| Synthesis of multi-degree of freedom, parallel flexure system concepts via Freedom and Constraint Topology (FACT)–Part I: Principles JB Hopkins, ML Culpepper Precision Engineering 34 (2), 259-270, 2010 | 345 | 2010 |
| Design of a low-cost nano-manipulator which utilizes a monolithic, spatial compliant mechanism ML Culpepper, G Anderson Precision engineering 28 (4), 469-482, 2004 | 306 | 2004 |
| Synthesis of multi-degree of freedom, parallel flexure system concepts via freedom and constraint topology (FACT). Part II: Practice JB Hopkins, ML Culpepper Precision Engineering 34 (2), 271-278, 2010 | 203 | 2010 |
| Carbon nanotubes as piezoresistive microelectromechanical sensors: Theory and experiment MA Cullinan, ML Culpepper Physical review B 82 (11), 115428, 2010 | 172 | 2010 |
| Design of a six-axis micro-scale nanopositioner—μHexFlex SC Chen, ML Culpepper Precision engineering 30 (3), 314-324, 2006 | 152 | 2006 |
| Screw theory based methodology for the deterministic type synthesis of flexure mechanisms J Yu, S Li, H Su, ML Culpepper | 140 | 2011 |
| Actuators for micropositioners and nanopositioners NB Hubbard, ML Culpepper, LL Howell | 129 | 2006 |
| Multiple degree of freedom compliant mechanism ML Culpepper US Patent 7,093,827, 2006 | 100 | 2006 |
| Quasi-kinematic coupling and method for use in assembling and locating mechanical components and the like M Culpepper, AH Slocum US Patent 6,193,430, 2001 | 97 | 2001 |
| Synthesis of precision serial flexure systems using freedom and constraint topologies (FACT) JB Hopkins, ML Culpepper Precision Engineering 35 (4), 638-649, 2011 | 95 | 2011 |
| International assessment of research and development in micromanufacturing KF Ehmann, D Bourell, ML Culpepper, TJ Hodgson, TR Kurfess, M Madou, ... World Technology Evaluation Center, Baltimore, Maryland, 2005 | 81 | 2005 |
| Apparatus and method for accurate, precise, and adjustable kinematic coupling ML Culpepper US Patent 6,746,172, 2004 | 76 | 2004 |
| Design of quasi-kinematic couplings ML Culpepper Precision Engineering 28 (3), 338-357, 2004 | 69 | 2004 |
| A screw theory basis for quantitative and graphical design tools that define layout of actuators to minimize parasitic errors in parallel flexure systems JB Hopkins, ML Culpepper Precision Engineering 34 (4), 767-776, 2010 | 63 | 2010 |
| Scaling electromechanical sensors down to the nanoscale MA Cullinan, RM Panas, CM DiBiasio, ML Culpepper Sensors and Actuators A: Physical 187, 162-173, 2012 | 61 | 2012 |
| Micromanufacturing: International research and development KF Ehmann, D Bourell, ML Culpepper, TJ Hodgson, TR Kurfess, M Madou, ... Springer Science & Business Media, 2007 | 61 | 2007 |
| Design of integrated eccentric mechanisms and exact constraint fixtures for micron-level repeatability and accuracy ML Culpepper, MV Kartik, C DiBiasio Precision Engineering 29 (1), 65-80, 2005 | 54 | 2005 |
| 6-axis electromagnetically-actuated meso-scale nanopositioner ML Culpepper, D Golda US Patent 7,557,470, 2009 | 53 | 2009 |
| Design of an ankle rehabilitation device using compliant mechanisms E Sung, AH Slocum Jr, R Ma, JF Bean, ML Culpepper | 50 | 2011 |
| A pseudo-rigid-body model for large deflections of fixed-clamped carbon nanotubes LL Howell, CM DiBiasio, MA Cullinan, RM Panas, ML Culpepper | 47 | 2010 |
