Li-ion battery materials: present and future N Nitta, F Wu, JT Lee, G Yushin Materials today 18 (5), 252-264, 2015 | 7402 | 2015 |
Anomalous increase in carbon capacitance at pore sizes less than 1 nanometer J Chmiola, G Yushin, Y Gogotsi, C Portet, P Simon, PL Taberna science 313 (5794), 1760-1763, 2006 | 4266 | 2006 |
Challenges facing lithium batteries and electrical double‐layer capacitors NS Choi, Z Chen, SA Freunberger, X Ji, YK Sun, K Amine, G Yushin, ... Angewandte Chemie International Edition 51 (40), 9994-10024, 2012 | 2950 | 2012 |
High-performance lithium-ion anodes using a hierarchical bottom-up approach A Magasinski, P Dixon, B Hertzberg, A Kvit, J Ayala, G Yushin Nature materials 9 (4), 353-358, 2010 | 2365 | 2010 |
A major constituent of brown algae for use in high-capacity Li-ion batteries I Kovalenko, B Zdyrko, A Magasinski, B Hertzberg, Z Milicev, R Burtovyy, ... Science 334 (6052), 75-79, 2011 | 1862 | 2011 |
Toward efficient binders for Li-ion battery Si-based anodes: polyacrylic acid A Magasinski, B Zdyrko, I Kovalenko, B Hertzberg, R Burtovyy, ... ACS applied materials & interfaces 2 (11), 3004-3010, 2010 | 1142 | 2010 |
Control of sp2/sp3 carbon ratio and surface chemistry of nanodiamond powders by selective oxidation in air S Osswald, G Yushin, V Mochalin, SO Kucheyev, Y Gogotsi Journal of the American Chemical Society 128 (35), 11635-11642, 2006 | 1068 | 2006 |
Effect of pore size and surface area of carbide derived carbons on specific capacitance J Chmiola, G Yushin, R Dash, Y Gogotsi Journal of Power Sources 158 (1), 765-772, 2006 | 796 | 2006 |
Electrochemical performance of carbon onions, nanodiamonds, carbon black and multiwalled nanotubes in electrical double layer capacitors C Portet, G Yushin, Y Gogotsi Carbon 45 (13), 2511-2518, 2007 | 792 | 2007 |
High‐capacity anode materials for lithium‐ion batteries: choice of elements and structures for active particles N Nitta, G Yushin Particle & Particle Systems Characterization 31 (3), 317-336, 2014 | 763 | 2014 |
Hydrothermal carbonization of abundant renewable natural organic chemicals for high‐performance supercapacitor electrodes L Wei, M Sevilla, AB Fuertes, R Mokaya, G Yushin Advanced Energy Materials 1 (3), 356-361, 2011 | 686 | 2011 |
Conversion cathodes for rechargeable lithium and lithium-ion batteries F Wu, G Yushin Energy & Environmental Science 10 (2), 435-459, 2017 | 657 | 2017 |
Review of nanostructured carbon materials for electrochemical capacitor applications: advantages and limitations of activated carbon, carbide‐derived carbon, zeolite‐templated … W Gu, G Yushin Wiley Interdisciplinary Reviews: Energy and Environment 3 (5), 424-473, 2014 | 652 | 2014 |
Nanostructured activated carbons from natural precursors for electrical double layer capacitors L Wei, G Yushin Nano Energy 1 (4), 552-565, 2012 | 581 | 2012 |
Atomic layer deposition of vanadium oxide on carbon nanotubes for high-power supercapacitor electrodes S Boukhalfa, K Evanoff, G Yushin Energy & Environmental Science 5 (5), 6872-6879, 2012 | 547 | 2012 |
High-rate electrochemical capacitors based on ordered mesoporous silicon carbide-derived carbon Y Korenblit, M Rose, E Kockrick, L Borchardt, A Kvit, S Kaskel, G Yushin Acs Nano 4 (3), 1337-1344, 2010 | 545 | 2010 |
Ten years left to redesign lithium-ion batteries K Turcheniuk, D Bondarev, V Singhal, G Yushin Nature 559 (7715), 467-470, 2018 | 478 | 2018 |
Carbide‐derived carbons: effect of pore size on hydrogen uptake and heat of adsorption G Yushin, R Dash, J Jagiello, JE Fischer, Y Gogotsi Advanced Functional Materials 16 (17), 2288-2293, 2006 | 468 | 2006 |
Titanium carbide derived nanoporous carbon for energy-related applications R Dash, J Chmiola, G Yushin, Y Gogotsi, G Laudisio, J Singer, J Fischer, ... Carbon 44 (12), 2489-2497, 2006 | 467 | 2006 |
Polypyrrole‐derived activated carbons for high‐performance electrical double‐layer capacitors with ionic liquid electrolyte L Wei, M Sevilla, AB Fuertes, R Mokaya, G Yushin Advanced Functional Materials 22 (4), 827-834, 2012 | 457 | 2012 |