| Amide based receptors for anions CR Bondy, SJ Loeb Coordination Chemistry Reviews 240 (1-2), 77-99, 2003 | 705 | 2003 |
| Metal− organic anion receptors: arranging urea hydrogen-bond donors to encapsulate sulfate ions CR Bondy, PA Gale, SJ Loeb Journal of the American Chemical Society 126 (16), 5030-5031, 2004 | 349 | 2004 |
| Rotaxanes as ligands: from molecules to materials SJ Loeb Chemical Society Reviews 36 (2), 226-235, 2007 | 340 | 2007 |
| Metal–organic frameworks with dynamic interlocked components VN Vukotic, KJ Harris, K Zhu, RW Schurko, SJ Loeb Nature Chemistry 4 (6), 456-460, 2012 | 267 | 2012 |
| A molecular shuttle that operates inside a metal–organic framework K Zhu, CA O'keefe, VN Vukotic, RW Schurko, SJ Loeb Nature chemistry 7 (6), 514-519, 2015 | 250 | 2015 |
| Coordination polymers containing rotaxane linkers VN Vukotic, SJ Loeb Chemical Society Reviews 41 (18), 5896-5906, 2012 | 212 | 2012 |
| A New Motif for the Self‐Assembly of [2] Pseudorotaxanes; 1, 2‐Bis (pyridinium) ethane Axles and [24] Crown‐8 Ether Wheels SJ Loeb, JA Wisner Angewandte Chemie International Edition 37 (20), 2838-2840, 1998 | 205 | 1998 |
| Metal ions in the synthesis of interlocked molecules and materials JEM Lewis, PD Beer, SJ Loeb, SM Goldup Chemical Society Reviews 46 (9), 2577-2591, 2017 | 194 | 2017 |
| Metal–Organic Rotaxane Frameworks: Three‐Dimensional Polyrotaxanes from Lanthanide‐Ion Nodes, Pyridinium N‐Oxide Axles, and Crown‐Ether Wheels DJ Hoffart, SJ Loeb Angewandte Chemie 117 (6), 923-926, 2005 | 186 | 2005 |
| Metal-based anion receptors: an application of second-sphere coordination DJ Mercer, SJ Loeb Chemical Society Reviews 39 (10), 3612-3620, 2010 | 173 | 2010 |
| Supramolecular Arrays of 4,7‐Phenanthroline Complexes: Self‐Assembly of Molecular Pd6 Hexagons JR Hall, SJ Loeb, GKH Shimizu, GPA Yap Angewandte Chemie International Edition 37 (1‐2), 121-123, 1998 | 165 | 1998 |
| Molecular Shuttling of a Compact and Rigid H‐Shaped [2] Rotaxane K Zhu, VN Vukotic, SJ Loeb Angewandte Chemie International Edition 51 (9), 2168-2172, 2012 | 149 | 2012 |
| Channels and Cavities Lined with Interlocked Components: Metal‐Based Polyrotaxanes That Utilize Pyridinium Axles and Crown Ether Wheels as Ligands GJE Davidson, SJ Loeb Angewandte Chemie 115 (1), 78-81, 2003 | 147 | 2003 |
| Metal–organic frameworks with mechanically interlocked pillars: controlling ring dynamics in the solid-state via a reversible phase change K Zhu, VN Vukotic, CA O’Keefe, RW Schurko, SJ Loeb Journal of the American Chemical Society 136 (20), 7403-7409, 2014 | 135 | 2014 |
| Ring-through-ring molecular shuttling in a saturated [3] rotaxane K Zhu, G Baggi, SJ Loeb Nature chemistry 10 (6), 625-630, 2018 | 129 | 2018 |
| Metal–organic rotaxane frameworks; MO R Fs SJ Loeb Chemical communications, 1511-1518, 2005 | 126 | 2005 |
| A versatile template for the formation of [2] pseudorotaxanes. 1, 2-Bis (pyridinium) ethane axles and 24-crown-8 ether wheels SJ Loeb, J Tiburcio, SJ Vella, JA Wisner Organic & Biomolecular Chemistry 4 (4), 667-680, 2006 | 117 | 2006 |
| Molecular recognition of nucleobases via simultaneous first-and second-sphere coordination JE Kickham, SJ Loeb, SL Murphy Journal of the American Chemical Society 115 (15), 7031-7032, 1993 | 106 | 1993 |
| Cooperative ion-ion interactions in the formation of interpenetrated molecules DJ Hoffart, J Tiburcio, A de la Torre, LK Knight, SJ Loeb ANGEWANDTE CHEMIE-INTERNATIONAL EDITION IN ENGLISH- 47 (1), 97, 2008 | 101 | 2008 |
| Platinum (ii) nicotinamide complexes as receptors for oxo-anionsElectronic supplementary information (ESI) available: titration plots for [PtL4][PF6] 2 with various oxo-anions … CR Bondy, PA Gale, SJ Loeb Chemical Communications, 729-730, 2001 | 88 | 2001 |
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