PROFILE:
David Eric Schwartz
David Eric Schwartz has a background in mixed-signal CMOS circuit design, biosensing, and software engineering. In the energy domain, his PARC research has focused on efficient systems, including novel space-cooling and refrigeration technologies and heat engines. In the printed electronics area at PARC, he has applied his expertise in device modeling and circuit design and testing to printed organic electronics technology -- enabling larger, more complex, and more reliable systems to be fabricated.
David received his B.S. in Mathematics from Brown University, and spent several years as a software engineer and architect before acquiring his Ph.D. degree in Electrical Engineering from Columbia University. While at Columbia, he developed an active CMOS substrate for time-resolved fluorescence detection of DNA.
PARC publications
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2013
Comparison of static and dynamic printed organic shift registers
IEEE Electron Device Letters
February 2013
2012
Printed circuits and sensors for flexible electronic devices
International Conference on Flexible and Printed Electronics 2012
6 September 2012
Scalable printed electronics: an organic decoder addressing ferroelectric nonvolatile memory
Nature Scientific Reports
16 August 2012
Flexible, large-area sensor circuits fabricated by additive printing
2012 NanoTechnology for Defense Conference
8 August 2012
A maximum-power-point-tracking control system for thermoelectric generators
The 3rd International Symposium on Power Electronics for Distributed Generation Systems (PEDG 2012)
25 June 2012
Large-area, Organic and Printed Electronics Convention (LOPE-C)
20 June 2012
Acoustic power recovery system for thermoacoustic cooling
To be presented at TechConnect World 2012
18 June 2012
Inkjet printed organic circuits for addressing non-volatile memory
2012 Spring Meeting of the Materials Research Society
10 April 2012
Organic complementary decoder circuits patterned by inkjet printing for addressing memory elements
2012 Flexible Electronics and Displays Conference
8 February 2012
2011
Organic complementary circuits and resistive memory patterned by inkjet
Large-area Organic and Printed Electronics Convention (LOPE-C)
30 June 2011
2009
Carbon-neutral liquid fuel from sunlight, air, and water
Gordon Research Conference on Renewable Energy: Solar Fuels
1 February 2009
other publications
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2008
A single-photon avalanche diode array for fluorescence lifetime imaging microscopy
Journal of Solid-State Circuits
21 November 2008
Time-resolved Förster-resonance-energy-transfer DNA assay on an active CMOS microarray
Biosensors and Bioelectronics
15 November 2008
2007
A single-photon avalanche diode imager for fluorescence lifetime applications
2007 IEEE Symposium on VLSI Circuits
8 October 2007
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related focus areas
in the news
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PARC building cleantech portfolio; co-extrusion printing of novel battery electrodes and carbon-neutral renewable liquid fuels from atmospheric CO2
9 March 2011 | Green Car Congress
Top Picks from the ARPA-E Summit
3 March 2010 | Technology Review
Is ARPA-E Enough to Keep the U.S. on the Cutting-Edge of a Clean Energy Revolution?
3 March 2010 | Scientific American
news releases
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Samsung Fine Chemicals Chooses PARC to Validate Use of New Materials for Printed Displays
12 November 2012
PARC Named Runner-Up for The Wall Street Journal Technology Innovation Award
16 October 2012
events
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Flexible, Large-Area Sensor Circuits
4 March 2013 | San Antonio, TX
Design of Printed Transistor Circuits for Printed Sensors
1 February 2013 | Phoenix, AZ