertion of isocyanides with alkyl iodides, subsequent β-hydride elimination, and hydrolysis process. The reaction features wide functional group tolerance under mild conditions. Additionally, the selective, one-pot hydrolysis of reaction mixture under acid conditions allows for expedient synthesis of the corresponding alkyl carboxylic acid.

Palladium-Catalyzed Selective Reduction of Carbonyl Compounds

Two new examples of structurally characterized β-diketiminate analogues i.e., conjugated bis-guanidinate (CBG) supported palladium(II) complexes, [LPdX]2; [L= {(ArHN)(ArN)–C=N–C=(NAr)(NHAr)}; Ar = 2,6-Et2-C6H3], X = Cl (1), Br (2) have been reported. The synthesis of complexes 1–2 was achieved by two methods. Method A involves deprotonation of LH by nBuLi followed by the treatment of LLi (insitu formed) with PdCl2 in THF, which afforded compound 1 in good yield (75 %). In Method B, the reaction between free LH and PdX2 (X = Cl or Br) in THF allowed the formation of complexes 1 (Yield 73 %) and 2 (Yield 52 %), respectively. Moreover, these complexes were characterized thoroughly by several spectroscopic techniques (1H, 13C NMR, UV/Vis, FT-IR, and HRMS), including single-crystal X-ray structural and elemental analyses. In addition, we tested the catalytic activity of these complexes 1–2 for the hydroboration of carbonyl compounds with pinacolborane (HBpin). We observed that compound 1 exhibits superior catalytic activity when compared to 2. Compound 1 efficiently catalyzes various aldehydes and ketones under solvent-free conditions. Furthermore, both inter- and intramolecular chemoselectivity hydroboration of aldehydes over other functionalities have been established.