51. Effect of Surface Passivation on Nanodiamond Crystallinity, Beck, Ryan; Petrone, Alessio; Kasper, Joseph; Crane, Matthew; Pauzauskie, Peter; Li, Xiaosong, The Journal of Physical Chemistry C (2018) (accepted).

50. Optomechanical Thermometry of Nanoribbon Cantilevers, Pant, Anupum; Smith, Bennett; Crane, Matthew; Zhou, Xuezhe; Lim, Matthew; Frazier, Stuart; Davis, E.; Pauzauskie, Peter, The Journal of Physical Chemistry C (2018).

49. Copper- and Chloride-Mediated Synthesis and Optoelectronic Trapping of Ultra-High Aspect Ratio Palladium Nanowires, Lim, M.B., Hanson, J.L., Vandsburger, L., Roder, P.B., Zhou, X., Smith, B.E., Ohuchi, F.S., Pauzauskie, P.J. Journal of Materials Chemistry A (2018) (Mar 03, 2018).

48.  Patterning of Graphene Oxide with Optoelectronic Tweezers, Lim, M.B., Smith, B.E., Zhou, X., Pauzauskie, P.J. (2017) (in submission)


47. Scale-up of high specific activity 186gRe production using graphite-encased thick 186W targets and demonstration of an efficient target recycling process, Balkin, E.R., Gagnon, K., Dorman, E., Emery, R., Li, Y., Wooten, A.L., Smith, B.E., Strong, K.T., Pauzauskie, P.J., Fassbender, M.E. and Cutler, C.S., Radiochimica Acta (2017) (Aug 18, 2017).

46. Photothermal effects during nanodiamond synthesis from a carbon aerogel in a laser-heated diamond anvil cell, Crane, M.J., Smith, B.E., Meisenheimer, P.B., Zhou, X., Stroud, R.M., Davis, E.J., Pauzauskie, P.J. (2017) (in review) Link:

45. Rapid synthesis of transition metal dichalcogenide–carbon aerogel composites for supercapacitor electrodes. Crane, M.J. and Lim, M.B., Zhou, X., Pauzauskie, P.J.  Natutre Microsystems and Nanoengineering (2017) (Jul 17, 2017).

44.  Laser refrigeration of rare-earth doped sodium-yttrium-fluoride nanowires. Zhou, X., Roder, P.B., Smith, B.E., Pauzauskie, P.J.  Proc. SPIE 10121, Optical and Electronic Cooling of Solids II, 1012103 (Feb 17, 2017).

43.  Chitosan-Gated Magnetic-Responsive Nanocarrier for Dual-Modal Optical Imaging, Switchable Drug Release, and Synergistic Therapy. Wang, H., Mu, X., Revia, R., Wang, K., Zhou, X., Pauzauskie, P.J., Zhou, S., Zhang, M.  Advanced Healthcare Materials (2017) 1601080.

42.   Photothermal heating of nanoribbons, Smith, B.E., Zhou, X., Davis, E.J., Pauzauskie, P.J. Optical  Engineering (2017) 56:011111.


41.  Pulsed Photothermal Heating of One-Dimensional Nanostructures. Roder, P.B., Manandhar, S., Devaraj, A., Perea, D.E., Davis, E.J., Pauzauskie, P.J. J. Phys. Chem. C (2016) 120:21730-21739.

40. Deuteron irradiation of W and WO3 for production of high specific activity 186Re: Challenges associated with thick target preparation. Balkin, E.R., Gagnon, K., Dorman, E.F., Emery, R., Smith, B.E., Pauzauskie, P.J., Fassbender, M.E., Cutler, C.S., Ketring, A.R., Jurisson, S., Wilbur, D.S. Appl. Radiat. Isot. (2016) 115:197-207.

