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14774-37-9,MFCD00457804
Catalog No.:AA001F2S

14774-37-9 | Tetrahydropyran-4-methanol

Pack Size
Purity
Availability
Price(USD)
Quantity
  
1g
98%
in stock  
$6.00   $4.00
- +
5g
98%
in stock  
$7.00   $5.00
- +
10g
98%
in stock  
$13.00   $9.00
- +
25g
98%
in stock  
$31.00   $22.00
- +
100g
98%
in stock  
$113.00   $79.00
- +
500g
98%
in stock  
$562.00   $394.00
- +
  • Technical Information
  • Properties
  • Upstream Synthesis Route
  • Downstream Synthesis Route
  • Literature
  • Request for Quotation
  • Download SDS
  • Technical Information
  • Properties
  • Upstream Synthesis Route
  • Downstream Synthesis Route
  • Literature
Technical Information
Catalog Number:
AA001F2S
Chemical Name:
Tetrahydropyran-4-methanol
CAS Number:
14774-37-9
Molecular Formula:
C6H12O2
Molecular Weight:
116.1583
MDL Number:
MFCD00457804
SMILES:
OCC1CCOCC1
Properties
Properties
 
BP:
105-110 °C at 20 Torr  
Form:
Liquid  
Refractive Index:
1.46  
Storage:
Room Temperature;  

Computed Properties
 
Complexity:
57.5  
Covalently-Bonded Unit Count:
1  
Heavy Atom Count:
8  
Hydrogen Bond Acceptor Count:
2  
Hydrogen Bond Donor Count:
1  
Rotatable Bond Count:
1  
XLogP3:
0.1  

Upstream Synthesis Route

[1]Patent:WO2006/16178,2006,A1,.Locationinpatent:Page/Pagecolumn11

[2]Patent:WO2007/51845,2007,A1,.Locationinpatent:Page/Pagecolumn12

[3]Patent:WO2006/16174,2006,A1,.Locationinpatent:Page/Pagecolumn13

[4]Patent:US2010/76029,2010,A1,.Locationinpatent:Page/Pagecolumn31

[5]Patent:US2011/71196,2011,A1,.Locationinpatent:Page/Pagecolumn14

[6]Patent:WO2011/88015,2011,A1,.Locationinpatent:Page/Pagecolumn38

[7]Patent:WO2011/109324,2011,A1,.Locationinpatent:Page/Pagecolumn23

[8]Patent:WO2012/12307,2012,A1,.Locationinpatent:Page/Pagecolumn33-34

[9]Patent:US8865744,2014,B1,.Locationinpatent:Page/Pagecolumn22

[10]Patent:WO2014/184327,2014,A1,.Locationinpatent:Page/Pagecolumn24

[11]Patent:EP3333157,2018,A1,.Locationinpatent:Paragraph0268;0269

[12]BioorganicandMedicinalChemistryLetters,2011,vol.21,#8,p.2541-2546

[13]Patent:WO2015/66413,2015,A1,.Locationinpatent:Page/Pagecolumn109

[14]JournaloftheAmericanChemicalSociety,2012,vol.134,#16,p.6928-6931

[15]JournaloftheAmericanChemicalSociety,1993,vol.115,#18,p.8401-8408

[16]Patent:US2009/163512,2009,A1,.Locationinpatent:Page/Pagecolumn79

[17]Patent:WO2009/97578,2009,A1,.Locationinpatent:Page/Pagecolumn218

[18]Patent:WO2015/10078,2015,A2,.Locationinpatent:Paragraph0574;0575

[19]Patent:WO2015/48281,2015,A1,.Locationinpatent:Paragraph00385;00386

[20]Patent:WO2015/200650,2015,A1,.Locationinpatent:Paragraph0613-0615

[21]Patent:WO2008/101867,2008,A1,.Locationinpatent:Page/Pagecolumn107

[1]HelveticaChimicaActa,2003,vol.86,#3,p.865-893

[2]Patent:US2005/70712,2005,A1,.Locationinpatent:Page/Pagecolumn40

[3]Patent:US2005/171131,2005,A1,.Locationinpatent:Page/Pagecolumn39

[4]JournaloftheAmericanChemicalSociety,1950,vol.72,p.5512,5514

[5]JournaloftheAmericanChemicalSociety,1993,vol.115,#18,p.8401-8408

[6]Patent:US5852195,1998,A,

[7]AngewandteChemie-InternationalEdition,2015,vol.54,#36,p.10596-10599

[8]Angew.Chem.,2015,vol.127,p.10742-10745,4

[9]ACSCatalysis,2018,vol.8,#2,p.785-789

[10]ChineseJournalofCatalysis,2018,vol.39,#2,p.250-257

[11]Patent:CN108314680,2018,A,.Locationinpatent:Paragraph0691-0695

[1]Patent:US2014/275043,2014,A1,.Locationinpatent:Paragraph0415;0416

[2]JustusLiebigsAnnalenderChemie,1936,vol.525,p.292,294

[3]Patent:WO2010/96371,2010,A2,.Locationinpatent:Page/Pagecolumn156

[1]Patent:EP475895,1992,A1,

[1]Patent:US5391771,1995,A,

Downstream Synthesis Route

[1]HelveticaChimicaActa,2003,vol.86,p.865-893

[2]Patent:US2005/70712,2005,A1.Locationinpatent:Page/Pagecolumn40

[3]Patent:US2005/171131,2005,A1.Locationinpatent:Page/Pagecolumn39

[4]JournaloftheAmericanChemicalSociety,1950,vol.72,p.5512,5514

[5]JournaloftheAmericanChemicalSociety,1993,vol.115,p.8401-8408

[6]Patent:US5852195,1998,A

[7]AngewandteChemie-InternationalEdition,2015,vol.54,p.10596-10599    Angew.Chem.,2015,vol.127,p.10742-10745,4

