All Stories

  1. A Review on the Synthesis of Biologically Active Thiazoles
  2. Synthesis of aziridines
  3. Synthesis of aziridines from epoxides
  4. Synthesis of aziridines under photochemical irradiation
  5. Synthesis of aziridines from chalcones
  6. Synthesis of aziridines from amines
  7. Microwave-Assisted Green Synthesis and Biological Significance of Triazine Derivatives
  8. Synthesis of Quinazoline Derivatives
  9. Bioinspired Green Synthesis of NMs
  10. Advancements in AI for Protein Structure Prediction: Impact on Cancer Drug Discovery and Development: A Systematic Review
  11. Epoxide synthesis
  12. Synthesis of azetidines
  13. Photochemical synthesis of azetidines
  14. Photochemical synthesis of fused azetidines
  15. Epoxide synthesis from haloalcohols
  16. Epoxide synthesis from alcohols
  17. Synthesis of azetidines from aziridines and epoxides
  18. Combating COVID-19 Crisis using Artificial Intelligence (AI) Based Approach: Systematic Review
  19. Palladium-Catalyzed C-N Coupling in the Synthesis of Benzodiazepines
  20. Retraction notice to “A review on high-throughput synthesis, deposition of thin films and properties of polyaniline” [Eur. Polym. J. 125 (2020) 109485]
  21. Acetamidine in heterocycle synthesis
  22. Design, Synthesis, Antibacterial Evaluation and Docking Studies of Triazole and Tetrazole Linked 1,4‐benzodiazepine Nucleus via Click Approach
  23. Synthesis of 1,4-Benzodiazepines by Palladium-Catalyzed C-N Coupling
  24. Synthesis of higher-membered heterocycles
  25. Synthesis of dioxetanes
  26. Synthesis of azocines
  27. Synthesis of oxetanes from epoxides
  28. Synthesis of dithietes
  29. Synthesis of oxetanes from alcohols
  30. Synthesis of thiocines
  31. Synthesis of thiazetidines
  32. Synthesis of oxazetidines
  33. Synthesis of oxocines
  34. Synthesis of heterocycles by use of thioureas as chiral auxiliaries and as reactants
  35. Palladium-catalyzed C-N Coupling Reactions in the Synthesis of Dibenzodiazepines
  36. Palladium-Catalyzed C-N Coupling in the Synthesis of 1,4-Benzodiazepines Fused with 5-Membered Carbo- and Heterocycles
  37. Synthesis of heterocycles from urea and its derivatives
  38. Synthesis of heterocycles using guanidine: An overview
  39. Lawesson’s Reagent in Heterocycle Synthesis
  40. Synthetic and Biological Attributes of Pyrimidine Derivatives: A Recent Update
  41. Synthetic Aspects of Condensed Pyrimidine Derivatives
  42. Recent Developments in the Synthesis of Five- and Six-membered N-heterocycles from Dicarbonyl Compounds
  43. Silver-assisted Syntheses of Fused Five-membered N-heterocycles
  44. Thiadiazole Synthesis
  45. Synthesis of five-membered nitrogen-containing heterocycles using copper
  46. Dicarbonyl compounds in O- heterocycle synthesis
  47. Crown ethers for the synthesis of heterocycles
  48. Polyaniline-TiO2-based photocatalysts for dyes degradation
  49. Rhodium catalysis in the synthesis of fused five-memberedN-heterocycles
  50. Cu-assisted C–N bond formations in six-membered N -heterocycle synthesis
  51. Copper-assisted synthesis of five-membered O- heterocycles
  52. Palladium acetate assisted synthesis of five-membered N- polyheterocycles
  53. RETRACTED: A review on high-throughput synthesis, deposition of thin films and properties of polyaniline
  54. Photochemical C–N bond forming reactions for the synthesis of five-membered fused N- heterocycles
  55. Organo or Metal Complex Catalyzed Synthesis of Five-membered Oxygen Heterocycles
  56. Ag-mediated synthesis of six-membered N-heterocycles
