36.      Hot Brownian dynamics of nonlinear optical nanowires. Smith, B.E.; Roder, P.B.; Pauzauskie#, P.J.; (2015), Chemical Physics Letters (invited feature article), in submission

35.      Rapid synthesis of graphene aerogels for capacitive energy storage. Lim, M.B.; Hu, M.; Manandhar, S.; Sakshaug, A.; Strong, A.; Riley, L.; Pauzauskie#, P.J.; (2015), submitted

34.      Photothermal superheating of water with ion-implanted silicon nanowires. Roder, P.B.; Manandhar, S.; Smith, B.E.; Zhou, X.Z.; Shutthanandan, V.; Pauzauskie#, P.J.; (2015), submitted

33.      Singlet-oxygen generation from individual semiconducting and metallic nanostructures during near-infrared laser trapping. Smith, B.E.; Roder, P.B.; Hanson, J.L.; Manandhar, S.; Devaraj, A.; Perea, D.E.; Kim, W.J.; Kilcoyne, A.L.D.; Pauzauskie#, P.J.; (2015)ACS Photonics, in review

32.       Cold Brownian motion in aqueous media via anti-Stokes photoluminescence, Roder, P.B.; Smith, B.E.; Zhou, X.Z.; Crane, M.J.; Pauzauskie#, P.J.; (2015), in revision

31.        Nanoscale materials for hyperthermal theranostics. Roder, P.B., Smith, B.E., Zhou, X.Z., Pauzauskie#, P.J. (2015) Nanoscale (invited review article), in revision

30.       Mass transport in nanowire synthesis: an overview of scalable nanomanufacturing. Crane, M.J., Pauzauskie#, P.J., (2015) Journal of Materials Science & Technology (invited review), in press

29.        Rapid sol-gel synthesis of nanodiamond aerogel. Manandhar, S., Roder, P.B., Hanson, J.L., Lim, M.B., Smith, B.E., Mann, A., Pauzauskie#, P.J., (2014) Journal of Materials Research 29:2905-2911., (invited feature article), DOI: http://dx.doi.org/10.1557/jmr.2014.336

28.        Photothermal Heating of Nanowires. Roder, P.B., Smith, B.E., Davis, E.J., Pauzauskie, P.J.# (2014) Journal of Physical Chemistry C, 118:1407-1416.,   DOI:10.1021/jp4078745

27.        Nanowire heating by optical electromagnetic irradiation. Roder, P.B., Pauzauskie#, P.J., Davis, E.J. (2012) Langmuir 28:16177-16185., DOI:10.1021/la303250e

Before UW

26.        Mechanically robust 3D graphene macroassembly with high surface area. Worsley, M.A., Kucheyev, S.O., Mason, H.E., Merrill, M.D., Mayer, B.P., Lewicki, J, Valdez, C.A., Suss, M.E., Stadermann, M., Pauzauskie, P.J., Satcher, J. H., Biener, J., Baumann, T.F. (2012), Chemical Communications 48:8428-8430.  DOI:10.1039/c2cc33979

25.        In situ Raman Spectroscopy of COOH-Functionalized SWCNTs Trapped with Optoelectronic Tweezers.  Pauzauskie#, P.J., Jamshidi, A., Zaug, J.M., Baker, S., Han, T.Y-J., Satcher, Jr., J.H., Wu, M.C.. (2012), Advances in Optoelectronics 2012:869829 (4-pages).

24.        High surface area sp(2)-cross-linked three-dimensional graphene monoliths. Worsley, M.A., Olson, T.Y., Lee, J.R.I., Willey, T.M., Nielsen, M.H., Roberts, S.K., Pauzauskie, P.J., Biener, J, Satcher, J.H., Baumann, T.F.. (2011), Journal of Physical Chemistry Letters 2:921-925.

23.        Synthesis and characterization of a nanocrystalline diamond aerogel.  Pauzauskie#, P.J., Crowhurst, J.C., Worsley, M.A., Laurence, T.A., Kilcoyne, A.L.D., Wang, Y., Willey, T., Visbeck, K., Fakra, S., Evans, W.J., Zaug, J.M., Satcher, Jr., J.H.. (2011) , Proceedings of the National Academy of Sciences of the United States of America 108:8550-3 [Featured in Nature, MSNBC, Royal Society of Chemistry, Nature Chemistry, Discovery News]

22.        Synthesis of Graphene Aerogel with High Electrical Conductivity.  Worsley, M.A., P.J. Pauzauskie, T.Y. Olson, J. Biener, J.H. Satcher, and T.F. Baumann. (2010)  Journal of the American Chemical Society 132:14067-14069.

21.        Parallel trapping of multiwalled carbon nanotubes with optoelectronic tweezers.Pauzauskie#*, P.J., Jamshidi*, A., J.K. Valley, J.H. Satcher, and M.C. Wu. (2009) Applied Physics Letters 95:113104-3.

20.        Imaging of single GaN nanowires by tip-enhanced Raman spectroscopy.  Marquestaut, N., D. Talaga, L. Servant, P. Yang, P. Pauzauskie, and F. Lagugne-Labarthet. (2009)  Journal of Raman Spectroscopy 40:1441-1445.

