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molecular formula C10H22NaO B8452104 Sodium t-amyl oxide

Sodium t-amyl oxide

Cat. No. B8452104
M. Wt: 181.27 g/mol
InChI Key: UIIJZQVROQHLAP-UHFFFAOYSA-N
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Patent
US08592498B2

Procedure details

Tert-amyl alcohol was sent as a first fluid from the center at a ratio of supply pressure/back pressure of 0.40 MPa/0.25 MPa, a rotation speed of 1000 rpm, and a sending temperature of 120° C., and sodium was introduced as a second fluid at 103° C. into a space between the processing surfaces at 10 mL/min. The first fluid and the second fluid were mixed in a thin film fluid, and then a solution obtained after processing was discharged from the space between the processing surfaces at 19 mL/min. As a result, a solution of sodium t-amyl oxide and t-amyl alcohol was obtained.
Quantity
0 (± 1) mol
Type
reactant
Reaction Step One
Quantity
0 (± 1) mol
Type
reactant
Reaction Step Two

Identifiers

REACTION_CXSMILES
[C:1]([OH:6])([CH2:4][CH3:5])([CH3:3])[CH3:2].[Na:7]>>[C:1]([O:6][C:1]([CH2:4][CH3:5])([CH3:3])[CH3:2])([CH2:4][CH3:5])([CH3:3])[CH3:2].[Na:7].[C:1]([OH:6])([CH2:4][CH3:5])([CH3:3])[CH3:2] |f:2.3,^1:6,18|

Inputs

Step One
Name
Quantity
0 (± 1) mol
Type
reactant
Smiles
C(C)(C)(CC)O
Step Two
Name
Quantity
0 (± 1) mol
Type
reactant
Smiles
[Na]

Conditions

Other
Conditions are dynamic
1
Details
See reaction.notes.procedure_details.

Workups

ADDITION
Type
ADDITION
Details
The first fluid and the second fluid were mixed in a thin film fluid
CUSTOM
Type
CUSTOM
Details
a solution obtained after processing

Outcomes

Product
Name
Type
product
Smiles
C(C)(C)(CC)OC(C)(C)CC.[Na]
Name
Type
product
Smiles
C(C)(C)(CC)O

Source

Source
Open Reaction Database (ORD)
Description
The Open Reaction Database (ORD) is an open-access schema and infrastructure for structuring and sharing organic reaction data, including a centralized data repository. The ORD schema supports conventional and emerging technologies, from benchtop reactions to automated high-throughput experiments and flow chemistry. Our vision is that a consistent data representation and infrastructure to support data sharing will enable downstream applications that will greatly improve the state of the art with respect to computer-aided synthesis planning, reaction prediction, and other predictive chemistry tasks.
Patent
US08592498B2

Procedure details

Tert-amyl alcohol was sent as a first fluid from the center at a ratio of supply pressure/back pressure of 0.40 MPa/0.25 MPa, a rotation speed of 1000 rpm, and a sending temperature of 120° C., and sodium was introduced as a second fluid at 103° C. into a space between the processing surfaces at 10 mL/min. The first fluid and the second fluid were mixed in a thin film fluid, and then a solution obtained after processing was discharged from the space between the processing surfaces at 19 mL/min. As a result, a solution of sodium t-amyl oxide and t-amyl alcohol was obtained.
Quantity
0 (± 1) mol
Type
reactant
Reaction Step One
Quantity
0 (± 1) mol
Type
reactant
Reaction Step Two

Identifiers

REACTION_CXSMILES
[C:1]([OH:6])([CH2:4][CH3:5])([CH3:3])[CH3:2].[Na:7]>>[C:1]([O:6][C:1]([CH2:4][CH3:5])([CH3:3])[CH3:2])([CH2:4][CH3:5])([CH3:3])[CH3:2].[Na:7].[C:1]([OH:6])([CH2:4][CH3:5])([CH3:3])[CH3:2] |f:2.3,^1:6,18|

Inputs

Step One
Name
Quantity
0 (± 1) mol
Type
reactant
Smiles
C(C)(C)(CC)O
Step Two
Name
Quantity
0 (± 1) mol
Type
reactant
Smiles
[Na]

Conditions

Other
Conditions are dynamic
1
Details
See reaction.notes.procedure_details.

Workups

ADDITION
Type
ADDITION
Details
The first fluid and the second fluid were mixed in a thin film fluid
CUSTOM
Type
CUSTOM
Details
a solution obtained after processing

Outcomes

Product
Name
Type
product
Smiles
C(C)(C)(CC)OC(C)(C)CC.[Na]
Name
Type
product
Smiles
C(C)(C)(CC)O

Source

Source
Open Reaction Database (ORD)
Description
The Open Reaction Database (ORD) is an open-access schema and infrastructure for structuring and sharing organic reaction data, including a centralized data repository. The ORD schema supports conventional and emerging technologies, from benchtop reactions to automated high-throughput experiments and flow chemistry. Our vision is that a consistent data representation and infrastructure to support data sharing will enable downstream applications that will greatly improve the state of the art with respect to computer-aided synthesis planning, reaction prediction, and other predictive chemistry tasks.
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