You can download my most up-to-date (3/30/17) CV here.
Dissertation: Devices and Circuit Design Strategies for Building Scalable Integrated Molecular Circuits
GPA: 3.98
GPA: 3.96; summa cum laude
Zhang X., Bashizade R., LaBoda, C., Dwyer C., Lebeck A.R (2018). Architecting a Stochastic Computing Unit with Molecular Optical Devices. Accepted to ISCA 2018.
LaBoda, C., Dwyer, C. L., Lebeck, A. R. (2017). Exploiting Dark Fluorophore States to Implement Resonance Energy Transfer Pre-Charge Logic. IEEE Micro. 37:52-62. (pdf)
LaBoda, C., Lebeck, A. R., Dwyer, C. L. (2017). An Optically Modulated Self-Assembled Resonance Energy Transfer Pass Gate. Nano Letters. 17:3775-3781.
LaBoda, C. (2017). Devices and Circuit Design Strategies for Building Scalable Integrated Molecular Circuits. PhD Dissertation. Duke University.
Bhatia S., LaBoda, C., Yanez V., Haddock T., and Densmore, D. (2016). Permutation Machines. ACS Synthetic Biology. 5:827-834. (software)
LaBoda, C. and Dwyer, C. L. (2016). Upconverting Nanoparticle Relays for Resonance Energy Transfer Networks. Advanced Functional Materials. 26:2866-2874.
LaBoda, C., Duschl, H., and Dwyer, C. L. (2014). DNA-Enabled Integrated Molecular Systems for Computation and Sensing. Accounts of Chemical Research. 47:1816-1824. (pdf) (shared cover article)
Monroe, M. R., Reddington, A. P., Collins, A. D., LaBoda, C., Cretich, M., Chiari, M., Little, F. F., Ünlü, M. S. (2011). Multiplexed Method to Calibrate and Quantitate Fluorescence Signal for Allergen-Specific IgE. Analytical Chemistry. 83:9485-9491. (pdf)
Monroe, M. R., Reddington, A. P., Collins, A. D., LaBoda, C., Cretich, M., Chiari, M., Little, F. F., Ünlü, M. S. (2011). Multiplexed, Rapid, Point of Care Device to Quantify Allergen-Specific IgE. Proceedings of the 2011 International Conference on Optical MEMS and Nanophotonics. 231-232.
LaBoda, C., Lebeck, A. R., Dwyer, C. L. (2017). Exploiting Dark Fluorophores in Resonance Energy Transfer Logic. Poster presented at 2017 Foundations of Nanoscience: Self-Assembled Architectures and Devices. Snowbird, Utah.
LaBoda, C. and Dwyer, C. L. (2016). Upconverting Nanoparticle Relays for Signal Restoration in Resonance Energy Transfer Networks. Poster presented at 2016 Foundations of Nanoscience: Self-Assembled Architectures and Devices. Snowbird, Utah. (poster)
LaBoda, C. (2016). How do we build computers at the molecular scale? Talk presented at GradX 2016. Durham, North Carolina.
LaBoda, C. and Dwyer, C. L. (2015). Signal Restoration in Resonance Energy Transfer Logic. Talk presented at the 2015 Duke University Electrical and Computer Engineering Graduate Student Workshop. Durham, North Carolina. (presentation)
LaBoda, C. and Dwyer, C. L. (2014). Upconverting Nanoparticle Based Resonance Energy Transfer Relays. Poster presented at 2014 Foundations of Nanoscience: Self-Assembled Architectures and Devices. Snowbird, Utah. (poster)
LaBoda, C. and Dwyer, C. L. (2013). Upconversion in Resonance Energy Transfer Logic. Poster presented at 2013 Duke ECE Graduate Workshop. Durham, North Carolina. (poster)
LaBoda, C., Ferreirae, M., Canevari, M. (2011). A Multidisciplinary and Collaborative Design Environment for Synthetic Biology. Co-presented talk at 2011 International Genetically Engineered Machines Competition. Indianapolis, Indiana.
Digital Systems, Undergraduate Course
Integrated Molecular Circuits, Graduate Course
Computer Architecture, Undergraduate Course
Digital Systems, Undergraduate Course
Introduction to Electronics, Undergraduate Course