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Beilstein J. Org. Chem. 2022, 18, 1488–1498, doi:10.3762/bjoc.18.156
Graphical Abstract
Figure 1: Natural products YM-254890 and FR-900359.
Figure 2: Diblock copolymers used for coating microelectrode arrays.
Figure 3: An indirect method for detecting binding events.
Scheme 1: A Cu(I)-catalyzed cross-coupling reaction on an array.
Figure 4: A model study using an RGD peptide (C-PEG6-GGRGDGP) and integrin receptor (α5,β1).
Figure 5: A failure in connection with the monitoring of binding events between a peptide and its G-protein t...
Scheme 2: An array-based Chan–Lam coupling reaction.
Figure 6: Potential for an immediate, rapid change in current. a) The binding event being monitored has alrea...
Figure 7: Four cycles vs. twelve cycles and the effect on binding curve location.
Figure 8: Repeating the experiment on different arrays. (a) A comparison between a 4-cycle placement reaction...
Figure 9: Quantitative fluorescent study on variance of the polymer coating across the microelectrode surface...
Scheme 3: A new method for decreasing the concentration of R6A on the surface of the electrodes.
Figure 10: An initial study and the comparison of an R6A surface and a 1:1 R6A/cysteine methyl ester surface.
Figure 11: Calibrating the array-based signaling experiment for monitoring small molecule G-protein interactio...
Beilstein J. Org. Chem. 2015, 11, 280–287, doi:10.3762/bjoc.11.32
Scheme 1: Electrochemical recycling of a chemical oxidant.
Figure 1: a) Electrolysis setup with a “suitcase” photovoltaic device. b) Electrolysis with a very simple, co...
Scheme 2: Examples of solar-driven direct electrochemical oxidations.
Scheme 3: Overoxidation of dithioketal.
Scheme 4: Examples of solar-driven, indirect electrochemical oxidations.
Scheme 5: Solar-driven synthesis of C-glycosides.
Scheme 6: Solar-driven oxidative condensation.
Scheme 7: Solar-driven oxidative cyclization with a second nucleophile.
Beilstein J. Org. Chem. 2013, 9, 1630–1636, doi:10.3762/bjoc.9.186
Scheme 1: General scheme for anodic cyclization reactions.
Scheme 2: Anodic cyclization competition study.
Scheme 3: Kolbe electrolysis reactions.
Scheme 4: Oxidative coupling between a carboxylic acid and electron-rich olefin.
Scheme 5: Predicted relative rates of single-electron oxidation based on resonance stabilization of the resul...
Figure 1: Radical cation stabilization by an o-methoxy substituent.