|
137. |
Controlled C-5 Chlorination and Dichlorohydrin Formation of Uracil Ring with HCl/DMF/Oxone® System |
|
136. |
Facile Synthesis of 5-Alkylidene-1,5-dihydropyrrol-2-ones from Morita-Baylis-Hillman Adducts |
|
135. |
Facile Regiocontrolled Three-Step Synthesis of Poly-Substituted Furans, Pyrroles, and Thiophenes: Consecutive Michael Addition of Methyl Cyanoacetate to α,β-Enone, CuI-Mediated Aerobic Oxidation, and Acid-Catalyzed Paal-Knorr Synthesis |
|
134. |
Facile One-Pot Synthesis of Cinnamamides from Aromatic Aldehydes and Acetonitrile with Me3SiOK |
|
133. |
Base-Mediated Aerobic Oxidation of Hagemann’s Ester: Competitive Hydroxylation at C-1 and C-3 Positions |
|
132. |
Regioselective Synthesis of Fluorenones via the Consecutive In-Mediated Barbier Reaction, Pd-Catalyzed Cyclization, and Friedel-Crafts Reaction Starting from Baylis-Hillman Adducts |
|
131. |
Remarkable Rate Acceleration of Baylis-Hillman Reaction of Notorious α,β-Unsaturated Aldehydes Catalyzed by Proton Donor |
|
130. |
Palladium-Catalyzed Domino Heck-Cyanation Cascade to 3-Cyanomethyl 2,3-Dihydrobenzofuran and 2,3-Dihydroindoles |
|
129. |
An Efficient Hydration of Cyanamides to Substituted Ureas with Acetaldoxime as an Effective Water Surrogate |
|
128. |
Facile Synthesis of trans-S-1-Propenyl-L-Cysteine Sulfoxide (Isoalliin) in Onions (Allium cepa) |
|
127. |
Regioselective Introduction of Homoallylic Amine Moiety to Quinolines: Preparation of Reissert Compound followed by In-Mediated Allylation of Nitrile |
|
126. |
Synthesis and Biological Evaluation of KRIBB3 Analogues on a Proliferation of HCT-116 Colorectal Cancer Cells |
|
125. |
Synthesis of Imidazo[1,5-a]quinolines and Imidazo[5,1-a]isoquinolines via the In-Mediated Allylation of Reissert Compounds |
|
124. |
Synthesis of Dienamides via the Reaction of Nitrile with Allylindium Reagents and Intramolecular Acyl Group Quenching Cascade |
|
123. |
An Efficient Synthesis of Functionalized 1,6-Dienes from Baylis-Hillman Adducts via a Pd-Catalyzed Decarboxylative Protonation Protocol |
|
122. |
An Efficient Synthesis of α,α-Diallyl Carbinols from Esters Activated with Amides via an In-Mediated Barbier Type Allylation |
|
121. |
Synthesis of Tetracyclic Oxindoles from Isatin Containing Baylis-Hillman Adducts via Pd-Catalyzed Aryl-Aryl Coupling and Reduction with NaBH4 |
|
120. |
Synthesis of 10-Arylanthracenes from 2-Fluorobenzophenones and Arylacetonitriles via a One-Pot SNAr and Anionic Cyclization Cascade |
|
119. |
Facile Synthesis of N-Tosyl Aza-Baylis-Hillman Adducts of Acrylamide via a Pd-Catalyzed Hydration of Nitrile to Amide |
|
118. |
Pd(II)-Catalyzed Acetoxylation of Uracil via Electrophilic Palladation |
|
117. |
Biological Evaluation of Dilactone Lignan Analogues of Phellinsin A as Chitin Synthase II Inhibitors |
|
116. |
Investigation of Isomerism in Anthracene-Isothiouronium Salts and Application of these Salts for Anion Sensing |
|
115. |
Expedient One-Pot Synthesis of γ-Hydroxybutenolides Starting from Baylis-Hillman Adducts: Lactonization, Isomerization, and Aerobic Oxidation of α-Methylene-γ-hydroxyester |
|
114. |
