Aim & Scope
Efficient, sustainable and selective methods to create target organic molecules has driven significant advances across the chemical sciences. In response, our dedicated editorial team are working to support and include a global and diverse community of organic chemists. Tetrahedron Chem will publish significant advances and insights from those working directly in this field as well as those working at the interfaces of biology and materials science. The scope covers all fundamental and applied aspects of organic chemistry. Key research areas include but are not limited to: Synthetic methodology; Catalysis; Next generation chemical building blocks for drug discovery; Sustainable synthesis; Natural product synthesis; Supramolecular and polymer synthesis; Functional organic materials; Physical organic chemistry and mechanistic studies; Computational methods in synthesis. [1]
Series / Collection
0040-4020 ( Print )
1464-5416 ( Online )
Elsevier
,
Pergamon Press
0957-4166 ( Print )
1362-511X ( Online )
Elsevier
,
Pergamon Press
0898-5529 ( Print )
1878-335X ( Print )
Elsevier
,
Pergamon Press
0040-4039 ( Print )
1873-3581 ( Online )
Elsevier
,
Pergamon Press
1460-1567 ( Print )
2212-1625 ( Online )
Elsevier
2024
B Mohan , A Shanmughan , M Noushija , ... , S Shanmugaraju
Tetrahedron Chem , 2024 , p 100071.
Biocatalytic Reactions, Crystal Structures and Mechanisms of Kynurenine Formamidases
C Liu , C Miao , X Chen , ... , Z Yuan
Tetrahedron Chem , 2024 , p 100077.
Electrochemical oxidations through hypervalent iodine redox catalysis
Tetrahedron Chem , 2024 , p 100081.
Recent advances in copper-catalyzed asymmetric propargylic substitution
Tetrahedron Chem , 2024 , p 100082.