[8]ACSCatalysis,2018,vol.8,p.785-789

[9]CuihuaXuebao/ChineseJournalofCatalysis,2018,vol.39,p.250-257

[10]Patent:CN108314680,2018,A.Locationinpatent:Paragraph0691-0695

[1]Patent:US2014/275043,2014,A1.Locationinpatent:Paragraph0415;0416

[2]JustusLiebigsAnnalenderChemie,1936,vol.525,p.292,294

[3]Patent:WO2010/96371,2010,A2.Locationinpatent:Page/Pagecolumn156

[1]Patent:US2010/76029,2010,A1.Locationinpatent:Page/Pagecolumn31

[2]Patent:US2011/71196,2011,A1.Locationinpatent:Page/Pagecolumn14-15

[3]Patent:WO2011/88015,2011,A1.Locationinpatent:Page/Pagecolumn38-39

[4]Patent:WO2011/109324,2011,A1.Locationinpatent:Page/Pagecolumn23-24

[5]Patent:WO2012/12307,2012,A1.Locationinpatent:Page/Pagecolumn34

[6]Patent:US8865744,2014,B1.Locationinpatent:Page/Pagecolumn22;23

[7]Patent:WO2014/184327,2014,A1.Locationinpatent:Page/Pagecolumn24

[8]BioorganicandMedicinalChemistryLetters,2011,vol.21,p.2541-2546

[9]Patent:WO2013/128378,2013,A1.Locationinpatent:Page/Pagecolumn101;102

[10]Patent:US2014/275043,2014,A1.Locationinpatent:Paragraph0415;0417

[11]OrganicProcessResearchandDevelopment,2019,vol.23,p.1396-1406

[12]Patent:US2010/69348,2010,A1.Locationinpatent:Page/Pagecolumn57

[13]Patent:US2003/225283,2003,A1.Locationinpatent:Page26-27

[14]AngewandteChemie-InternationalEdition,2018,vol.57,p.2712-2715    Angew.Chem.,2018,vol.130,p.2742-2745,4

[15]Patent:EP2881394,2015,A1.Locationinpatent:Paragraph0339

[16]Patent:WO2018/154466,2018,A1.Locationinpatent:Paragraph00415;00417;00418

[17]Patent:WO2015/66413,2015,A1.Locationinpatent:Page/Pagecolumn109

[18]JournaloftheAmericanChemicalSociety,1993,vol.115,p.8401-8408

[19]Patent:US2008/58335,2008,A1.Locationinpatent:Page/Pagecolumn46

[20]Patent:US2008/207598,2008,A1.Locationinpatent:Page/Pagecolumn7

[21]Patent:US2009/163512,2009,A1.Locationinpatent:Page/Pagecolumn79

[22]Patent:WO2009/67613,2009,A1.Locationinpatent:Page/Pagecolumn118

[23]Patent:WO2007/23143,2007,A1.Locationinpatent:Page/Pagecolumn14

[24]Patent:US2007/82931,2007,A1.Locationinpatent:Page/Pagecolumn7

[1]Patent:WO2006/16178,2006,A1.Locationinpatent:Page/Pagecolumn11

[2]Patent:WO2007/51845,2007,A1.Locationinpatent:Page/Pagecolumn12

[3]Patent:WO2006/16174,2006,A1.Locationinpatent:Page/Pagecolumn13

[4]Patent:US2010/76029,2010,A1.Locationinpatent:Page/Pagecolumn31

[5]Patent:US2011/71196,2011,A1.Locationinpatent:Page/Pagecolumn14

[6]Patent:WO2011/88015,2011,A1.Locationinpatent:Page/Pagecolumn38

[7]Patent:WO2011/109324,2011,A1.Locationinpatent:Page/Pagecolumn23

[8]Patent:WO2012/12307,2012,A1.Locationinpatent:Page/Pagecolumn33-34

[9]Patent:US8865744,2014,B1.Locationinpatent:Page/Pagecolumn22

[10]Patent:WO2014/184327,2014,A1.Locationinpatent:Page/Pagecolumn24

[11]Patent:EP3333157,2018,A1.Locationinpatent:Paragraph0268;0269

[12]BioorganicandMedicinalChemistryLetters,2011,vol.21,p.2541-2546

[13]Patent:WO2015/66413,2015,A1.Locationinpatent:Page/Pagecolumn109

[14]JournaloftheAmericanChemicalSociety,2012,vol.134,p.6928-6931

[15]JournaloftheAmericanChemicalSociety,1993,vol.115,p.8401-8408

[16]Patent:US2009/163512,2009,A1.Locationinpatent:Page/Pagecolumn79

[17]Patent:WO2009/97578,2009,A1.Locationinpatent:Page/Pagecolumn218

[18]Patent:WO2015/10078,2015,A2.Locationinpatent:Paragraph0574;0575

[19]Patent:WO2015/48281,2015,A1.Locationinpatent:Paragraph00385;00386

[20]Patent:WO2015/200650,2015,A1.Locationinpatent:Paragraph0613-0615

[21]Patent:WO2008/101867,2008,A1.Locationinpatent:Page/Pagecolumn107

[1]JustusLiebigsAnnalenderChemie,1937,vol.532,p.80    Chem.Abstr.,1940,p.4396

Literature
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