Synthesis of fluoropolymers in supercritical carbon dioxide JM DeSimone, Z Guan, CS Elsbernd Science 257 (5072), 945-947, 1992 | 1264 | 1992 |
Multiphase design of autonomic self-healing thermoplastic elastomers Y Chen, AM Kushner, GA Williams, Z Guan Nature chemistry 4 (6), 467-472, 2012 | 1199 | 2012 |
General strategies for nanoparticle dispersion ME Mackay, A Tuteja, PM Duxbury, CJ Hawker, B Van Horn, Z Guan, ... Science 311 (5768), 1740-1743, 2006 | 1114 | 2006 |
Malleable and self-healing covalent polymer networks through tunable dynamic boronic ester bonds OR Cromwell, J Chung, Z Guan Journal of the American Chemical Society 137 (20), 6492-6495, 2015 | 917 | 2015 |
Chain walking: a new strategy to control polymer topology Z Guan, PM Cotts, EF McCord, SJ McLain Science 283 (5410), 2059-2062, 1999 | 868 | 1999 |
Making insoluble polymer networks malleable via olefin metathesis YX Lu, F Tournilhac, L Leibler, Z Guan Journal of the American Chemical Society 134 (20), 8424-8427, 2012 | 558 | 2012 |
Olefin metathesis for effective polymer healing via dynamic exchange of strong carbon–carbon double bonds YX Lu, Z Guan Journal of the American Chemical Society 134 (34), 14226-14231, 2012 | 546 | 2012 |
Self-healing multiphase polymers via dynamic metal–ligand interactions D Mozhdehi, S Ayala, OR Cromwell, Z Guan Journal of the American Chemical Society 136 (46), 16128-16131, 2014 | 541 | 2014 |
Control of hierarchical polymer mechanics with bioinspired metal-coordination dynamics SC Grindy, R Learsch, D Mozhdehi, J Cheng, DG Barrett, Z Guan, ... Nature materials 14 (12), 1210-1216, 2015 | 494 | 2015 |
Silyl ether as a robust and thermally stable dynamic covalent motif for malleable polymer design Y Nishimura, J Chung, H Muradyan, Z Guan Journal of the American Chemical Society 139 (42), 14881-14884, 2017 | 486 | 2017 |
Sensors for sugars and other metal binding analytes FH Arnold, Z Guan, CT Chen, G Chen US Patent 6,063,637, 2000 | 437 | 2000 |
Enhancing mechanical performance of a covalent self-healing material by sacrificial noncovalent bonds JA Neal, D Mozhdehi, Z Guan Journal of the American Chemical Society 137 (14), 4846-4850, 2015 | 434 | 2015 |
Self‐healing supramolecular block copolymers J Hentschel, AM Kushner, J Ziller, Z Guan Angewandte Chemie-International Edition 51 (42), 10561, 2012 | 383 | 2012 |
Cyclophane‐based highly active late‐transition‐metal catalysts for ethylene polymerization DH Camacho, EV Salo, JW Ziller, Z Guan Angewandte Chemie 116 (14), 1857-1861, 2004 | 375 | 2004 |
Efficient and selective degradation of polyethylenes into liquid fuels and waxes under mild conditions X Jia, C Qin, T Friedberger, Z Guan, Z Huang Science advances 2 (6), e1501591, 2016 | 366 | 2016 |
Recyclable, strong, and highly malleable thermosets based on boroxine networks WA Ogden, Z Guan Journal of the American Chemical Society 140 (20), 6217-6220, 2018 | 318 | 2018 |
Homogeneous free radical polymerizations in supercritical carbon dioxide: 2. Thermal decomposition of 2, 2'-azobis (isobutyronitrile) Z Guan, JR Combes, YZ Menceloglu, JM DeSimone Macromolecules 26 (11), 2663-2669, 1993 | 301 | 1993 |
A biomimetic modular polymer with tough and adaptive properties AM Kushner, JD Vossler, GA Williams, Z Guan Journal of the American Chemical Society 131 (25), 8766-8768, 2009 | 271 | 2009 |
Designing late-transition metal catalysts for olefin insertion polymerization and copolymerization DH Camacho, Z Guan Chemical communications 46 (42), 7879-7893, 2010 | 266 | 2010 |
Ligand electronic effects on late transition metal polymerization catalysts C Popeney, Z Guan Organometallics 24 (6), 1145-1155, 2005 | 258 | 2005 |