Ultrasensitive mass sensing using mode localization in coupled microcantilevers M Spletzer, A Raman, AQ Wu, X Xu, R Reifenberger Applied Physics Letters 88 (25), 2006 | 423 | 2006 |
Atomic force microscopy characterization of cellulose nanocrystals RR Lahiji, X Xu, R Reifenberger, A Raman, A Rudie, RJ Moon Langmuir 26 (6), 4480-4488, 2010 | 418 | 2010 |
Mapping nanomechanical properties of live cells using multi-harmonic atomic force microscopy A Raman, S Trigueros, A Cartagena, APZ Stevenson, M Susilo, ... Nature nanotechnology 6 (12), 809-814, 2011 | 380 | 2011 |
Hydrodynamic loading of microcantilevers vibrating in viscous fluids S Basak, A Raman, SV Garimella Journal of applied physics 99 (11), 2006 | 288 | 2006 |
Experimental investigation of the thermal performance of piezoelectric fans T Acikalin, SM Wait, SV Garimella, A Raman Heat Transfer Engineering 25 (1), 4-14, 2004 | 260 | 2004 |
Cantilever dynamics in atomic force microscopy A Raman, J Melcher, R Tung Nano today 3 (1-2), 20-27, 2008 | 247 | 2008 |
Measuring nanoscale viscoelastic parameters of cells directly from AFM force-displacement curves YM Efremov, WH Wang, SD Hardy, RL Geahlen, A Raman Scientific reports 7 (1), 1541, 2017 | 237 | 2017 |
Microscale pumping technologies for microchannel cooling systems V Singhal, SV Garimella, A Raman Appl. Mech. Rev. 57 (3), 191-221, 2004 | 236 | 2004 |
Highly sensitive mass detection and identification using vibration localization in coupled microcantilever arrays M Spletzer, A Raman, H Sumali, JP Sullivan Applied Physics Letters 92 (11), 2008 | 235 | 2008 |
Nonlinear dynamics of atomic–force–microscope probes driven in Lennard–Jones potentials S Rützel, SI Lee, A Raman Proceedings of the Royal Society of London. Series A: Mathematical, Physical …, 2003 | 218 | 2003 |
Characterization and optimization of the thermal performance of miniature piezoelectric fans T Açıkalın, SV Garimella, A Raman, J Petroski International Journal of Heat and Fluid Flow 28 (4), 806-820, 2007 | 199 | 2007 |
Measuring viscoelasticity of soft biological samples using atomic force microscopy YM Efremov, T Okajima, A Raman Soft matter 16 (1), 64-81, 2020 | 193 | 2020 |
Development of the metrology and imaging of cellulose nanocrystals MT Postek, A Vladár, J Dagata, N Farkas, B Ming, R Wagner, A Raman, ... Measurement Science and Technology 22 (2), 024005, 2010 | 188 | 2010 |
Equivalent point-mass models of continuous atomic force microscope probes J Melcher, S Hu, A Raman Applied Physics Letters 91 (5), 2007 | 177 | 2007 |
Comparative dynamics of magnetically, acoustically, and Brownian motion driven microcantilevers in liquids X Xu, A Raman Journal of Applied Physics 102 (3), 2007 | 173 | 2007 |
Dynamics of tapping mode atomic force microscopy in liquids: Theory and experiments S Basak, A Raman Applied Physics Letters 91 (6), 2007 | 159 | 2007 |
Chaos in atomic force microscopy S Hu, A Raman Physical Review Letters 96 (3), 036107, 2006 | 151 | 2006 |
Local heat transfer coefficients induced by piezoelectrically actuated vibrating cantilevers M Kimber, SV Garimella, A Raman | 149 | 2007 |
Mass sensing based on deterministic and stochastic responses of elastically coupled nanocantilevers E Gil-Santos, D Ramos, A Jana, M Calleja, A Raman, J Tamayo Nano letters 9 (12), 4122-4127, 2009 | 147 | 2009 |
Origins of phase contrast in the atomic force microscope in liquids J Melcher, C Carrasco, X Xu, JL Carrascosa, J Gómez-Herrero, ... Proceedings of the National Academy of Sciences 106 (33), 13655-13660, 2009 | 147 | 2009 |