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Beilstein J. Org. Chem. 2023, 19, 1912–1922, doi:10.3762/bjoc.19.142
Graphical Abstract
Figure 1: (a, b) Schematics of previous approaches to dehalogenation-based reactions using molecular reductan...
Scheme 1: Selective deiodination of 2-iodobenzyl chloride.
Scheme 2: Reaction mechanisms for the reactions of dimeric reductants (D2) such as (Y-DMBI)2 derivatives with...
Figure 2: (a) A representative temporal evolution of % conversion (blue squares), % toluene yield (red diamon...
Figure 3: Top: UV–vis absorption spectra for the two dimeric reductants in THF emphasizing (a) the different ...
Figure 4: Transient absorption spectra of (a) (N-DMBI)2 in MeCN, (b) (N-DMBI)2 in toluene, and (c) (Cyc-DMBI)2...
Beilstein J. Org. Chem. 2023, 19, 1651–1663, doi:10.3762/bjoc.19.121
Figure 1: DMBI+, DMBI-H, and (DMBI)2 derivatives discussed in this work (new compounds in red).
Scheme 1: Synthesis of DMBI-H and (DMBI)2 derivatives and structures of side products.
Figure 2: Crystallographically characterized molecules related to DMBI dimers.
Figure 3: Molecular structures from the single crystal structures of 1b2 (two crystallographically inequivale...
Figure 4: Molecular structures from the single crystal structures of 1bH (upper left), 1gH (upper right), 1hH...
Figure 5: Structures of the cations from the single crystal structures of 1g+I− (left), 1h+PF6− (center), and ...
Figure 6: Cyclic voltammograms (50 mV s−1, THF, 0.1 M Bu4NPF6) of 1g+PF6–, 1gH, and 1g2, in each case contain...
Figure 7: Acceptors used to examine reactivity of DMBI-H and (DMBI)2 derivatives.
Figure 8: a) Temporal evolution of the absorbance at 1030 nm, corresponding to an absorption maximum of VI•–,...