19.        Properties of single-walled carbon nanotube-based aerogels as a function of nanotube loading. Worsley, M.A., P.J. Pauzauskie, S.O. Kucheyev, J.M. Zaug, A.V. Hamza, J.H. Satcher, and T.F. Baumann. (2009) Acta Mater. 57:5131-5136.

18.        High surface area carbon nanotube-supported titanium carbonitride aerogels.  Worsley, M.A., J.D. Kuntz, P.J. , O. Cervantes, J.M. Zaug, A.E. Gash, J.H. Satcher, and T.F. Baumann. (2009)  Journal of Materials Chemistry 19:5503-5506.

17.        NanoPen: Dynamic, Low-Power, and Light-Actuated Patterning of Nanoparticles.  Jamshidi, A., S.L. Neale, K. Yu, P.J. Pauzauskie, P.J. Schuck, J.K. Valley, H.Y. Hsu, A.T. Ohta, and M.C. Wu. (2009)  Nano Letters 9:2921-2925.

16.        X-ray diffraction of electrodeposited nanocrystalline nickel under high pressure.  Grant, C.D., J.C. Crowhurst, T. Arsenlis, E.M. Bringa, Y.M. Wang, J.A. Hawreliak, P.J. Pauzauskie, and S.M. Clark. (2009) Journal of Applied Physics 105:084311.

15.       Direct photonic-plasmonic coupling and routing in single nanowires. Yan, R., P. Pauzauskie, J. Huang, and P. Yang. (2009)  Proceedings of the National Academy of Sciences of the United States of America 106:21045-21050.

14.        Dynamic manipulation and separation of individual semiconducting and metallic nanowires. Jamshidi*, A., P.J. Pauzauskie*, P.J. Schuck, A.T. Ohta, P.Y. Chiou, J. Chou, P.D. Yang, and M.C. Wu. (2008)  Nature Photonics 2:85-89. (cover highlight)

13.        Tunable nanowire nonlinear optical probe.  Nakayama*, Y., P.J. Pauzauskie*, A. Radenovic*, R.M. Onorato*, R.J. Saykally, J. Liphardt, and P.D. Yang. (2007) Nature 447:1098 (cover highlight, featured in Nature Methods)

12.        Transition-metal doped zinc oxide nanowires. Yuhas, B.D., D.O. Zitoun, P.J. Pauzauskie, R.R. He, and P.D. Yang. (2006)  Angewandte Chemie-International Edition 45:420-423.

11.        Optical trapping and integration of semiconductor nanowire assemblies in water.  Pauzauskie, P.J., A. Radenovic, E. Trepagnier, H. Shroff, P.D. Yang, and J. Liphardt. (2006)  Nature Materials 5:97-101.

10.        Electrostatics of nanowire transistors with triangular cross sections.  Vashaee, D., A. Shakouri, J. Goldberger, T. Kuykendall, P. Pauzauskie, and P.D. Yang. (2006) Journal of Applied Physics 99: 054310.

9.          Nanowire photonics. Pauzauskie, P.J., and P. Yang. (2006) Materials Today 9:36-45.

8.          Semiconductor nanowire ring resonator laser. Pauzauskie, P.J., D.J. Sirbuly, and P.D. Yang. (2006)  Physical Review Letters 96: 143903.

7.          Optical routing and sensing with nanowire assemblies. Sirbuly, D.J., M. Law, P. Pauzauskie, H.Q. Yan, A.V. Maslov, K. Knutsen, C.Z. Ning, R.J. Saykally, and P.D. Yang. (2005)  Proceedings of the National Academy of Sciences of the United States of America 102:7800-7805.

6.          Polarized Raman confocal microscopy of single gallium nitride nanowires. Pauzauskie, P.J., D. Talaga, K. Seo, P.D. Yang, and F. Lagugne-Labarthet. (2005) Journal of the American Chemical Society 127:17146-17147.

5.          Gallium nitride nanowires with a metal initiated metal-organic chemical vapor deposition (MOCVD) approach. Lee, S.K., H.J. Choi, P. Pauzauskie, P.D. Yang, N.K. Cho, H.D. Park, E.K. Suh, K.Y. Lim, and H.J. Lee. (2004)  Physica Status Solidi B-Basic Research 241:2775-2778.

4.          Crystallographic alignment of high-density gallium nitride nanowire arrays.  Kuykendall*, T., P.J. Pauzauskie*, Y.F. Zhang, J. Goldberger, D. Sirbuly, J. Denlinger, and P.D. Yang. (2004)  Nature Materials 3:524-528. (cover highlight)

3.          Watching GaN nanowires grow.  Stach, E.A., P.J. Pauzauskie, T. Kuykendall, J. Goldberger, R.R. He, and P.D. Yang. (2003)  Nano Letters 3:867-869.

2.          Metalorganic chemical vapor deposition route to GaN nanowires with triangular cross sections.  Kuykendall, T., P. Pauzauskie, S.K. Lee, Y.F. Zhang, J. Goldberger, and P.D. Yang. (2003)  Nano Letters 3:1063-1066.

1.          Self-organized GaN quantum wire UV lasers.  Choi, H.J., J.C. Johnson, R.R. He, S.K. Lee, F. Kim, P. Pauzauskie, J. Goldberger, R.J. Saykally, and P.D. Yang. (2003)  Journal of Physical Chemistry B 107:8721-8725. (cover highlight)

* — equal contribution

#– corresponding author