39.   Laser refrigeration of ytterbium-doped sodium-yttrium-fluoride nanocrystals, Zhou, X., Smith, B.E., Roder, P.B., Pauzauskie, P.J. Adv. Mater. (2016)

38.   Accelerator-Based Production of the 99mTc-186Re Diagnostic-Therapeutic Pair using Metal Disulfide Targets (MoS2, WS2, OsS2). Gott M.D., Hayes C.R., Wycoff, D.E., Balkin E.R., Smith B.E., Pauzauskie P.J., Fassbender, M.E., Cutler, C.S., Ketring, A.R., Wilbur, D.S., Jurisson, S. (2016) Appl. Radiat. Isot. 114:159-166

37.   Recovery of Si-IV nanowires from extreme GPa pressure, Smith, B.E., Zhou, X., Roder, P.B., Abramson, E.H., Pauzauskie, P.J. (2016) J. Appl. Phys. 119(18):185902 


36.   Laser refrigeration of optically-trapped hydrothermal nanocrystals in physiological media, Roder*, P.B., Smith*, B.E., Zhou*, X., Crane, M.J., Pauzauskie, P.J. (2015) PNAS, 112(49):15024-15029 

35.   Hot Brownian thermometry and cavity-enhanced harmonic generation with nonlinear optical nanowires. Smith*, B.E., Roder*, P.B., Zhou, X., Pauzauskie, P.J. (2015) Chem. Phys. Lett. 639:310-314. (invited feature article), (cover highlight)

34.   Ultrafast sol-gel synthesis of graphene aerogel materials. Lim, M.B., Hu, M., Manandhar, S., Sakshaug, A., Strong, A., Riley, L., Pauzauskie, P.J.; (2015) Carbon 95:616-624.

33.   Photothermal superheating of water with ion-implanted silicon nanowires. Roder, P.B., Manandhar, S., Smith, B.E., Zhou, X., Shutthanandan, V., Pauzauskie, P.J. (2015) Adv. Opt. Mater. 3(10):1362-1367.

32.   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 2:559-564.

31.   Nanoscale materials for hyperthermal theranostics. Smith, B.E., Roder, P.B., Zhou, X.Z., Pauzauskie, P.J. (2015) Nanoscale 7:7115-7126. (invited review article)

30.   Mass transport in nanowire synthesis: an overview of scalable nanomanufacturing. Crane, M.J., Pauzauskie, P.J., (2015) J. Mater. Sci. Technol. 31:523-532. (invited review)


29.   Rapid sol-gel synthesis of nanodiamond aerogelManandhar, S., Roder, P.B., Hanson, J.L., Lim, M.B., Smith, B.E., Mann, A., Pauzauskie, P.J., (2014) J. Mater. Res. 29:2905-2911. (invited feature article)

28.   Photothermal Heating of Nanowires. Roder, P.B., Smith, B.E., Davis, E.J., Pauzauskie, P.J. (2014) J. Phys. Chem. C, 118:1407-1416.


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

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)Chem. Commun. 48:8428-8430.

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)Adv. Optoelectron. 2012:869829.

24.   High surface area sp2-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)J. Phys. Chem. Lett. 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) , PNAS 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)  J. Am. Chem. Soc. 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) Appl. Phys. Lett. 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) J. Raman Spectrosc. 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) J. Mater. Chem. 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 Lett. 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) J. Appl. Phys. 105:084311.

15.   Direct photonic-plasmonic coupling and routing in single nanowires. Yan, R., P. Pauzauskie, J. Huang, and P. Yang. (2009) PNAS 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 Photon. 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)  Angew. Chem. Int. Ed. 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)  Nat. Mater. 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) J. Appl. Phys. 99: 054310.

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

8.   Semiconductor nanowire ring resonator laser. Pauzauskie, P.J., D.J. Sirbuly, and P.D. Yang. (2006)  Phys. Rev. Lett. 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) PNAS 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) J. Am. Chem. Soc. 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)  Phys. Status Solidi B 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)  Nat. Mater. 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 Lett. 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 Lett. 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)  J. Phys. Chem. B 107:8721-8725. (cover highlight)

* – equal contribution

# – corresponding author