Skip to Content

My Chem/Biochem

Publications Prior to 2010

 

All publications (ORCID)

 
All Works Listed
2011 - 2015
2016 - 2020
2021 - Current

 

2010

35 

H. Wang, X. Ma, Y. S. Yeh, Y. Zhu, M. D. Daugherty, A. D. Frankel, K. Musier‐Forsyth, and P. F. Barbara*, “Comparative analysis of RNA/protein dynamics for the arginine‐rich‐binding‐motif (ARM) and zinc‐fingerbinding‐ motif proteins encoded by HIV‐1”, Biophysical Journal 2010, 99, 3454‐3462.

 
 

2009

34 

H. Wang, Y. S. Yeh, and P. F. Barbara*, “HIV‐1 nucleocapsid protein bends double‐stranded nucleic acids”, Journal of the American Chemical Society 2009, 131, 15534-15543.

 
33 

D. Zhang, O. Neumann, H. Wang, V. M. Yuwono, A. Barhoumi, M. Perham, J. D. Hartgerink, P. Wittung‐ Stafshede, and N. J. Halas*, “Gold nanoparticles can induce the formation of protein‐based aggregates at physiological pH”, Nano Letters 2009, 9, 666-671.

 
32 

R. Bardhan, O. Neumann, N. Mirin, H. Wang, and N. J. Halas*, “Au nanorice assemble electrolytically into mesostars”, ACS Nano 2009, 3, 266-272.

 
 

2008

31
H. Wang and N. J. Halas*, “Mesoscopic Au meatball particles”, Advanced Materials 2008, 20, 820-825.
 
30 

F. Le, D. W. Brandl, Y. A. Urzhumov, H. Wang, J. Kundu, N. J. Halas, J. Aizpurua, and P. Nordlander*, “Metallic nanoparticle arrays: a common substrate for both Surface‐Enhanced Raman Scattering and Surface‐Enhanced Infrared Absorption”, ACS Nano 2008, 2, 707‐718.

 
 

2007

29 

H. Wang, D. W. Brandl, P. Nordlander, and N. J. Halas*, “Plasmonic nanostructures: artificial molecules”, Accounts of Chemical Research 2007, 40, 53‐62.

28 

H. Wang, J. Kundu, and N. J. Halas*, “Plasmonic nanoshell arrays combine surface‐enhanced vibrational spectroscopies on a single substrate”, Angewandte Chemie 2007, 119, 9198‐9202; Angewandte Chemie International Edition 2007, 46, 9040‐9044.

27 

R. Bardhan, H. Wang, F. Tam, and N. J. Halas*, “Facile chemical approach to ZnO submicron particles with controllable morphologies”, Langmuir 2007, 23, 5843‐5847.

 
 

2007

26 

F. Tam, A. Chen, J. Kundu, H. Wang, and N. J. Halas*, “Mesoscopic nanoshells: Tunability outside quasistatic limit”, Journal of Chemical Physics 2007, 127, 204703.

25 

K. Fu, J. Sun, A. W. H. Lin, H. Wang, N. J. Halas, and R. A. Drezek* “Polarized Angular Dependent Light Scattering properties of bare and PEGylated gold nanoshells”, Current Nanoscience 2007, 3, 167-170.

 
 

2006

24 

H. Wang and N. J. Halas*, “Plasmonic nanoparticle heterodimers in a semiembedded geometry fabricated by stepwise upright assembly”, Nano Letters 2006, 6, 2945-2948.

 
23 

H. Wang, Y. Wu, B. Lassiter, C. L. Nehl, J. H. Hafner, P. Nordlander, and N. J. Halas*, “Symmetry‐breaking in individual plasmonic nanoparticles”, Proceedings of the National Academy of Sciences of U.S.A. 2006, 103, 10856-10860.

 
22 

H. Wang, D. W. Brandl, F. Le, P. Nordlander, and N. J. Halas*, “Nanorice: a hybrid plasmonic nanostructure”, Nano Letters 2006, 6, 827-832.

 
21 

H. Wang, K. Fu, R. A. Drezek, and N. J. Halas*, “Light scattering from spherical nanoantennas: effects of nanoscale roughness”, Applied Physics B - Lasers and Optics 2006, 84, 191-195.

 

2005

20 

H. Wang, C. S. Levin, and N. J. Halas*, “Nanosphere arrays with controlled sub‐10‐nm gaps as surfaceenhanced Raman spectroscopy substrates”, Journal of the American Chemical Society 2005, 127, 14992-14993.

 

19 

H. Wang, F. Tam, N. K. Grady, and N. J. Halas*, “Cu nanoshells: effects of interband transitions on the nanoparticle plasmon resonance”, Journal of Physical Chemistry B 2005, 109, 18218-18222.

