Subramanian Sundaram

Graduate student, CSAIL, MIT


I currently work on 3D-printed electronics and sensorimotor networks. I'm a PhD student in the Computational Fabrication Group where I work with Prof. Wojciech Matusik.

Previously, I received my undergraduate degrees in Electrical Engineering and Mechanical Engineering at BITS Pilani, India. I completed my undergraduate theses at Prof. Herbert Shea's group at EPFL, Switzerland and at Prof. Klaus Kern's department at the Max Planck Institute for Solid State Research, Germany .
Subra

email:
subramanian.s88@gmail.com

address:
32-321, 77 Massachusetts Ave, Cambridge, MA 02139, USA.

Papers



<image> 3D-Printed Self-Folding Electronics
S. Sundaram, D. S. Kim, M. A. Baldo, R. C. Hayward and W. Matusik
ACS Applied Materials and Interfaces, 2017.
PDF (ACS Editors' choice)

Featured as the MIT Frontpage. Covered by MIT News, C&EN (PDF) and others.
<image> 3D-Printed Autonomous Sensory Composites
S. Sundaram, Z. Jiang, P. Sitthi-Amorn, D. S. Kim, M. A. Baldo and W. Matusik
Advanced Materials Technologies, vol. 2, no. 3, 2017.
PDF (Cover Article)

Featured as the MIT Frontpage. Covered by MIT News, TechCrunch, Forbes and others.
IEEE Signal Processsing Magazine report describes our work in the context of robotics.
<image> Bulkmode Piezoresistive Thermal Oscillators: Timeconstants and Scaling
S. Sundaram and D. Weinstein
IEEE Trans. on Ultrasonics, Ferroelectrics and Frequency Control, vol. 62 , no. 8, 2015.
PDF
<image> Self-Assembled Electrical Biodetector Based on Reduced Graphene Oxide
T. Kurkina, S. Sundaram, R. S. Sundaram, F. Re, M. Masserini, K. Kern and K. Balasubramanian
ACS Nano vol. 6, no. 6, 2012.
PDF
<image> Vibration and Shock Reliability of MEMS: Modeling and Experimental Validation
S. Sundaram, M. Tormen, B. Timotijevic, R. Lockhart, T. Overstolz, R. P. Stanley and H. Shea
Journal of Micromechanics and Microengineering vol. 21, no. 4, 045022, 2011.
PDF
<image> ESD Testing and Combdrive Snap-in in a MEMS Tunable Grating under Shock and Vibration
S. Sundaram, M. Tormen, B. Timotijevic, R. Lockhart, R. P. Stanley and H. Shea
Proc. SPIE Photonics West 2011, 79280A, San Francisco, Jan 2011.
PDF
<image> Modeling Interface Diffusion as a Mechanism for Threshold Voltage Drift in pH Sensors
S. Sundaram and N. N. Sharma
Proc. IEEE Sensors 2010, Hawaii, Nov 2010.
PDF
<image> Improved V-Shaped Microcantilever Width Profile for Sensing Applications
Subramanian S. and N. Gupta
Journal of Physics D: Applied Physics, vol. 42, no. 18, art. no. 185501, 2009.
PDF
<image> A Memory Efficient Algorithm for Real Time Object Counting
Subramanian S. and Bhadrinarayana L. V.
Proc. IEEE International Advance Computing Conference IEEE IACC 2009, Patiala, Mar 2009.
PDF
<image> Design and Analysis of Helical Flagella Propelled Nanorobots
Subramanian S., J. S. Rathore and N. N. Sharma
Proc. 4th IEEE International Conference on Nano/Micro Engineered and Molecular Systems IEEE NEMS 2009, Shenzhen, Jan 2009.
PDF


Thesis



[SM Thesis] Subramanian Sundaram, Thermally-Actuated Piezoresistively-Sensed Mechanical Silicon Oscillator, SM Thesis, Massachusetts Institute of Technology, 2014.PDF



Reports



[20.405] Subramanian Sundaram, Tunable coupling in synthetic oscillators for pattern recognition, 20.405 Project report, Massachusetts Institute of Technology, 2016.PDF



Subra Sundaram : @subra_sun | blog