about
Iron Catalysis in Organic Synthesis: A Critical Assessment of What It Takes To Make This Base Metal a Multitasking ChampionAerobic Iron-Based Cross-Dehydrogenative Coupling Enables Efficient Diversity-Oriented Synthesis of Coumestrol-Based Selective Estrogen Receptor ModulatorsFormal ring-opening/cross-coupling reactions of 2-pyrones: iron-catalyzed entry into stereodefined dienyl carboxylates.Iron(III) triflimide as a catalytic substitute for gold(I) in hydroaddition reactions to unsaturated carbon-carbon bonds.Synthesis of phenanthridinones via palladium-catalyzed C(sp2)-H aminocarbonylation of unprotected o-arylanilines.Pd(II)-catalyzed oxidative alkoxycarbonylation of 2-phenoxypyridine derivatives with CO and alcohols.Rh(iii)-catalyzed double C-H activation of aldehyde hydrazones: a route for functionalized 1H-indazole synthesisSynthesis of ethoxy dibenzooxaphosphorin oxides through palladium-catalyzed C(sp(2))-H activation/C-O formation.A high-spin square-planar Fe(ii) complex stabilized by a trianionic pincer-type ligand and conclusive evidence for retention of geometry and spin state in solutionExploring bis(cyclometalated) ruthenium(II) complexes as active catalyst precursors: room-temperature alkene-alkyne coupling for 1,3-diene synthesis.Visible-light photoredox catalyzed oxidative Strecker reaction.Synthesis and Characterization of Iron Complexes based on Bis-Phosphinite PONOP and Bis-Phosphite PONOP Pincer Ligands.Ruthenium(II)/N-heterocyclic carbene catalyzed [3+2] carbocyclization with aromatic N-H ketimines and internal alkynesSilanol: a traceless directing group for Pd-catalyzed o-alkenylation of phenols.Synthesis of catechols from phenols via Pd-catalyzed silanol-directed C-H oxygenation.Methoxy-directed aryl-to-aryl 1,3-rhodium migration.Double-fold C-H oxygenation of arenes using PyrDipSi: a general and efficient traceless/modifiable silicon-tethered directing group.Pd-catalyzed modifiable silanol-directed aromatic C-H oxygenationTransition metal-free intramolecular regioselective couplings of aliphatic and aromatic C-H bondsA Domino Oxidation/Arylation/Protodecarboxylation Reaction of Salicylaldehydes: Expanded Access to meta-Arylphenols.Metal-free α-amination of secondary amines: computational and experimental evidence for azaquinone methide and azomethine ylide intermediates.Redox-neutral copper(II) carboxylate catalyzed α-alkynylation of amines.Facile Access to Ring-Fused Aminals via Direct α-Amination of Secondary Amines with ortho-Aminobenzaldehydes. Synthesis of Vasicine, Deoxyvasicine, Deoxyvasicinone, Mackinazolinone and Ruteacarpine.Iron-catalyzed decarboxylative alkenylation of cycloalkanes with arylvinyl carboxylic acids via a radical process.The Pyridyldiisopropylsilyl Group: A Masked Functionality and Directing Group for Monoselective ortho-Acyloxylation and ortho-Halogenation Reactions of Arenes.Enantioselective functionalization of allylic C-H bonds following a strategy of functionalization and diversification.Remodeling of fumagillol: discovery of an oxygen-directed oxidative Mannich reaction.Purinyl N1-directed aromatic C-H oxidation in 6-arylpurines and 6-arylpurine nucleosides.A General and Practical Palladium-Catalyzed Direct α-Arylation of Amides with Aryl Halides.Pd-catalysed ligand-enabled carboxylate-directed highly regioselective arylation of aliphatic acids.Transition-metal-catalyzed aminations and aziridinations of C-H and C=C bonds with iminoiodinanes.C-C bond formation in diiron complexes.Recent approaches for C-C bond formation via direct dehydrative coupling strategies.Transition-metal-catalyzed additions of C-H bonds to C-X (X = N, O) multiple bonds via C-H bond activation.Catalytic functionalization of C(sp2)-H and C(sp3)-H bonds by using bidentate directing groups.Palladium-catalyzed cross-dehydrogenative functionalization of C(sp(2))-H Bonds.The cross-dehydrogenative coupling of C(sp3)-H bonds: a versatile strategy for C-C bond formations.Organometallic aspects of transition-metal catalysed regioselective C-H bond functionalisation of arenes and heteroarenes.Cross-dehydrogenative coupling for the intermolecular C-O bond formation.Catalytic C-H bond functionalisation of purine and pyrimidine nucleosides: a synthetic and mechanistic perspective.