 
18
H. Wang, G. P. Goodrich, F. Tam, C. Oubre, P. Nordlander, and N. J. Halas*, “Controlled texturing modifies the surface topography and plasmonic properties of Au nanoshells”, Journal of Physical Chemistry B 2005, 109, 11083-11087.
 
 

2004

17 

H. Wang, J. J. Miao, J. M. Zhu, H. M. Ma, J. J. Zhu*, and H. Y. Chen, “Mesoporous spherical aggregates of anatase nanocrystals with wormhole‐like framework structures: their chemical fabrication, characterization and photocatalytical performance”, Langmuir 2004, 20, 11738-11747.

 

 

16 

H. Wang and J. J. Zhu*, “A novel sonochemical method for the selective preparation of α‐HgS and β‐HgS nanoparticles”, Ultrasonics Sonochemistry 2004, 11, 293‐300.

 
15 

S. Xu, H. Wang, J. J. Zhu*, X. Q. Xin, and H. Y. Chen, “An in situ template route for fabricating metal chalcogenide hollow spherical assemblies sonochemically”, European Journal of Inorganic Chemistry 2004, 4653-4659.

 
 

2003

14 

H. Wang, Y. N. Lu, J. J. Zhu*, and H. Y. Chen, “Sonochemical fabrication and characterization of stibnite nanorods”, Inorganic Chemistry 2003, 42, 6404-6411.

 
13 

H. Wang, J. M. Zhu, J. J. Zhu*, L. M. Yuan, and H. Y. Chen, “Novel microwave‐assisted solution‐phase approach to radial arrays composed of prismatic antimony trisulfide whiskers”, Langmuir 2003, 19, 10993‐10996.

 
12 

J. J. Zhu*, S. Xu, H. Wang, J. M. Zhu, and H. Y. Chen, “Sonochemical synthesis of CdSe hollow spherical assemblies via an in‐situ template route”, Advanced Materials 2003, 15, 156‐+.

 
 

2002

11
H. Wang, J. J. Zhu*, J. M. Zhu, and H. Y. Chen, “Sonochemical method for the preparation of bismuth sulfide nanorods”, Journal of Physical Chemistry B 2002, 106, 3848-3854.
 
10 

H. Wang, J. J. Zhu*, J. M. Zhu, X. H. Liao, S. Xu, T. Ding, and H. Y. Chen, “Preparation of nanocrystalline ceria particles by sonochemical and microwave assisted heating methods”, Physical Chemistry Chemical Physics 2002, 4, 3794-3799.

 
9 

J. J. Zhu*, H. Wang, S. Xu, and H. Y. Chen, “Sonochemical method for the preparation of monodisperse spherical and rectangular lead selenide nanoparticles”, Langmuir 2002, 18, 3306-3310.

 
8 

H. Wang, J. Z. Xu, J. J. Zhu*, and H. Y. Chen, “Preparation of CuO nanoparticles by microwave irradiation”, Journal of Crystal Growth 2002, 244, 88-94.

 
7 

H. Wang, J. J. Zhu*, and H. Y. Chen, “Sonochemical synthesis of antimony trisulfide nanowhiskers”, Chemistry Letters 2002, 31, 1242‐1243.

 
 

2002

6 

S. Xu, H. Wang, J. J. Zhu*, and H. Y. Chen, “Sonochemical synthesis of copper selenides nanocrystals with different phases”, Journal of Crystal Growth 2002, 234, 263‐266.

 
5 

H. Wang, J. R. Zhang, X. N. Zhao, S. Xu, and J. J. Zhu*, “Preparation of copper monosulfide and nickel monosulfide nanoparticles by sonochemical method”, Materials Letters 2002, 55, 253-258.

 
4 

H. Wang, J. R. Zhang, and J. J. Zhu *, “Sonochemical preparation of lead sulfide nanocrystals in an oil‐inwarter microemulsion”, Journal of Crystal Growth 2002, 246, 161-168.

 
3 

H. Wang, S. Xu, X. N. Zhao, J. J. Zhu*, and X. Q. Xin, “Sonochemical synthesis of size‐controlled mercury selenide nanoparticles”, Materials Science and Engineering B 2002, 96, 60-64.

 
 

2001

2 

H. Wang, J. Zhang, and J. J. Zhu*, “A microwave assisted heating method for rapid synthesis of Sphalrite‐type mercury sulfide nanocrystals with different sizes”, Journal of Crystal Growth 2001, 233, 829-836.

 
1

X. H. Liao, H. Wang, J. J. Zhu*, and H. Y. Chen, “Preparation of Bi2S3 nanorods by microwave irradiation”, Materials Research Bulletin 2001, 36, 2339-2346.


Challenge the conventional. Create the exceptional. No Limits.

©