Synthesis of Rearranged N-Tosyl Aza-Baylis-Hillman Adducts under Acidic Conditions Catalyzed by CH3SO3H or Montmorillonite K10 |
|
113. |
Expedient Synthesis of 5-Benzoylpyrimidine-2,4-diones from Baylis-Hillman Adducts |
|
112. |
Pd-Mediated Cross-Coupling Reactions between the Bromide of Baylis-Hillman Adduct and Organostannanes |
|
111. |
Decarboxylative Protonation of Allyl Ester Catalyzed by Pt and Ru |
|
110. |
One-Pot Synthesis of Naphthalenes from Baylis-Hillman Adducts via Pd-Mediated Successive Allylation and Arylation |
|
109. |
Regioselective Synthesis of Poly-Substituted Pyrroles from Baylis-Hillman |
|
108. |
Expedient Synthesis of 3-Benzoylflavones by PCC Oxidation of 3-Benzylideneflavanones |
|
107. |
Synthesis of Poly-substituted 2-Pyridones via [3+2+1] Annulation Protocol from Baylis-Hillman Adducts |
|
106. |
Synthesis of β-Aryl Substituted N-Tosyl Aza-Baylis-Hillman Adducts: Heck Reaction of N-Tosyl Aza-Baylis-Hillman Adducts |
|
105. |
AuCl3-Catalyzed Propargylation of Arenes with N-Tosylpropargyl Amine: Synthesis of 1,3-Diarylpropynes |
|
104. |
Facile Synthesis of Aza-Baylis-Hillman Adducts of Cycloalkenones: |
|
103. |
Facile One-Pot Synthesis of Poly-substituted Phenols from |
|
102. |
Synthesis of Poly-Substituted Phenols from Baylis-Hillman Adducts and 1,3-Dinitroalkanes |
|
101. |
An Expedient Synthesis of β-Phenyl Substituted Baylis-Hillman |
|
100. |
Solid-Phase Synthesis of 2-Amino-2-thiazolines by the Cyclization of N-(2-Hydroxyethyl)thioureas Using TFA |
|
99. |
Synthesis of 2,4,5-Trisubstituted Pyrimidines from Baylis-Hillman Adducts and Amidines |
|
98. |
Synthesis of Isochroman and Tetrahydroisoquinoline Derivatives from Baylis-Hillman Adducts by Radical Cyclization |
|
97. |
Eschenmoser-Claisen Rearrangement of Baylis-Hillman Adducts |
|
96. |
An Expeditious Synthesis of Substituted Pyrrolidines and Tetrahydrofurans Starting from Baylis-Hillman Adducts |
|
95. |
Expeditious Synthesis of 1,3,4-Trisubstituted Pyrazoles from Baylis-Hillman Adducts |
|
94. |
Facile Synthesis of 1,2,3,4-Tetrasubstituted Pyrroles from Baylis-Hillman Adducts |
|
93. |
Facile Synthesis of 3-Benzylidene-5-aryl-3H-furan-2-ones Starting from the Baylis-Hillman Adducts |
|
92. |
Facile Synthesis of 4-Substituted 3-Exo-methylenechroman Derivatives via Radical Cyclization Starting from Salicylaldehydes |
|
91. |
Synthesis of Indoles and Benzisoxazolines from Baylis-Hillman Adducts of 2-Nitrobenzaldehydes |
|
90. |
Synthesis of 3-Benzyl- or 3-Benzoyl-7,8-dihydro-6H-chromene Derivatives Starting from Baylis-Hillman Adducts |
|
89. |
Synthesis of β,γ -Disubstituted α -Methylene-γ -butyrolactams Starting from the Baylis-Hillman Adducts |
|
88. |
Synthesis of Exo-Methylenecyclopentane Derivatives via Radical Cyclization Starting from the Baylis-Hillman Adducts |
|
87. |
Synthesis of β,γ,γ -Tri- or γ,γ -Disubstituted α -Methylene-γ -butyrolactones Starting from the Baylis-Hillman Adducts |
|
86. |
Synthesis of 3-Aryl-3-hydroxypyrrolidin-2-ones and 2-Benzyl-9b-hydroxy-3,3a,5,9b-tetrahydro-2H-pyrrolo[3,4-c]quinoline-1,4-dione Derivatives from the Baylis-Hillman Adducts of Isatins |
|
85. |
