Redirecting to http://manoharan.seas.harvard.edu/publications.html

See here for full-page view



Physical ageing of the contact line on colloidal particles at liquid interfaces
Kaz, D. M., McGorty, R., Mani, M., Brenner, M. P., & Manoharan, V. N.
Nature Materials11(2), 138-142 (2012). doi:10.1038/nmat3190
See also:
Deriving Finite Sphere Packings
Arkus, N., Manoharan, V. N., & Brenner, M. P.
SIAM Journal on Discrete Mathematics
, 25(4), 1860 (2011). doi:10.1137/100784424
 
DNA-Enabled Self-Assembly of Plasmonic Nanoclusters
Fan, J. A., He, Y., Bao, K., Wu, C., Bao, J., Schade, N. B., Manoharan, V. N., Shvets, G., Nordlander, P., Liu, D. R., Capasso, F.
Nano Letters, 11 (11), 4859-4864 (2011).

Measuring translational, rotational, and vibrational dynamics in colloids with digital holographic microscopy
Fung, J., Martin, K. E., Perry, R. W., Kaz, D. M., McGorty, R., & Manoharan, V. N.
Optics Express, 19(9), 8051-8065 (2011).

Bulk Synthesis of Polymer−Inorganic Colloidal Clusters
Perro, A., & Manoharan, V. N.
Langmuir, 26 (24), 18669-18675 (2010). Reprint (free registration required)

Fano-like Interference in Self-Assembled Plasmonic Quadrumer Clusters
Fan, J. A., Bao, K., Wu, C., Bao, J., Bardhan, R., Halas, N. J., Manoharan, V. N., Shvets, G., Nordlander, P., Capasso, F.
Nano Letters 10 (11), 4680-4685 (2010).

Colloidal self-assembly at an interface.
McGorty, R., Fung, J., Kaz, D., & Manoharan, V. N.
Materials Today, 13 (6), 34-42 (2010).

Self-Assembled Plasmonic Nanoparticle Clusters
Fan, J. A., Wu, C., Bao, K., Bao, J., Bardhan, R., Halas, N. J., Manoharan, V. N., Nordlander, P., Shvets, G., Capasso, F.
Science, 328 (5982), 1135-1138 (2010).
See also:

The Free-Energy Landscape of Clusters of Attractive Hard Spheres

Meng, G., Arkus, N., Brenner, M. P., & Manoharan, V. N.

Science, 327(5965), 560-563 (2010).

See also:

Digital Holographic Microscopy for 3D Imaging of Complex Fluids and Biological Systems
Manoharan, V. N. 
In Frontiers of Engineering: Reports on Leading-edge Engineering from the 2009 Symposium. National Academies Press (2010).

RNA folding and hydrolysis terms explain ATP-independence of RNA interference in human systems
Ali, N., & Manoharan, V. N.  
Oligonucleotides, 19 (4), 341-346 (2009).

Design and Synthesis of Model Transparent Aqueous Colloids with Optimal Scattering Properties
Perro, A., Meng, G., Fung, J., & Manoharan, V. N.
Langmuir, 25 (19), 11295-11298 (2009). Reprint (free registration required)

Fabrication of Model Colloidal Systems with Tunable Optical Properties for Self-Assembly Studies
Perro, A., Meng, G., & Manoharan, V. N.
In Mater. Res. Soc. Symp. Proc. (Vol. 1134, pp. BB05-38) (2009)

Self-Assembly of Polyhedral Hybrid Colloidal Particles
Perro, A., Duguet, E., Ravaine, S., & Manoharan, V. N.
In Mater. Res. Soc. Symp. Proc. (Vol. 1135, pp. CC06-08) (2009). doi:10.1557/PROC-1135-CC06-08

Minimal Energy Clusters of Hard Spheres with Short Range Attractions
Arkus, N., Manoharan, V. N., & Brenner, M. P.
Physical Review Letters, 103 (11), 118303-4 (2009).

Surfactant-Assisted Synthesis of Uniform Titania Microspheres and Their Clusters
Yu, H. K., Yi, G., Kang, J., Cho, Y., Manoharan, V. N., Pine, D. J., & Yang, S.
Chemistry of Materials 20 (8), 2704-2710 (2008). 

Measuring Dynamics and Interactions of Colloidal Particles with Digital Holographic Microscopy
McGorty, R., Fung, J., Kaz, D., Ahn, S., & Manoharan, V. N.
In Digital Holography and Three-Dimensional Imaging Proceedings, OSA Technical Digest (CD) (p. paper DTuB1) (2008).

Colloidal spheres confined by liquid droplets: Geometry, physics, and physical chemistry
Manoharan, V. N.
Solid State Communications, 139 (11-12), 557-561 (2006).

Self-organization of bidisperse colloids in water droplets
Cho, Y., Yi, G., Lim, J., Kim, S., Manoharan, V. N., Pine, D. J., & Yang, S.
Journal of the American Chemical Society, 127 (45), 15968-15975 (2005).