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[ CAS No. 91025-05-7 ] {[proInfo.proName]}

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3d Animation Molecule Structure of 91025-05-7
Chemical Structure| 91025-05-7
Chemical Structure| 91025-05-7
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Product Details of [ 91025-05-7 ]

CAS No. :91025-05-7 MDL No. :MFCD11110362
Formula : C19H14N2O2 Boiling Point : -
Linear Structure Formula :- InChI Key :FPOAXSRJSZTTDO-UHFFFAOYSA-N
M.W : 302.33 Pubchem ID :289179
Synonyms :

Calculated chemistry of [ 91025-05-7 ]      Expand+

Physicochemical Properties

Num. heavy atoms : 23
Num. arom. heavy atoms : 18
Fraction Csp3 : 0.0
Num. rotatable bonds : 5
Num. H-bond acceptors : 3.0
Num. H-bond donors : 1.0
Molar Refractivity : 88.33
TPSA : 59.06 Ų

Pharmacokinetics

GI absorption : High
BBB permeant : Yes
P-gp substrate : No
CYP1A2 inhibitor : Yes
CYP2C19 inhibitor : Yes
CYP2C9 inhibitor : Yes
CYP2D6 inhibitor : Yes
CYP3A4 inhibitor : Yes
Log Kp (skin permeation) : -5.37 cm/s

Lipophilicity

Log Po/w (iLOGP) : 2.15
Log Po/w (XLOGP3) : 3.91
Log Po/w (WLOGP) : 3.37
Log Po/w (MLOGP) : 2.07
Log Po/w (SILICOS-IT) : 3.55
Consensus Log Po/w : 3.01

Druglikeness

Lipinski : 0.0
Ghose : None
Veber : 0.0
Egan : 0.0
Muegge : 0.0
Bioavailability Score : 0.55

Water Solubility

Log S (ESOL) : -4.43
Solubility : 0.0113 mg/ml ; 0.0000374 mol/l
Class : Moderately soluble
Log S (Ali) : -4.85
Solubility : 0.00428 mg/ml ; 0.0000142 mol/l
Class : Moderately soluble
Log S (SILICOS-IT) : -7.0
Solubility : 0.0000305 mg/ml ; 0.000000101 mol/l
Class : Poorly soluble

Medicinal Chemistry

PAINS : 0.0 alert
Brenk : 0.0 alert
Leadlikeness : 1.0
Synthetic accessibility : 2.22

Safety of [ 91025-05-7 ]

Signal Word:Warning Class:N/A
Precautionary Statements:P261-P305+P351+P338 UN#:N/A
Hazard Statements:H302-H315-H319 Packing Group:N/A
GHS Pictogram:

Application In Synthesis of [ 91025-05-7 ]

* All experimental methods are cited from the reference, please refer to the original source for details. We do not guarantee the accuracy of the content in the reference.

  • Upstream synthesis route of [ 91025-05-7 ]

[ 91025-05-7 ] Synthesis Path-Upstream   1~2

  • 1
  • [ 91025-04-6 ]
  • [ 91025-05-7 ]
Reference: [1] Journal of the Chemical Society, 1953, p. 3440,3441
  • 2
  • [ 91025-03-5 ]
  • [ 91025-05-7 ]
Reference: [1] Journal of the Chemical Society, 1953, p. 3440,3441
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Technical Information