Synthesis of 2-Benzylidene-7a-alkyltetrahydropyrrolizine-3,5-diones Starting from Baylis-Hillman Adducts |
|
84. |
Synthesis of Hexahydrofuro[2,3-b]furan and Hexahydrofuro[2,3-b]pyran Derivatives Starting from Baylis-Hillman Adducts via the Ueno-Stork Reaction |
|
83. |
Synthesis of 3,4-Disubstituted Pyridines Starting from Baylis-Hillman Adducts Using Schweizer Reaction |
|
82. |
Synthesis of Cyclopropane Derivatives Starting from the Baylis-Hillman Adducts Using Sulfur Ylide Chemistry |
|
81. |
The First Synthesis of 3,5-Dimethylene-4-phenylpiperidine-2,6-dione from Baylis-Hillman Adduct |
|
80. |
Regioselective Oxidation of 4,5-Disubstituted Pyrazoles: Controlled by Resonance Stabilization versus Hyperconjugation |
|
79. |
Synthesis of 2,3,4-Trisubstituted 2,5-Dihydrofuran Derivatives |
|
78. |
Ring Opening Reaction of Epoxides under Aryl Acetylene/ZnBr2/DIEA Conditions |
|
77. |
Baylis-Hillman Reaction and Chemical Transformations of Baylis-Hillman Adducts |
|
76. |
Synthesis of Ene-ynamide Derivatives Starting from Baylis-Hillman Adducts: Isomerization with the Aid of π-Cation Interaction |
|
75. |
Synthesis of 3,3-Disubstituted 2,3-Dihydrobenzofuran Derivatives from Baylis-Hillman Adducts |
|
74. |
Synthesis of 4-Benzylidene-2,5-dimethyl-3,4-dihydro-2H-pyrrole Derivatives from Baylis-Hillman Adducts and Their Chemical Transformations |
|
73. |
Synthesis of 9-Oxo-9,13b-dihydro-7H-benzo[3,4]azepino[2,1-a]isoindole-6-carboxylic Acid Derivatives from Baylis-Hillman Adducts |
|
72. |
Synthesis of Quinoline N-Oxides from the Baylis-Hillman Adducts of 2-Nitrobenzaldehydes: Conjugate Addition of Nitroso Intermediate |
|
71. |
N-Acyl-2-phenyliminooxazolidines as Chemoselective Monoacylating Agents |
|
70. |
Synthesis of Polysubstituted Quinolines from the Acetates of Baylis-Hillman Adducts: Aza-Claisen Rearrangement as the Key Step |
|
69. |
N-Benzyloxycarbonyl-2-phenylaminooxazolidine as a Selective Amine Benzyloxycarbonylating Reagent |
|
68. |
Efficient Introduction of Aryl Acetylenes to Quinolinium and Pyridinium Salts: Synthesis of 1-Acyl-1,2-dihydroquinolines and 1-Acyl-1,2-dihydropyridines |
|
67. |
Synthesis of Indeno[1,2-b]quinolin-10-ones via Pd/C-Assisted Dehydrogenation of 4b,5,10a,11-Tetrahydroindeno[1,2-b]quinolin-10-ones |
|
66. |
Synthesis of Substituted Uracil Derivatives from the Acetates of the Baylis-Hillman Adducts |
|
65. |
Synthesis of N-Benzyl 3,5-Disubstituted Piperidines via Double Michael Addition Strategy |
|
64. |
Modified Friedlander Synthesis of Quinolines from N-Phenyl Cyclic Enaminones |
|
63. |
Synthesis of 3-Benzyl-2-hydroxy-7,8-dihydro-6H-quinolin-5-ones from Baylis-Hillman Adducts |
|
62. |
Facile Synthesis of Baylis-Hillman Adducts Bearing the Carbamate or Amide Functional Group at the Secondary Position |
|
61. |
Synthesis of Iodoenol Lactone Derivatives from the Baylis-Hillman Adducts Using Iodolactonization Protocol |
|
60. |
Synthesis of Highly Functionalized 3,4-Dihydro-2H-pyrans from Baylis-Hillman Acetates |
|
59. |
Synthesis of Substituted Cyclopentenes from the Baylis-Hillman Adducts via Ring-Closing Metathesis Reaction |
|
58. |