P2860
Q28072632-990FF850-A8D0-4E63-AB46-637739D5D2C8Q29036826-164D9186-D3AB-4026-B136-FF7C892E93C2Q30486419-94FAC7BF-013B-47C0-AB59-4C3D248B6EA0Q30625533-EC2C3A09-92BA-477A-896F-63BD9C2F88ABQ33456393-C741BFA2-6574-485C-BFB7-360F79DAADF0Q33461085-5505E4E0-4774-4961-8D31-263CC13F2737Q33768649-CF98BA02-AB57-4C93-B2D8-12CC14460ADBQ33830073-D43A3580-4851-4EEE-B9ED-A3DAD7B60AFCQ33855723-CCE98C24-0940-4784-B042-8B21BBA26835Q34146299-9E90C1E0-8454-4DC0-8B29-D12CFE970AAFQ34229152-6E603873-C76D-4927-9EE1-2D9078F1424EQ34508807-3467574B-B572-4A93-B940-2572C1303A83Q35026649-3FB03223-A342-43E0-BA21-D3D1F6F5AD5EQ35166668-EFCA25C8-3BCE-4175-811D-82880276A841Q35648469-BF452F4A-274E-42FD-B121-5C025A4C93EEQ35660405-69AE314E-AE73-4B83-BC19-E7B0FBF41B91Q36021897-9BEDCAC7-06AA-465C-A914-0F22FADD58CFQ36452868-116F7131-FE0F-4F78-B7B3-F47018B6A244Q36517170-F1146619-B736-4A7C-BA0B-A5D78A828406Q36555260-D87DE0F1-1F1C-4D44-9EEF-D8A2466EAAD8Q36844734-D9F32443-7546-48AB-963F-7DF343EFB8D0Q37173876-5ACA5878-A26A-4A19-AD12-AB5FE8159EC8Q37173920-3EF4ADB7-6BED-4BB2-980F-10FD0E904755Q37186144-A648EBFD-2914-4245-896D-43D1E23402D1Q37400739-8A4AACB9-18B7-4050-98A6-0836659A3BDDQ37548669-2D3C2BE2-3F94-40D7-A1AE-D4F351B05650Q37590541-19CF460F-AAB3-417B-B4B1-F3989B51DAA7Q37673934-77D7BC2C-CF11-48E1-A921-B08F81131AFBQ37714497-231FEB67-324B-47A7-B334-535B6A84B1A3Q37741356-54743D63-9FE3-4248-AC4C-552ECB285350Q37961656-34F43915-9591-43C5-ADFF-216FCD1723CFQ38023783-1DC98F97-8806-4E56-A79A-E3F91208040AQ38063394-9834BE5F-056E-4F31-B992-D4183BCD3D5CQ38121420-2FE9EE75-6EF8-4CFC-A7A1-26F292F92052Q38150791-E8B7BB58-DD3B-4C18-B537-EE47CEAE8E9DQ38152412-F0C20659-703B-47BA-8244-258DA1CE9F2BQ38161496-44EDF17B-83F7-4211-BCE1-E2E75812E163Q38178035-BA7E65E6-F6D0-4F51-B2C3-4402E601645BQ38351637-649C1E36-C9AF-4331-8D3C-57EB898E1709Q38518916-BB3848A2-8646-4B30-8EEB-9D25E9628CE2
P2860
description
2010 nî lūn-bûn
@nan
2010年の論文
@ja
2010年学术文章
@wuu
2010年学术文章
@zh-cn
2010年学术文章
@zh-hans
2010年学术文章
@zh-my
2010年学术文章
@zh-sg
2010年學術文章
@yue
2010年學術文章
@zh
2010年學術文章
@zh-hant
name
Direct C-H transformation via iron catalysis.
@en
Direct C-H transformation via iron catalysis.
@nl
type
label
Direct C-H transformation via iron catalysis.
@en
Direct C-H transformation via iron catalysis.
@nl
prefLabel
Direct C-H transformation via iron catalysis.
@en
Direct C-H transformation via iron catalysis.
@nl
P356
P1433
P1476
Direct C-H transformation via iron catalysis.
@en
P2093
Chang-Liang Sun
Zhang-Jie Shi
P304
P356
10.1021/CR100198W
P50
P577
2010-11-04T00:00:00Z