| Continuous rods of macroporous polymer as high-performance liquid chromatography separation media F Svec, JMJ Fréchet Analytical Chemistry 64 (7), 820-822, 1992 | 1332 | 1992 |
| New designs of macroporous polymers and supports: from separation to biocatalysis F Svec, JMJ Frechet Science 273 (5272), 205-211, 1996 | 804 | 1996 |
| Porous polymer monoliths: amazingly wide variety of techniques enabling their preparation F Svec Journal of Chromatography A 1217 (6), 902-924, 2010 | 707 | 2010 |
| Monolithic,“molded”, porous materials with high flow characteristics for separations, catalysis, or solid-phase chemistry: control of porous properties during polymerization C Viklund, F Svec, JMJ Frechet, K Irgum Chemistry of materials 8 (3), 744-750, 1996 | 617 | 1996 |
| Molded rigid polymer monoliths as separation media for capillary electrochromatography EC Peters, M Petro, F Svec, JMJ Fréchet Analytical Chemistry 69 (17), 3646-3649, 1997 | 579 | 1997 |
| Monolithic materials: preparation, properties and applications F Svec, TB Tennikova, Z Deyl Elsevier, 2003 | 563 | 2003 |
| Monolithic porous polymer for on-chip solid-phase extraction and preconcentration prepared by photoinitiated in situ polymerization within a microfluidic device C Yu, MH Davey, F Svec, JMJ Frechet Analytical Chemistry 73 (21), 5088-5096, 2001 | 520 | 2001 |
| Molded rigid polymer monoliths as separation media for capillary electrochromatography. 1. Fine control of porous properties and surface chemistry EC Peters, M Petro, F Svec, JMJ Fréchet Analytical chemistry 70 (11), 2288-2295, 1998 | 503 | 1998 |
| Nanoporous polymers for hydrogen storage J Germain, JMJ Fréchet, F Svec small 5 (10), 1098-1111, 2009 | 498 | 2009 |
| High-performance membrane chromatography. A novel method of protein separation TB Tennikova, F Svec, BG Belenkii Journal of Liquid chromatography 13 (1), 63-70, 1990 | 479 | 1990 |
| Monolithic materials: promises, challenges, achievements F Svec, CG Huber Analytical Chemistry 78 (7), 2100-2107, 2006 | 476 | 2006 |
| Enzymatic microreactor-on-a-chip: protein mapping using trypsin immobilized on porous polymer monoliths molded in channels of microfluidic devices DS Peterson, T Rohr, F Svec, JMJ Fréchet Analytical Chemistry 74 (16), 4081-4088, 2002 | 434 | 2002 |
| Kinetic control of pore formation in macroporous polymers. Formation of" molded" porous materials with high flow characteristics for separations or catalysis F Svec, JMJ Frechet Chemistry of materials 7 (4), 707-715, 1995 | 432 | 1995 |
| Porous polymer coatings: a versatile approach to superhydrophobic surfaces PA Levkin, F Svec, JMJ Fréchet Advanced functional materials 19 (12), 1993-1998, 2009 | 421 | 2009 |
| High surface area nanoporous polymers for reversible hydrogen storage J Germain, J Hradil, JMJ Fréchet, F Svec Chemistry of Materials 18 (18), 4430-4435, 2006 | 402 | 2006 |
| Hypercrosslinked polyanilines with nanoporous structure and high surface area: potential adsorbents for hydrogen storage J Germain, JMJ Fréchet, F Svec Journal of Materials Chemistry 17 (47), 4989-4997, 2007 | 391 | 2007 |
| Macroporous polymeric stationary-phase rod as continuous separation medium for reversed-phase chromatography QC Wang, F Svec, JMJ Frechet Analytical Chemistry 65 (17), 2243-2248, 1993 | 382 | 1993 |
| Advances and recent trends in the field of monolithic columns for chromatography F Svec, Y Lv Analytical chemistry 87 (1), 250-273, 2015 | 381 | 2015 |
| Rigid macroporous polymer monoliths EC Peters, F Svec, JMJ Fréchet Advanced Materials 11 (14), 1169-1181, 1999 | 366 | 1999 |
| Molded rigid monolithic porous polymers: an inexpensive, efficient, and versatile alternative to beads for the design of materials for numerous applications F Svec, JMJ Fréchet Industrial & engineering chemistry research 38 (1), 34-48, 1999 | 346 | 1999 |