• 1,4-Addition of an Amine to a Conjugated Enone • 1,4-Addition of an Amine to a Conjugated Enone • 1,4-Additions of Organometallic Reagents • Acetal Formation • Acid-Catalyzed α -Halogenation of Ketones • Acyl Group Substitution • Add Hydrogen Cyanide to Aldehydes and Ketones to Produce Alcohols • Alcohol Syntheses from Aldehydes, Ketones and Organometallics • Aldehydes and Ketones Form Hemiacetals Reversibly • Aldehydes May Made by Terminal Alkynes Though Hydroboration-oxidation • Aldol Addition • Aldol Condensation • Alkenes React with Ozone to Produce Carbonyl Compounds • Alkylation of Aldehydes or Ketones • Alkylation of Enolate Ions • Amide Hydrolysis • Amide Hydrolysis • Amides Can Be Converted into Aldehydes • Amine Synthesis from Nitriles • Amine Synthesis from Nitriles • Amines Convert Acyl Chlorides into Amides • Amines Convert Esters into Amides • Azide Reduction by LiAlH4 • Azide Reduction by LiAlH4 • Baeyer-Villiger Oxidation • Barbier Coupling Reaction • Base-Catalyzed Hydration of α,β -Unsaturated Aldehydes and Ketones • Basicity of Amines • Baylis-Hillman Reaction • Benzylic Oxidation • Birch Reduction • Birch Reduction of Benzene • Blanc Chloromethylation • Bucherer-Bergs Reaction • Buchwald-Hartwig C-N Bond and C-O Bond Formation Reactions • Chan-Lam Coupling Reaction • Chichibabin Reaction • Claisen Condensations Produce β-Dicarbonyl Compounds • Claisen Condensations Produce β-Dicarbonyl Compounds • Clemmensen Reduction • Complete Benzylic Oxidations of Alkyl Chains • Complete Benzylic Oxidations of Alkyl Chains • Complex Metal Hydride Reductions • Conjugated Enone Takes Part in 1,4-Additions • Conversion of Amino with Nitro • Corey-Bakshi-Shibata (CBS) Reduction • Corey-Chaykovsky Reaction • Cyanohydrins can be Convert to Carbonyl Compounds under Basic Conditions • Decarboxylation of 3-Ketoacids Yields Ketones • Decarboxylation of Substituted Propanedioic • Deoxygenation of the Carbonyl Group • Deprotonation of a Carbonyl Compound at the α -Carbon • Deprotonation of Methylbenzene • Diazotization Reaction • DIBAL Attack Nitriles to Give Ketones • Diorganocuprates Convert Acyl Chlorides into Ketones • Directing Electron-Donating Effects of Alkyl • Dithioacetal Formation • Electrophilic Chloromethylation of Polystyrene • Enamine Formation • Enamines Can Be Used to Prepare Alkylated Aldehydes • Enol-Keto Equilibration • Enolate Ions Are Protonated to Form ketones • Exclusive 1,4-Addition of a Lithium Organocuprate • Fischer Indole Synthesis • Formation of an Amide from an Amine and a Carboxylic Acid • Formation of an Amide from an Amine and a Carboxylic Acid • Friedel-Crafts Alkylation of Benzene with Acyl Chlorides • Friedel-Crafts Alkylation of Benzene with Carboxylic Anhydrides • Friedel-Crafts Alkylation Using Alkenes • Friedel-Crafts Alkylations of Benzene Using Alkenes • Friedel-Crafts Alkylations Using Alcohols • Friedel-Crafts Reaction • Furan Hydrolyzes to Dicarbonyl Compounds • Geminal Diols and Acetals Can Be Hydrolyzed to Carbonyl Compounds • Grignard Reaction • Groups that Withdraw Electrons Inductively Are Deactivating and Meta Directing • Halogenation of Benzene • Hantzsch Pyridine Synthesis • Hemiaminal Formation from Amines and Aldehydes or Ketones • Hemiaminal Formation from Amines and Aldehydes or Ketones • Henry Nitroaldol Reaction • HIO4 Oxidatively Degrades Vicinal Diols to Give Carbonyl Derivatives • Hofmann Elimination • Hofmann Rearrangement • Horner-Wadsworth-Emmons Reaction • Hydration of the Carbonyl Group • Hydride Reductions • Hydride Reductions of Aldehydes and Ketones to Alcohols • Hydride Reductions of Aldehydes and Ketones to Alcohols • Hydrogenation by Palladium on Carbon Gives the Saturated Carbonyl Compound • Hydrogenation to Cyclohexane • Hydrogenolysis of Benzyl Ether • Hydrolysis of Imines to Aldehydes and Ketones • Imine Formation from Amines and Aldehydes or Ketones • Isomerization of β, γ -Unsaturated Carbonyl Compounds • Ketone Synthesis from Nitriles • Ketones Undergo Mixed Claisen Reactions to Form β-Dicarbonyl Compounds • Lawesson's Reagent • Leuckart-Wallach Reaction • Lithium Organocuprate may Add to the α ,β -Unsaturated Carbonyl Function in 1,4-Fashion • Mannich Reaction • Mannich Reaction • McMurry Coupling • Meerwein-Ponndorf-Verley Reduction • Mercury Ions Catalyze Alkynes to Ketones • Methylation of Ammonia • Methylation of Ammonia • Michael Addition • Nitration of Benzene • Nitrosation of Amines • Nucleophilic Aromatic Substitution • Nucleophilic Aromatic Substitution with Amine • Oxidation of Alcohols to Carbonyl Compounds • Oxidation of Alkyl-substituted Benzenes Gives Aromatic Ketones • Passerini Reaction • Paternò-Büchi Reaction • Peptide Bond Formation with DCC • Petasis Reaction • Peterson Olefination • Phenylhydrazone and Phenylosazone Formation • Pictet-Spengler Tetrahydroisoquinoline Synthesis • Preparation of Aldehydes and Ketones • Preparation of Alkylbenzene • Preparation of Amines • Preparation of LDA • Prins Reaction • Pyridines React with Grignard or Organolithium Reagents • Pyrroles, Furans, and Thiophenes are Prepared from γ-Dicarbonyl Compounds • Reactions of Aldehydes and Ketones • Reactions of Amines • Reactions of Benzene and Substituted Benzenes • Reduction of an Amide to an Amine • Reduction of an Amide to an Amine • Reductive Amination • Reductive Amination • Reductive Removal of a Diazonium Group • Reformatsky Reaction • Reverse Sulfonation——Hydrolysis • Ring Opening of Azacyclopropanes • Ring Opening of Azacyclopropanes • Ring Opening of Oxacyclobutanes • Robinson Annulation • Schlosser Modification of the Wittig Reaction • Schmidt Reaction • Specialized Acylation Reagents-Carbodiimides and Related Reagents • Specialized Acylation Reagents-Ketenes • Specialized Acylation Reagents-Vilsmeier Reagent • Stobbe Condensation • Strecker Synthesis • Sulfonation of Benzene • Synthesis of 2-Amino Nitriles • Tebbe Olefination • The Acylium Ion Attack Benzene to Form Phenyl Ketones • The Claisen Rearrangement • The Nitro Group Conver to the Amino Function • The Reaction of Alkynyl Anions with Carbonyl Derivatives • The Wittig Reaction • Thiazolium Salt Catalysis in Aldehyde Coupling • Thiazolium Salts Catalyze Aldehyde Coupling • Thiazolium Salts Catalyze Aldehyde Coupling • Ugi Reaction • Use 1,3-dithiane to Prepare of α-Hydroxyketones • Vilsmeier-Haack Reaction • Wittig Reaction • Wolff-Kishner Reduction
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