Selective Methylation of the Ninhydrin-Phenol Adducts with I2 in MeOH |
|
57. |
A Practical and Stereoselective Synthesis of Cinnamyl Alcohols Bearing α-Cyano or α-Ester Functional Group from Baylis-Hillman Adducts |
|
56. |
Synthesis of 4-Methylene-2-cyclohexenones and Their Aromatization Reaction toward para-Methoxylmethyl Anisole Derivatives |
|
55. |
Facile Synthesis of Cyclic Vinamidinium p-Toluenesulfonates |
|
54. |
A Facile Synthesis of 4-Arylidene-2-substituted Isoxazolidin-5-ones from Baylis-Hillman Acetates |
|
53. |
Synthesis and Properties of New Polymer Having Hindered Phenol Antioxidants |
|
52. |
Synthesis of Benzo[b]indeno[2,1-d]furanone Skeleton from Ninhydrin and Cyclohexane-1,3-dione Derivatives |
|
51. |
Oxidative Aromatization of 2-Acylcyclohexane-1,3-dione Derivatives Using Iodine in Methanol |
|
50. |
Synthesis of Anisole Derivatives from 4-Alkylidene-2-cyclohexen-1-ones with Iodine in Methanol |
|
49. |
One-Pot Synthesis of 5-Arylpent-4-enoate Derivatives from Baylis-Hillman Acetates: Use of Phosphorous Ylide |
|
48. |
Indium Mediated Barbier Reaction of Ninhydrin and Isatin |
|
47. |
Synthesis of 2-Benzylphenols: Transformation of the Baylis-Hillman Adducts Derived from 2-Cyclohexen-1-one |
|
46. |
Facile Synthesis of 1-Aryl-1,2-ethanediols via the Reduction of N-Substituted Isatins |
|
45. |
Synthesis of 2,3,4,4a-Tetrahydroxanthen-1-ones and 3,3a-Dihydro-2Hcyclopenta[b]chromen-1-ones from the Reaction of Salicylaldehydes and 2-Cyclohexen-1-one and 2-Cyclopenten-1-one |
|
44. |
Baylis-Hillman Reaction of Isatin Derivatives:Isatins as a New Entry for the Baylis-Hillman Reaction |
|
43. |
Facile Synthesis of 3-Alkoxymethyl 2(1H)-Quinolinones from the Baylis-Hillman Adducts of 2-Nitrobenzaldehydes |
|
42. |
Synthesis of ortho-Acetamidomandelic Acid Derivatives from Isatins |
|
41. |
Facile Synthesis of 5-Arylpent-4-enoates from the Baylis-Hillman Acetates |
|
40. |
One-Pot Conversion of Nitroarenes into N-Arylamides |
|
39. |
Synthesis of 3-(Arylmethylene)-1,5-benzodiazepin-2-ones from Baylis-Hillman Acetates |
|
38. |
Facile Synthesis of 3-Substituted 2(1H)-Quinolinones from the Baylis-Hillman Adducts of 2-Nitrobenzaldehydes |
|
37. |
The Reaction of Heterocyclic Nucleophiles and the DABCO Salts of the Baylis-Hillman Aetates |
|
36. |
Synthesis of Naphthalenes from the Reaction of Baylis-Hillman Acetates and Sulfonyl Group-containing Active Methylene Compounds |
|
35. |
The Most Simple and Convenient Synthesis of the Baylis-Hillman Adducts of Cycloalkenones: Use of DMAP in Aqueous THF |
|
34. |
Synthesis of Ethyl 2-Methylene-3-aryl-4-oxoalkanoates and Ethyl 2-Arylidene-4-oxoalkanoates from the Baylis-Hillman Acetates |
|
33. |
Investigation of the Cyclization of N-(2-Hydroxyethyl)-N'-phenylthioureas: Mitsunobu Conditions vs TsCl/NaOH System |
|
32. |
One-Pot Synthesis of (E)-2-Arylideneindan-1-ones from the Baylis-Hillman Adducts via the Successive Inter- and Intramolecular Friedel-Crafts Reactions |
|
31. |
Nucleophilic Behaviour of DBU and DBN toward Acetylated Baylis-Hillman Adducts |
|
30. |
Facile Synthesis of Quinolines from the Baylis-Hillman Acetates |
