New concepts in tetrathiafulvalene chemistry JL Segura, N Martín Angewandte Chemie International Edition 40 (8), 1372-1409, 2001 | 1076 | 2001 |
C (60)-Based Electroactive Organofullerenes. N Martín, L Sánchez, B Illescas, I Pérez Chemical reviews 98 (7), 2527-2548, 1998 | 1017 | 1998 |
Materials for organic solar cells: the C 60/π-conjugated oligomer approach JL Segura, N Martín, DM Guldi Chemical Society Reviews 34 (1), 31-47, 2005 | 660 | 2005 |
Fullerene polymers: synthesis and properties F Giacalone, N Martin Chemical reviews 106 (12), 5136-5190, 2006 | 535 | 2006 |
o-Quinodimethanes: Efficient Intermediates in Organic Synthesis JL Segura, N Martín Chemical reviews 99 (11), 3199-3246, 1999 | 531 | 1999 |
Fullerene for organic electronics DM Guldi, BM Illescas, CM Atienza, M Wielopolski, N Martín Chemical Society Reviews 38 (6), 1587-1597, 2009 | 527 | 2009 |
Organic photovoltaics: a chemical approach JL Delgado, PA Bouit, S Filippone, MÁ Herranz, N Martín Chemical communications 46 (27), 4853-4865, 2010 | 421 | 2010 |
Chemical functionalization and characterization of graphene-based materials G Bottari, MÁ Herranz, L Wibmer, M Volland, L Rodríguez-Pérez, ... Chemical Society Reviews 46 (15), 4464-4500, 2017 | 419 | 2017 |
Electronic Communication in Tetrathiafulvalene (TTF)/C60 Systems: Toward Molecular Solar Energy Conversion Materials? N Martin, L Sánchez, MA Herranz, B Illescas, DM Guldi Accounts of chemical research 40 (10), 1015-1024, 2007 | 409 | 2007 |
Hole transporting materials for perovskite solar cells: a chemical approach J Urieta-Mora, I García-Benito, A Molina-Ontoria, N Martín Chemical Society Reviews 47 (23), 8541-8571, 2018 | 390 | 2018 |
π–π interactions in carbon nanostructures EM Pérez, N Martín Chemical Society Reviews 44 (18), 6425-6433, 2015 | 361 | 2015 |
Charge-transfer-induced structural rearrangements at both sides of organic/metal interfaces TC Tseng, C Urban, Y Wang, R Otero, SL Tait, M Alcamí, D Écija, M Trelka, ... Nature Chemistry 2 (5), 374-379, 2010 | 336 | 2010 |
Synthesis of cyclobutenes by the novel photochemical ring contraction of 4-substituted 2-amino-3, 5-dicyano-6-phenyl-4H-pyrans D Armesto, WM Horspool, N Martin, A Ramos, C Seoane The Journal of Organic Chemistry 54 (13), 3069-3072, 1989 | 332 | 1989 |
Curves ahead: molecular receptors for fullerenes based on concave–convex complementarity EM Pérez, N Martín Chemical Society Reviews 37 (8), 1512-1519, 2008 | 329 | 2008 |
Carbon nanotubes and related structures: synthesis, characterization, functionalization, and applications DM Guldi, N Martin John Wiley & Sons, 2010 | 323 | 2010 |
Synthesis of giant globular multivalent glycofullerenes as potent inhibitors in a model of Ebola virus infection A Muñoz, D Sigwalt, BM Illescas, J Luczkowiak, L Rodriguez-Perez, ... Nature chemistry 8 (1), 50-57, 2016 | 312 | 2016 |
Fullerenes: from synthesis to optoelectronic properties DM Guldi, N Martin Springer Science & Business Media, 2002 | 302 | 2002 |
The nano-forms of carbon JL Delgado, MÁ Herranz, N Martin Journal of Materials Chemistry 18 (13), 1417-1426, 2008 | 293 | 2008 |
The chemistry of pristine graphene L Rodríguez-Pérez, MÁ Herranz, N Martín Chemical Communications 49 (36), 3721-3735, 2013 | 274 | 2013 |
Molecular Self‐Assembly at Solid Surfaces R Otero, JM Gallego, ALV de Parga, N Martín, R Miranda Advanced Materials 23 (44), 5148-5176, 2011 | 251 | 2011 |