| Prediction of TiO2 nanoparticle phase and shape transitions controlled by surface chemistry AS Barnard, LA Curtiss Nano letters 5 (7), 1261-1266, 2005 | 768 | 2005 |
| Observation and control of blinking nitrogen-vacancy centres in discrete nanodiamonds C Bradac, T Gaebel, N Naidoo, MJ Sellars, J Twamley, LJ Brown, ... Nature nanotechnology 5 (5), 345-349, 2010 | 597 | 2010 |
| Ultra Nanocrystalline Diamond: Synthesis, Properties and Applications AS Barnard, OA Shenderova, DM Gruen William Andrew Publishing, New York, 2006 | 504* | 2006 |
| Naturally occurring iron oxide nanoparticles: morphology, surface chemistry and environmental stability H Guo, AS Barnard Journal of Materials Chemistry A 1 (1), 27-42, 2013 | 335 | 2013 |
| A model for the phase stability of arbitrary nanoparticles as a function of size and shape A Barnard, P Zapol Journal of Chemical Physics 121 (9), 2004 | 332 | 2004 |
| Effects of particle morphology and surface hydrogenation on the phase stability of TiO2 AS Barnard, P Zapol Physical Review B 70 (23), 235403, 2004 | 279 | 2004 |
| Nanogold: a quantitative phase map AS Barnard, NP Young, AI Kirkland, MA Van Huis, H Xu ACS nano 3 (6), 1431-1436, 2009 | 273 | 2009 |
| Crystallinity and surface electrostatics of diamond nanocrystals AS Barnard, M Sternberg Journal of Materials Chemistry 17 (45), 4811-4819, 2007 | 272 | 2007 |
| Modeling the morphology and phase stability of TiO2 nanocrystals in water AS Barnard, P Zapol, LA Curtiss Journal of Chemical Theory and Computation 1 (1), 107-116, 2005 | 268 | 2005 |
| Size, shape, stability, and color of plasmonic silver nanoparticles AL González, C Noguez, J Beránek, AS Barnard The Journal of Physical Chemistry C 118 (17), 9128-9136, 2014 | 251 | 2014 |
| Modelling of nanoparticles: approaches to morphology and evolution AS Barnard Reports on Progress in Physics 73 (8), 086502, 2010 | 227 | 2010 |
| Diamond standard in diagnostics: nanodiamond biolabels make their mark AS Barnard Analyst 134 (9), 1751-1764, 2009 | 215 | 2009 |
| Self-assembly in nanodiamond agglutinates AS Barnard Journal of Materials Chemistry 18 (34), 4038-4041, 2008 | 189 | 2008 |
| Equilibrium morphology of face-centered cubic gold nanoparticles> 3 nm and the shape changes induced by temperature AS Barnard, XM Lin, LA Curtiss The Journal of Physical Chemistry B 109 (51), 24465-24472, 2005 | 188 | 2005 |
| Nanodiamond photoemitters based on strong narrow-band luminescence from silicon-vacancy defects II Vlasov, AS Barnard, VG Ralchenko, OI Lebedev, MV Kanzyuba, ... Adv. Mater 21 (7), 808-812, 2009 | 178 | 2009 |
| Towards chromate-free corrosion inhibitors: structure–property models for organic alternatives DA Winkler, M Breedon, AE Hughes, FR Burden, AS Barnard, TG Harvey, ... Green Chemistry 16 (6), 3349-3357, 2014 | 177 | 2014 |
| Shaping Nanometer‐Scale Architecture Through Surface Chemistry ZV Saponjic, NM Dimitrijevic, DM Tiede, AJ Goshe, X Zuo, LX Chen, ... Advanced Materials 17 (8), 965-971, 2005 | 175 | 2005 |
| Coexistence of bucky diamond with nanodiamond and fullerene carbon phases AS Barnard, SP Russo, IK Snook Physical Review B 68 (7), 073406, 2003 | 157 | 2003 |
| Atomistic simulation and measurement of pH dependent cancer therapeutic interactions with nanodiamond carrier A Adnan, R Lam, H Chen, J Lee, DJ Schaffer, AS Barnard, GC Schatz, ... Molecular Pharmaceutics 8 (2), 368-374, 2011 | 156 | 2011 |
| Predicting the energetics, phase stability, and morphology evolution of faceted and spherical anatase nanocrystals AS Barnard, P Zapol The Journal of Physical Chemistry B 108 (48), 18435-18440, 2004 | 154 | 2004 |
