Abstract
Access to Cn (n>4) symmetric cyclic concave molecules with a different function on each of their n subunits is an unmet challenge. The reason lies in the lack of a post-functionalization method whose site selectivity is sufficiently understood, predictable and modulable to access most functionalization patterns. Here we disclose a new site-directing rule for a debenzylation reaction on cyclodextrins that solves this problem and allows the unprecedented access to penta- and ultimately hexa-differentiations of such C6 concave cycles. This achievement opens the access to objects with very high-density information.
Publication types
-
Research Support, Non-U.S. Gov't
Associated data
-
PubChem-Substance/215969404
-
PubChem-Substance/215969405
-
PubChem-Substance/215969406
-
PubChem-Substance/215969407
-
PubChem-Substance/215969408
-
PubChem-Substance/215969409
-
PubChem-Substance/215969410
-
PubChem-Substance/215969411
-
PubChem-Substance/215969412
-
PubChem-Substance/215969413
-
PubChem-Substance/215969414
-
PubChem-Substance/215969415
-
PubChem-Substance/215969416
-
PubChem-Substance/215969417
-
PubChem-Substance/215969418
-
PubChem-Substance/215969419
-
PubChem-Substance/215969420
-
PubChem-Substance/215969421
-
PubChem-Substance/215969422
-
PubChem-Substance/215969423
-
PubChem-Substance/215969424
-
PubChem-Substance/215969425
-
PubChem-Substance/215969426
-
PubChem-Substance/215969427
-
PubChem-Substance/215969428
-
PubChem-Substance/215969429
-
PubChem-Substance/215969430
-
PubChem-Substance/215969431
-
PubChem-Substance/215969432
-
PubChem-Substance/215969433
-
PubChem-Substance/215969434
-
PubChem-Substance/215969435
-
PubChem-Substance/215969436