2002 - 2016 | Senior Member of the Technical Staff, Sandia National Laboratories
2000 - 2002 | Postdoctoral Associate, Sandia National Laboratories
Awards
R&D 100 Award, Binary Solvent Diffusion for Fabrication of Large Nanoparticles Supercrystals, 2020
Fellow, Royal Society of Chemistry, UK, 2018
National Excellence in Technology Transfer Award, Federal Laboratory Consortium, 2018
Regional Technology Transfer Award, Federal Laboratory Consortium, 2017
Up & Coming Innovator Award, Sandia National Laboratories, 2014
Laboratory Directed Research & Development Award for Excellence, 2008
Employee Recognition Award, Sandia National Laboratories, 2004
Publications
Poerwoprajitno, A.R., Gloag, L., Watt, J., Cheong, S., Tan, X., Lei, H., Tahini, H.A., Henson, A., Subhash, B., Bedford, N.M., Miller, B.K., O’Mara, P.B., Benedetti, T.M., Huber, D.L., Zhang, W., Smith, S.C., Gooding, J.J., Schuhmann, W., and Tilley, R.D., A single-Pt-atom-on-Ru-nanoparticle electrocatalyst for CO-resilient methanol oxidation. Nature Catalysis, 2022. 5(3): p. 231-237.
Nandakumaran, N., Barnsley, L., Feoktystov, A., Ivanov, S.A., Huber, D.L., Fruhner, L.S., Leffler, V., Ehlert, S., Kentzinger, E., Qdemat, A., Bhatnagar-Schoffmann, T., Rucker, U., Wharmby, M.T., Cervellino, A., Dunin-Borkowski, R.E., Bruckel, T., and Feygenson, M., Unravelling Magnetic Nanochain Formation in Dispersion for In Vivo Applications. Adv Mater, 2021. 33(24): p. e2008683.
Poerwoprajitno, A.R., Gloag, L., Benedetti, T.M., Cheong, S., Watt, J., Huber, D.L., Gooding, J.J., and Tilley, R.D., Formation of Branched Ruthenium Nanoparticles for Improved Electrocatalysis of Oxygen Evolution Reaction. Small, 2019. 15(17): p. e1804577 DOI: 10.1002/smll.201804577.
Silveyra, J.M., Ferrara, E., Huber, D.L., and Monson, T.C., Soft magnetic materials for a sustainable and electrified world. Science, 2018. 362(6413): p. eaao0195 DOI: 10.1126/science.aao0195.
Bleier, G.C., Watt, J., Simocko, C.K., Lavin, J.M., and Huber, D.L., Reversible Magnetic Agglomeration: A Mechanism for Thermodynamic Control over Nanoparticle Size. Angew Chem Int Ed Engl, 2018. 57(26): p. 7678-7681.
Watt, J., Bleier, G.C., Austin, M.J., Ivanov, S.A., and Huber, D.L., Non-volatile iron carbonyls as versatile precursors for the synthesis of iron-containing nanoparticles. Nanoscale, 2017. 9(20): p. 6632-6637.
Watt, J., Hance, B.G., Anderson, R.S., and Huber, D.L., Effect of Seed Age on Gold Nanorod Formation: A Microfluidic, Real-Time Investigation. Chemistry of Materials, 2015. 27(18): p. 6442-6449.
Vreeland, E.C., Watt, J., Schober, G.B., Hance, B.G., Austin, M.J., Price, A.D., Fellows, B.D., Monson, T.C., Hudak, N.S., Maldonado-Camargo, L., Bohorquez, A.C., Rinaldi, C., and Huber, D.L., Enhanced Nanoparticle Size Control by Extending LaMer’s Mechanism. Chemistry of Materials, 2015. 27(17): p. 6059-6066.
Li, B., Smilgies, D.M., Price, A.D., Huber, D.L., Clem, P.G., and Fan, H., Poly(N-isopropylacrylamide) Surfactant-Functionalized Responsive Silver Nanoparticles and Superlattices. ACS Nano, 2014. 8(5): p. 4799-804.
Price, A.D., Hur, S.-M., Fredrickson, G.H., Frischknecht, A.L., and Huber, D.L., Exploring Lateral Microphase Separation in Mixed Polymer Brushes by Experiment and Self-Consistent Field Theory Simulations. Macromolecules, 2012. 45(1): p. 510-524.