|
29. |
Cyclization of N-(2-Hydroxyethyl)-N-phenylmethyl-N'-substituted Ureas and Thioureas: Prelude to the Synthesis of 1-Aryl-substituted-2-imidazolidinones on Solid Support |
|
28. |
Facile Synthesis of Phosphonium Salts Containing Carboxylic Acid Functional Group |
|
27. |
A Convenient Synthesis of 2-Methylenealkanoates and Alkanenitriles from the Acetates of the Baylis-Hillman Adducts |
|
26. |
Synthesis of 4-Hydroxyquinolines from the Baylis-Hillman Adducts of o-Nitrobenzaldehydes |
|
25. |
Amination of Arenes with Diethyl Azodicarboxylate (DEAD) |
|
24. |
Synthesis of Cinnamyl Amines from the Baylis-Hillman Adducts: Transformation of Allylic Alcohols to Allylic Amines |
|
23. |
Facile Synthesis of Phosphonium Salts from Alcohols |
|
22. |
Facile Synthesis of 2,4,5 -Trisubstituted Oxazole Derivatives from Deoxybenzoins |
|
21. |
Improved Synthesis of 1,3,5-Triarylbenzenes from a,β-Unsaturated Nitro Compounds |
|
20. |
Reinvestigation for the Synthesis of 1,2-Isoindolo-1,(2H),3,4-tetrahydro- b bb b-carboline |
|
19. |
Self Condensation of β-Acylpyruvates and in situ |
|
18. |
N,N-Dimethylformamide Dimethylacetal (DMF-DMA) Catalyzed Formation of 1,3,5- |
|
17. |
Triflic Anhydride Mediated Decarbonylative Arylation of Pyroglutamic Acid |
|
16. |
The Reaction of Ninhydrin with Polymethylbenzenes in the Presence of Acid Catalyst: Formation of 2-Aryl-1,3-indanedione and Indenoindanone Derivatives |
|
15. |
Unusual Behaviour of N-Tosyl Pipecolinic Acid in Fredel-Crafts Reaction Conditions |
|
14. |
Difference in Reactiveity during Alkylation of 2-(2-Hydroxyaryl)-1,3-indanedione and N-(2-Hydroxyphenyl)phthalimide |
|
13. |
Decarbonylative Diarylation Reaction of N-Substituted α-Amino Acids |
|
12. |
Friedel-Crafts Reaction of Tosylamide Derivatives : A Useful Source of Carbocationic Species |
|
11. |
Chloroformyloxylation of Cinnamic Acid and Cinnamonitrile Derivatives by Using the HCl/DMF/Potassium Peroxymonosulfate (Oxone) System |
|
10. |
A Facile Chloroformyloxylation Reaction of Olefins by Using the N, N-Dimethylformamide/Hydrogen Chloride/m-Chloroperbenzoic Acid System |
|
9. |
Synthesis and Structure Identification of Some 5-(Alkoxyiminomethyl)uracil Derivatives |
|
8. |
Synthesis of 3'-C-Isoxazoline, -Isoxazolidine, and -Alkoxyimine Derivatives derived from 3'-Deoxy-3'-C-Fomylthymidine |
|
7. |
Synthesis and Herbicidal Activity of Novel Quinolinylisoxazoline Derivatives |
|
6. |
Synthesis and Herbicidal Activity of Novel Quinolinyloxadiazole Derivatives |
|
5. |
Synthesis and Herbicidal Activity of 4-(2,3-Dihydro-2,2-dimethylbenzofura-7-nyl)cyclohexane-1,3-dione Derivatives |
|
4. |
Synthesis of 2-Methylbenzo[b]Furan Derivatives from Aryl β-Chloroallyl Ethers with Aluminium Chloride |
|
3. |
Regeneration of Carbonyl Compounds from Their Nitrogenous Derivatives: Chemical Transformation of the Dicarbonyl Compounds |
|
2. |
Regeneration of Cyclohexanone from Its Oxime with Various Dicarbonyl Compounds |
|
1. |
α-Chlorination of Ketones Using m-Chloroperbenzoic Acid / Hydrogen Chloride / N,N-Dimethylformamide System |
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