Alkene Dialkylation by Triple Radical Sorting
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Couple-close Construction of Polycyclic Rings from Diradicals
A. Long†, C. J. Oswood†, C. B. Kelly, M. C. Bryan, D. W. C. MacMillanView 3.14.24 -
Direct Bioisostere Replacement Enabled by Metallaphotoredox Deoxydifluoromethylation
E. Mao†, C. N. P. Kullmer†, H. A. Sakai, D. W. C. MacMillanView 3.12.24 -
Development of a General Organophosphorus Radical Trap: Deoxyphosphonylation of Alcohols
N. B. Bissonnette, N. Bisballe, A. V. Tran, J. A. Rossi-Ashton, D. W. C. MacMillanView 3.12.24 -
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Exploiting the Marcus inverted region for first-row transition metal–based photoredox catalysis
A. Y. Chan†, A. Ghosh†, J. T. Yarranton, J. Twilton, J. Jin, D. M. Arias-Rotondo, H. A. Sakai, J. K. McCusker*, and D. W. C. MacMillan*View 10.12.23 -
One-Pot Synthesis of Sulfonamides from Unactivated Acids and Amines via Aromatic Decarboxylative Halosulfonylation
View 9.28.23 -
Photoredox Catalysis-Enabled Sulfination of Alcohols and Bromides
W. P. Carson II, P. J. Sarver, N. S. Goudy, D. W. C. MacMillanView 9.18.23 -
Development of a General Organophosphorus Radical Trap: Deoxyphosphonylation of Alcohols
N. B. Bissonnette, N. Bisballe, A. V. Tran, J. A. Rossi-Ashton, and D. W. C. MacMillanView 8.21.23 -
Rapid and Modular Access to Quaternary Carbons from Tertiary Alcohols via Bimolecular Homolytic Substitution
C. A. Gould, A. L. Pace, and D. W. C. MacMillanView 7.21.23 -
μMap Photoproximity Labeling Enables Small Molecule Binding Site Mapping
S. W. Huth†, J. V. Oakley†, C. P. Seath, J. B. Geri, A. D. Trowbridge, D. L. Parker, Jr., F. P. Rodriguez-Rivera, A. G. Schwaid, C. Ramil, K. A. Ryu, C. H. White, O. O. Fadeyi, R. C. Oslund, and D. W. C. MacMillanView 7.21.23 -
Redefining the Synthetic Logic of Medicinal Chemistry. Photoredox- Catalyzed Reactions as a General Tool for Aliphatic Core Functionalization
D. F. Fernández*, M. González-Esguevillas*, S. Keess, F. Schäfer, J. Mohr, A. Shavnya, T. Knauber, D. C. Blakemore, and D. W. C. MacMillanView 7.7.23 -
Small molecule photocatalysis enables drug target identification via energy transfer
A. D. Trowbridge, C. P. Seath, F. P. Rodriguez-Rivera, B. X. Li, B. E. Dul, A. G. Schwaid, B. F. Buksh, J. B. Geri, J. V. Oakley, O. O. Fadeyi, R. C. Oslund, K. A. Ryu, C. White, T. Reyes-Robles, P. Tawa, D. L. Parker Jr., D. W. C. MacMillanView 4.10.23 -
General Access to Cubanes as Benzene Bioisosteres
M. P. Wiesenfeldt,† J. A. Rossi-Ashton,† I. B. Perry,† J. Diesel, O. L. Garry, F. Bartels, S. C. Coote, X. Ma, C. S. Yeung, D. J. Bennett and D. W. C. MacMillanView 4.7.23 -
Tracking chromatin state changes using nanoscale photo-proximity labelling
C. P. Seath,† A. J. Burton,† X. Sun, G. Lee, R. E. Kleiner, D. W. C. MacMillan,* and T. W. Muir*View 4.7.23 -
Expedient Access to Underexplored Chemical Space: Deoxygenative C(sp3)–C(sp3) Cross-Coupling
W. L. Lyon and D. W. C. MacMillanView 3.29.23 -
Late-Stage C(sp3)−H Methylation of Drug Molecules
E. Mao and D. W. C. MacMillanView 2.15.23 -
Rapid Access to 2‐Substituted Bicyclo[1.1.1]pentanes
O. L. Garry,† M. Heilmann,† J. Chen, Y. Liang, X. Zhang, X. Ma, C. S. Yeung, D. J. Bennett, and D. W. C. MacMillanView 2.15.23 -
Photoproximity Labeling of Sialylated Glycoproteins (GlycoMap) Reveals Sialylation-Dependent Regulation of Ion Transport
C. F. Meyer, C. P. Seath, S. D. Knutson, W. Lu, J. D. Rabinowitz, and D. W. C. MacMillanView 1.3.23 -
Carboxylic Acids as Adaptive Functional Groups in Metallaphotoredox Catalysis
S. B. Beil, T. Q. Chen, N. E. Intermaggio, and D. W. C. MacMillanView 1.3.23 -
Nickel Catalysis via SH2 Homolytic Substitution: The Double Decarboxylative Cross-Coupling of Aliphatic Acids
A. V. Tsymbal,* L. D. Bizzini,* and D. W. C. MacMillanView 11.18.22