Strong, light, multifunctional fibers of carbon nanotubes with ultrahigh conductivity N Behabtu, CC Young, DE Tsentalovich, O Kleinerman, X Wang, AWK Ma, ... science 339 (6116), 182-186, 2013 | 1466 | 2013 |
Accelerating the discovery of materials for clean energy in the era of smart automation DP Tabor, LM Roch, SK Saikin, C Kreisbeck, D Sheberla, JH Montoya, ... Nature reviews materials 3 (5), 5-20, 2018 | 723 | 2018 |
Strain engineering and epitaxial stabilization of halide perovskites Y Chen, Y Lei, Y Li, Y Yu, J Cai, MH Chiu, R Rao, Y Gu, C Wang, W Choi, ... Nature 577 (7789), 209-215, 2020 | 547 | 2020 |
Carbon nanotubes and related nanomaterials: critical advances and challenges for synthesis toward mainstream commercial applications R Rao, CL Pint, AE Islam, RS Weatherup, S Hofmann, ER Meshot, F Wu, ... ACS nano 12 (12), 11756-11784, 2018 | 527 | 2018 |
Role of water in super growth of single-walled carbon nanotube carpets PB Amama, CL Pint, L McJilton, SM Kim, EA Stach, PT Murray, RH Hauge, ... Nano letters 9 (1), 44-49, 2009 | 440 | 2009 |
Harvesting electrical energy from carbon nanotube yarn twist SH Kim, CS Haines, N Li, KJ Kim, TJ Mun, C Choi, J Di, YJ Oh, JP Oviedo, ... Science 357 (6353), 773-778, 2017 | 402 | 2017 |
Autonomy in materials research: a case study in carbon nanotube growth P Nikolaev, D Hooper, F Webber, R Rao, K Decker, M Krein, J Poleski, ... npj Computational Materials 2 (1), 1-6, 2016 | 305 | 2016 |
Influence of alumina type on the evolution and activity of alumina-supported Fe catalysts in single-walled carbon nanotube carpet growth PB Amama, CL Pint, SM Kim, L McJilton, KG Eyink, EA Stach, RH Hauge, ... ACS nano 4 (2), 895-904, 2010 | 261 | 2010 |
In situ evidence for chirality-dependent growth rates of individual carbon nanotubes R Rao, D Liptak, T Cherukuri, BI Yakobson, B Maruyama Nature materials 11 (3), 213-216, 2012 | 251 | 2012 |
Autonomous experimentation systems for materials development: A community perspective E Stach, B DeCost, AG Kusne, J Hattrick-Simpers, KA Brown, KG Reyes, ... Matter 4 (9), 2702-2726, 2021 | 233 | 2021 |
Evolution in catalyst morphology leads to carbon nanotube growth termination SM Kim, CL Pint, PB Amama, DN Zakharov, RH Hauge, B Maruyama, ... The Journal of Physical Chemistry Letters 1 (6), 918-922, 2010 | 222 | 2010 |
3D printable ceramic–polymer electrolytes for flexible high‐performance Li‐ion batteries with enhanced thermal stability AJ Blake, RR Kohlmeyer, JO Hardin, EA Carmona, B Maruyama, ... Advanced energy materials 7 (14), 1602920, 2017 | 203 | 2017 |
Enhanced conductivity, adhesion, and environmental stability of printed graphene inks with nitrocellulose EB Secor, TZ Gao, AE Islam, R Rao, SG Wallace, J Zhu, KW Putz, ... Chemistry of Materials 29 (5), 2332-2340, 2017 | 180 | 2017 |
Carbon nanotubes and nanofibers in composite materials B Maruyama, K Alam Sampe Journal 38 (3), 59-70, 2002 | 171 | 2002 |
Multi-scale characterization of spatially heterogeneous systems: implications for discontinuously reinforced metal–matrix composite microstructures JE Spowart, B Maruyama, DB Miracle Materials Science and Engineering: A 307 (1-2), 51-66, 2001 | 139 | 2001 |
Composite batteries: a simple yet universal approach to 3D printable lithium-ion battery electrodes RR Kohlmeyer, AJ Blake, JO Hardin, EA Carmona, J Carpena-Núñez, ... Journal of Materials Chemistry A 4 (43), 16856-16864, 2016 | 136 | 2016 |
Flexible gallium nitride for high‐performance, strainable radio‐frequency devices NR Glavin, KD Chabak, ER Heller, EA Moore, TA Prusnick, B Maruyama, ... Advanced Materials 29 (47), 1701838, 2017 | 130 | 2017 |
Double-walled boron nitride nanotubes grown by floating catalyst chemical vapor deposition MJ Kim, S Chatterjee, SM Kim, EA Stach, MG Bradley, MJ Pender, ... Nano letters 8 (10), 3298-3302, 2008 | 124 | 2008 |
Benchmarking the performance of Bayesian optimization across multiple experimental materials science domains Q Liang, AE Gongora, Z Ren, A Tiihonen, Z Liu, S Sun, JR Deneault, ... npj Computational Materials 7 (1), 188, 2021 | 120 | 2021 |
Discontinuously reinforced aluminum: current status and future direction B Maruyama JOM 51, 59-61, 1999 | 120 | 1999 |