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Michael Cullinan
Michael Cullinan
Associate Professor, University of Texas at Austin
Verified email at austin.utexas.edu - Homepage
Title
Cited by
Cited by
Year
Carbon nanotubes as piezoresistive microelectromechanical sensors: Theory and experiment
MA Cullinan, ML Culpepper
Physical review B 82 (11), 115428, 2010
1722010
A novel microscale selective laser sintering (μ-SLS) process for the fabrication of microelectronic parts
NK Roy, D Behera, OG Dibua, CS Foong, MA Cullinan
Microsystems & Nanoengineering 5 (1), 64, 2019
1062019
A comprehensive study of the sintering of copper nanoparticles using femtosecond, nanosecond, and continuous wave lasers
NK Roy, OG Dibua, W Jou, F He, J Jeong, Y Wang, MA Cullinan
Journal of Micro-and Nano-Manufacturing 6 (1), 010903, 2018
632018
Scaling electromechanical sensors down to the nanoscale
MA Cullinan, RM Panas, CM DiBiasio, ML Culpepper
Sensors and Actuators A: Physical 187, 162-173, 2012
612012
Effect of size, morphology, and synthesis method on the thermal and sintering properties of copper nanoparticles for use in microscale additive manufacturing processes
NK Roy, CS Foong, MA Cullinan
Additive Manufacturing 21, 17-29, 2018
532018
Design and characterization of a two-axis, flexure-based nanopositioning stage with 50 mm travel and reduced higher order modes
NK Roy, MA Cullinan
Precision Engineering 53, 236-247, 2018
492018
Modeling of nanoparticle agglomeration and powder bed formation in microscale selective laser sintering systems
A Yuksel, M Cullinan
Additive Manufacturing 12, 204-215, 2016
482016
A pseudo-rigid-body model for large deflections of fixed-clamped carbon nanotubes
LL Howell, CM DiBiasio, MA Cullinan, RM Panas, ML Culpepper
472010
In-line metrology of nanoscale features in semiconductor manufacturing systems
TF Yao, A Duenner, M Cullinan
Precision Engineering 47, 147-157, 2017
442017
Design of piezoresistive-based MEMS sensor systems for precision microsystems
RM Panas, MA Cullinan, ML Culpepper
Precision engineering 36 (1), 44-54, 2012
402012
Tensile properties of polymer nanowires fabricated via two-photon lithography
IS Ladner, MA Cullinan, SK Saha
RSC advances 9 (49), 28808-28813, 2019
352019
Current challenges and potential directions towards precision microscale additive manufacturing–Part I: Direct ink writing/jetting processes
D Behera, M Cullinan
Precision Engineering 68, 326-337, 2021
332021
Current challenges and potential directions towards precision microscale additive manufacturing–Part IV: Future perspectives
D Behera, S Chizari, LA Shaw, M Porter, R Hensleigh, Z Xu, X Zheng, ...
Precision Engineering 68, 197-205, 2021
332021
Growth of monolayer graphene on nanoscale copper-nickel alloy thin films
JH Cho, JJ Gorman, SR Na, M Cullinan
Carbon 115, 441-448, 2017
332017
Multi-scale computational modeling of residual stress in selective laser melting with uncertainty quantification
D Moser, M Cullinan, J Murthy
Additive Manufacturing 29, 100770, 2019
312019
Design and modeling of a microscale selective laser sintering system
N Roy, A Yuksel, M Cullinan
International Manufacturing Science and Engineering Conference 49910 …, 2016
302016
μ-SLS of Metals: Design of the powder spreader, powder bed actuators and optics for the system
NK Roy, MA Cullinan
University of Texas at Austin, 2015
302015
Current challenges and potential directions towards precision microscale additive manufacturing–Part II: Laser-based curing, heating, and trapping processes
D Behera, S Chizari, LA Shaw, M Porter, R Hensleigh, Z Xu, NK Roy, ...
Precision Engineering 68, 301-318, 2021
292021
Difference between bending and stretching moduli of single-walled carbon nanotubes that are modeled as an elastic tube
CM DiBiasio, MA Cullinan, ML Culpepper
Applied Physics Letters 90 (20), 2007
262007
Controlling the number of layers in graphene using the growth pressure
JH Cho, SR Na, S Park, D Akinwande, KM Liechti, MA Cullinan
Nanotechnology 30 (23), 235602, 2019
252019
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