  57. Metal and organo-complex promoted synthesis of fused five-membered O-heterocycles
  58. Photochemical Synthesis of Fused Five-membered O-heterocycles
  59. A Review of Ruthenium-catalyzed C-N Bond Formation Reactions for the Synthesis of Five-membered N-heterocycles
  60. Synthesis of five-membered N-heterocycles using Rh based metal catalysts
  61. Ionic Liquids for the Synthesis of Five-Membered N,N-, N,N,N- and N,N,N,NHeterocycles
  62. Synthesis of five-membered N-heterocycles using silver metal
  63. Applications of metal and non-metal catalysts for the synthesis of oxygen containing five-membered polyheterocylces: a mini review
  64. Ionic liquid assisted synthesis of six-membered oxygen heterocycles
  65. Gold-catalyzed C–O bond forming reactions for the synthesis of six-membered O-heterocycles
  66. Cobalt-catalyzed C–N, C–O, C–S bond formation: synthesis of heterocycles
  67. Photochemical reactions in five and six-membered polyheterocycles synthesis
  68. Synthesis of Five-Membered Heterocycles Containing Nitrogen Heteroatom Under Ultrasonic Irradiation
  69. Application of titanium catalysts for the syntheses of heterocycles
  70. Six-Membered N-Polyheterocycles
  71. Nickel-catalyzed synthesis of five-membered heterocycles
  72. Synthesis of five-membered O,N-heterocycles using metal and nonmetal
  73. Synthesis of Six-Membered N-Heterocycles Using Ruthenium Catalysts
  74. Ionic Liquids: A Versatile Medium for the Synthesis of Six-membered Two Nitrogen- Containing Heterocycles
  75. Seven and higher-membered oxygen heterocycles: Metal and non-metal
  76. Synthesis of Three‐Membered and Four‐Membered Heterocycles with the Assistance of Photochemical Reactions
  77. Synthetic routes to seven and higher membered S-heterocycles by use of metal and nonmetal catalyzed reactions
  78. Synthesis of six- and seven-membered and larger heterocylces using Au and Ag catalysts
  79. Seven-membered N-heterocycles: metal and nonmetal assisted synthesis
  80. Gold and silver assisted synthesis of five-membered oxygen and nitrogen containing heterocycles
  81. Ionic liquid assisted synthesis of S-heterocycles
  82. Nickel catalysis: six membered heterocycle syntheses
  83. Ionic liquid: An efficient and recyclable medium for the synthesis of fused six-membered oxygen heterocycles
  84. Application of silver-promoted reactions in the synthesis of five-membered O-heterocycles
  85. Synthesis of seven and higher-membered heterocycles using ruthenium catalysts
  86. Copper catalyzed synthesis of seven and higher membered heterocycles
  87. Functionalized bioconductive polymers
  88. Functionalized coordinating polymers
  89. Ruthenium catalyzed synthesis of five-membered O‑heterocycles
  90. Applications of palladium dibenzylideneacetone as catalyst in the synthesis of five-membered N-heterocycles
  91. Ionic Liquid Promoted Eco-friendly and Efficient Synthesis of Six-membered Npolyheterocycles
  92. Multiple nitrogen-containing heterocycles: Metal and non-metal assisted synthesis
  93. Palladium acetate and phosphine assisted synthesis of five-membered N-heterocycles
  94. Metal and non-metal catalysts in the synthesis of five-membered S-heterocycles
  95. Copper Catalysts in the Synthesis of Five-membered N-polyheterocycles
  96. Photochemical irradiation: Seven and higher membered O-heterocycles
  97. Mercury-catalyzed synthesis of heterocycles
  98. Synthesis of seven and higher membered nitrogen containing heterocycles using photochemical irradiation
  99. Ultrasound-Assisted Synthesis of Six-Membered N-Heterocycles
