| Method for simultaneous recovery of hydrogen from water and from hydrocarbons RS Willms US Patent 5,525,322, 1996 | 360 | 1996 |
| Aqueous-phase oxidation: the intrinsic kinetics of single organic compounds RS Willms, AM Balinsky, DD Reible, DM Wetzel, DP Harrison Industrial & engineering chemistry research 26 (1), 148-154, 1987 | 68 | 1987 |
| An overview of the US DCLL ITER-TBM program CPC Wong, M Abdou, M Dagher, Y Katoh, RJ Kurtz, S Malang, ... Fusion engineering and design 85 (7-9), 1129-1132, 2010 | 67 | 2010 |
| Fusion materials science and technology research opportunities now and during the ITER era SJ Zinkle, JP Blanchard, RW Callis, CE Kessel, RJ Kurtz, PJ Lee, ... Fusion Engineering and Design 89 (7-8), 1579-1585, 2014 | 57 | 2014 |
| Tritium Conductivity and Isotope Effect in Proton‐Conducting Perovskites R Mukundan, EL Brosha, SA Birdsell, AL Costello, FH Garzon, RS Willms Journal of The Electrochemical Society 146 (6), 2184, 1999 | 53 | 1999 |
| Tritium recovery from tritiated water with a two-stage palladium membrane reactor SA Birdsell, RS Willms Fusion engineering and design 39, 1041-1048, 1998 | 48 | 1998 |
| ETR/ITER systems code WL Barr, CG Bathke, JN Brooks, RH Bulmer, A Busigin, PF DuBois, ... Oak Ridge National Lab.(ORNL), Oak Ridge, TN (United States), 1988 | 48 | 1988 |
| Materials-related issues in the safety and licensing of nuclear fusion facilities N Taylor, B Merrill, L Cadwallader, L Di Pace, L El-Guebaly, ... Nuclear Fusion 57 (9), 092003, 2017 | 45 | 2017 |
| Progress and challenges of the ITER TBM Program from the IO perspective LM Giancarli, V Barabash, DJ Campbell, S Chiocchio, JJ Cordier, ... Fusion Engineering and Design 109, 1491-1497, 2016 | 40 | 2016 |
| An overview of US ITER test blanket module program A Ying, M Abdou, C Wong, S Malang, N Morley, M Sawan, B Merrill, ... Fusion engineering and design 81 (1-7), 433-441, 2006 | 40 | 2006 |
| Adsorption isotherms for tritium on various adsorbents at liquid nitrogen temperature Y Kawamura, M Enoeda, RS Willms, PM Zielinski, RH Wilhelm, M Nishi Fusion technology 37 (1), 54-61, 2000 | 36 | 2000 |
| Aqueous-phase oxidation: rate enhancement studies RS Willms, DD Reible, DM Wetzel, DP Harrison Industrial & Engineering Chemistry Research 26 (3), 606-612, 1987 | 36 | 1987 |
| Ultra-high tritium decontamination of simulated fusion fuel exhaust using a 2-stage palladium membrane reactor SA Birdsell, RS Willms, RC Wilhelm Fusion Technology 30 (3P2A), 905-910, 1996 | 35 | 1996 |
| Recent palladium membrane reactor development at the tritium systems test assembly RS Willms, SA Birdsell, RC Wilhelm Fusion technology 28 (3P1), 772-777, 1995 | 35 | 1995 |
| Experience of TSTA milestone runs with 100 grams-level of tritium JL Anderson, JR Bartlit, RV Carlson, DO Coffin, FA Damiano, ... Fusion Technology 14 (2P2A), 438-443, 1988 | 35 | 1988 |
| Modeling and data analysis of a palladium membrane reactor for tritiated impurities cleanup SA Birdsell, RS Willms Fusion technology 28 (3P1), 530-537, 1995 | 33 | 1995 |
| Time-dependent tritium inventories and flow rates in fuel cycle components of a tokamak fusion reactor W Kuan, MA Abdou, RS Willms Fusion engineering and design 28, 329-335, 1995 | 33 | 1995 |
| Thermal response of tritiated codeposits from JET and TFTR to transient heat pulses CH Skinner, N Bekris, JP Coad, CA Gentile, A Hassanein, R Reiswig, ... Physica Scripta 2003 (T103), 34, 2003 | 31 | 2003 |
| Performance of a palladium membrane reactor using an Ni catalyst for fusion fuel impurities processing RS Willms, R Wilhelm, S Konishi Fusion engineering and design 28, 397-405, 1995 | 29 | 1995 |
| Tritium supply considerations S Willms Fusion Development Paths Workshop, 2003 | 28 | 2003 |
