| Longitudinal unzipping of carbon nanotubes to form graphene nanoribbons DV Kosynkin, AL Higginbotham, A Sinitskii, JR Lomeda, A Dimiev, ... Nature 458 (7240), 872-876, 2009 | 4519 | 2009 |
| Mechanism of graphene oxide formation AM Dimiev, JM Tour ACS nano 8 (3), 3060-3068, 2014 | 1109 | 2014 |
| Graphene oxide. Origin of acidity, its instability in water, and a new dynamic structural model AM Dimiev, LB Alemany, JM Tour ACS nano 7 (1), 576-588, 2013 | 816 | 2013 |
| Pristine graphite oxide A Dimiev, DV Kosynkin, LB Alemany, P Chaguine, JM Tour Journal of the American Chemical Society 134 (5), 2815-2822, 2012 | 559 | 2012 |
| Kinetics of diazonium functionalization of chemically converted graphene nanoribbons A Sinitskii, A Dimiev, DA Corley, AA Fursina, DV Kosynkin, JM Tour ACS nano 4 (4), 1949-1954, 2010 | 450 | 2010 |
| Graphene oxide: fundamentals and applications AM Dimiev, S Eigler John Wiley & Sons, 2016 | 431 | 2016 |
| Layer-by-layer removal of graphene for device patterning A Dimiev, DV Kosynkin, A Sinitskii, A Slesarev, Z Sun, JM Tour Science 331 (6021), 1168-1172, 2011 | 277 | 2011 |
| Direct real-time monitoring of stage transitions in graphite intercalation compounds AM Dimiev, G Ceriotti, N Behabtu, D Zakhidov, M Pasquali, R Saito, ... ACS nano 7 (3), 2773-2780, 2013 | 219 | 2013 |
| Unraveling the infrared spectrum of graphene oxide V Brusko, A Khannanov, A Rakhmatullin, AM Dimiev Carbon 229, 119507, 2024 | 190 | 2024 |
| Chemical mass production of graphene nanoplatelets in∼ 100% yield AM Dimiev, G Ceriotti, A Metzger, ND Kim, JM Tour ACS nano 10 (1), 274-279, 2016 | 188 | 2016 |
| New insights into the solubility of graphene oxide in water and alcohols VV Neklyudov, NR Khafizov, IA Sedov, AM Dimiev Physical Chemistry Chemical Physics 19 (26), 17000-17008, 2017 | 171 | 2017 |
| In Situ Intercalation Replacement and Selective Functionalization of Graphene Nanoribbon Stacks B Genorio, W Lu, AM Dimiev, Y Zhu, ARO Raji, B Novosel, LB Alemany, ... Acs Nano 6 (5), 4231-4240, 2012 | 150 | 2012 |
| Contesting the two-component structural model of graphene oxide and reexamining the chemistry of graphene oxide in basic media AM Dimiev, TA Polson Carbon 93, 544-554, 2015 | 145 | 2015 |
| Graphene nanoribbon devices produced by oxidative unzipping of carbon nanotubes A Sinitskii, A Dimiev, DV Kosynkin, JM Tour ACS nano 4 (9), 5405-5413, 2010 | 145 | 2010 |
| Revisiting the mechanism of oxidative unzipping of multiwall carbon nanotubes to graphene nanoribbons AM Dimiev, A Khannanov, I Vakhitov, A Kiiamov, K Shukhina, JM Tour ACS nano 12 (4), 3985-3993, 2018 | 143 | 2018 |
| Reversible formation of ammonium persulfate/sulfuric acid graphite intercalation compounds and their peculiar Raman spectra AM Dimiev, SM Bachilo, R Saito, JM Tour ACS nano 6 (9), 7842-7849, 2012 | 130 | 2012 |
| Chemistry of graphene oxide. Reactions with transition metal cations RR Amirov, J Shayimova, Z Nasirova, AM Dimiev Carbon 116, 356-365, 2017 | 95 | 2017 |
| Mechanism of the graphene oxide formation: The role of water,“reversibility” of the oxidation, and mobility of the C–O bonds AM Dimiev, K Shukhina, A Khannanov Carbon 166, 1-14, 2020 | 81 | 2020 |
| Low-loss, high-permittivity composites made from graphene nanoribbons A Dimiev, W Lu, K Zeller, B Crowgey, LC Kempel, JM Tour ACS applied materials & interfaces 3 (12), 4657-4661, 2011 | 81 | 2011 |
| Fully exfoliated graphene oxide accelerates epoxy resin curing, and results in dramatic improvement of the polymer mechanical properties A Surnova, D Balkaev, D Musin, R Amirov, AM Dimiev Composites Part B: Engineering 162, 685-691, 2019 | 80 | 2019 |
James M. TourProfessor, Rice University, Department of Chemistry, Materials Science and NanoEngineering, andVerified email at rice.edu