  100. Recent developments in the synthesis of nitrogen containing five-membered polyheterocycles using rhodium catalysts
  101. Photochemical mediated reactions in five-membered O-heterocycles synthesis
  102. Ultrasound-assisted green synthesis of five-membered O- and S-heterocycles
  103. Green synthesis of three- to five-membered O-heterocycles using ionic liquids
  104. Ruthenium catalysis in six-membered O-heterocycles synthesis
  105. Photochemical reactions as key steps in five-membered N-heterocycle synthesis
  106. Photochemical Reactions for the Synthesis of Six-Membered O-Heterocycles
  107. Solid-phase synthesis of sulfur containing heterocycles
  108. Synthesis of six- and seven-membered heterocycles under ultrasound irradiation
  109. Synthesis of Heterocycles Through Platinum-Catalyzed Reactions
  110. Perspectives of ionic liquids applications for the synthesis of five- and six-membered O,N-heterocycles
  111. Gold Catalysts in the Synthesis of Five-membered N-heterocycles
  112. Metal- and nonmetal-catalyzed synthesis of five-membered S,N-heterocycles
  113. Photochemical Reactions: Synthesis of Six-membered N-heterocycles
  114. Methods for Metal and Non-Metal Catalyzed Synthesis of Six-Membered Oxygen Containing Poly-Heterocycles
  115. Ionic Liquids: Promising But Challenging Solvents for the Synthesis of NHeterocycles
  116. Synthetic and Biological Aspects of Thiadiazoles and their Condensed Derivatives: An Overview
  117. Applications of gold catalysts for the synthesis of five-membered O-heterocycles
  118. Metal Catalysts for the Formation of Six-Membered N-Polyheterocycles
  119. Palladium-Catalyzed Approach to the Synthesis ofS-heterocycles
  120. A Facile Synthesis of Face “D” Quinolino Annulated Benzazepinone Analogues with Its Quinoline Framework Appended To Oxadiazole, Triazole and Pyrazole Heterocycles
  121. Expedient Protocols for the Installation of 1,5‐benzodiazepine‐based Privileged Templates on 2‐position of α, β‐enone Incorporated Derivatives of the 1,4‐benzodiazepine Nucleus Linked Through a Phenoxyl Spacer
  122. Synthesis of Fused Five-MemberedN,N-Heterocycles Using Microwave Irradiation
  123. Greener and Expeditious Synthesis of Fused Six-Membered N,N-Heterocycles Using Microwave Irradiation
  124. Applications of Microwaves in the Synthesis of Polycyclic Six-MemberedN,N-Heterocycles
  125. Synthesis of Five-MemberedN,N,N- andN,N,N,N-Heterocyclic Compounds: Applications of Microwaves
  126. Review on the Synthesis of Six-MemberedN,N-Heterocycles by Microwave Irradiation
  127. Insight into Microwave-Assisted Synthesis of Benzo Derivatives of Five-MemberedN,N-Heterocycles
  128. Environmentally Benign Synthesis of Five-Membered 1,3-N,N-Heterocycles by Microwave Irradiation
  129. Recent Impact of Microwave-Assisted Synthesis on Benzo Derivatives of Five-Membered N-Heterocycles
  130. Microwave-Assisted Synthesis: Fused Five-MemberedN-Heterocycles
  131. Advances in Microwave-Assisted Synthesis for Five-Membered N-Heterocycle Synthesis
  132. Role of Microwaves in the Synthesis of Fused Five-Membered Heterocycles with Three N-Heteroatoms
  133. Review of Microwave-Assisted Synthesis of Benzo-Fused Six-MemberedN,N-Heterocycles
  134. Application of Microwave Irradiation in the Synthesis of Fused Six-Membered Heterocycles with N-Heteroatom
  135. Microwave-Assisted Synthesis of Fused Polycyclic Six-MemberedN-Heterocycles
  136. Palladium Catalysts: Synthesis of Five-MemberedN-Heterocycles Fused with Other Heterocycles
  137. Six-Membered Heterocycles with Three and FourN-Heteroatoms: Microwave-Assisted Synthesis
