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Beilstein J. Org. Chem. 2025, 21, 421–443, doi:10.3762/bjoc.21.30
Graphical Abstract
Figure 1: Catalytic rate enhancements from a reduction in the Gibbs free energy transition barrier can be fra...
Figure 2: Typical catalysis modes using macrocycle cavities performing (non-specific) hydrophobic substrate b...
Figure 3: (A) Cram’s serine protease model system [87,88]. The macrocycle showed strong substrate binding (organizat...
Figure 4: (A) Self-assembling capsules can perform hydrophobic catalysis [116,117]. (B) Resorcin[4]arene building bloc...
Figure 5: (A) Metal-organic cages and key modes in catalysis. (B) Charged metals or ligands can result in +/−...
Figure 6: (A) Frameworks (MOFs, COFs) can be catalysts. (B) Example of a 2D-COF, assembled by dynamic covalen...
Figure 7: (A) Examples of dynamic covalent chemistry used to synthesize organic cages. (B) Organic cages are ...
Figure 8: (A) Design and development of soluble, functionalized, robust organic cages. (B) Examples of modula...
Figure 9: (A) There are 13 metastable conformers (symmetry-corrected) for cage 1 due to permutations of amide...