  138. Palladium-catalyzed approach to the synthesis of five-membered O-heterocycles
  139. Synthesis of 2-(oxadiazolo, pyrimido, imidazolo, and benzimidazolo) substituted analogues of 1,4-benzodiazepin-5-carboxamides linked through a phenoxyl bridge
  140. Six-MemberedN-Heterocycles: Microwave-Assisted Synthesis
  141. Polycyclic Six-MemberedN-Heterocycles: Microwave-Assisted Synthesis
  142. Microwave-Assisted Synthesis of Five-MemberedO-Heterocycles
  143. Microwave-Assisted Synthesis of Five-MemberedO,N-Heterocycles
  144. Microwave-Assisted Synthesis of Seven-MemberedS-Heterocycles
  145. Microwave-Assisted Synthesis of Five-MemberedO,N,N-Heterocycles
  146. Microwave-Assisted Synthesis of Six-MemberedO-Heterocycles
  147. Microwave-Assisted Synthesis of Six-MemberedO,O-Heterocycles
  148. Microwave-Assisted Synthesis of Seven- and Higher-MemberedO-Heterocycles
  149. Microwave-Assisted Synthesis of Six-MemberedS-Heterocycles
  150. Synthesis of Oxadiazolo-, Pyrimido-, Imidazolo-, and Benzimidazolo-Containing Derivatives of 1,4-Benzodiazepin-5-(4′-methylpiperazinyl)-carboxamide Through Phenylamino Spacer
  151. Microwave-Assisted Synthesis of Seven- and Higher-MemberedN-Heterocycles
  152. Benign Approaches for the Microwave-assisted Synthesis of Five-membered 1,2-N,N-heterocycles
  153. Solid-Phase Synthesis of Nitrogen-Containing Five-Membered Heterocycles
  154. Synthetic Strategies Applicable in the Synthesis of Privileged Scaffold: 1,4-Benzodiazepine
  155. Expedient Protocols for the Installation of 1,5‐Benzoazepino‐Based Privileged Templates on the 2‐Position of 1,4‐Benzodiazepine Through a Phenoxyl Spacer
  156. Metal catalysts: applications in higher-membered N-heterocycles synthesis
  157. Nitrogen-Containing Six-Membered Heterocycles: Solid-Phase Synthesis
  158. Application of Dimethylaminomethylene Ketone in Heterocycles Synthesis: Synthesis of 2-(Isoxazolo, Pyrazolo, and Pyrimido) Substituted Analogs of 1,4-Benzodiazepin-5-carboxamides Linked through an Oxyphenyl Bridge
  159. Solid-Phase Synthetic Approach Toward the Synthesis of Oxygen-Containing Heterocycles
  160. Peroxy Acids: Role in Organic Synthesis
  161. Gamma-radiation-induced dielectric relaxation characteristics of layered crystals of phlogopite mica
  162. A Novel Synthetic Protocol for the Heteroannulation of Oxocarbazole and Oxoazacarbazole Derivatives through Corresponding Oxoketene Dithioacetals
  163. Microwave-assisted synthesis of five-membered S-heterocycles
  164. Investigation of thermoluminescence characteristics of gamma irradiated phlogopite mica
  165. Microwave assisted facile one pot synthesis of novel 5-carboxamido substituted analogues of 1,4-benzodiazepin-2-one of medicinal interest
  166. Application of chalcones in heterocycles synthesis: Synthesis of 2-(isoxazolo, pyrazolo and pyrimido) substituted analogues of 1,4-benzodiazepin-5-carboxamides linked through an oxyphenyl bridge
  167. An insight into hexamethylenetetramine: a versatile reagent in organic synthesis
  168. Metal and Non-metal Based Catalysts for Oxidation of Organic Compounds
  169. An Expedient Protocol to the Synthesis of Benzo(b)furans by Palladium Induced Heterocyclization of Corresponding 2‐Allylphenols Containing Electron Rich and Electron Capturing Substituents in the Arene Ring
  170. Noteworthy Mechanistic Precedence in the Exclusive Formation of One Regioisomer in the Beckmann Rearrangement of Ketoximes of 4-Piperidones Annulated to Pyrazolo-indole Nucleus by Organocatalyst Derived from TCT and DMF