Biomedical Engineering Reference
In-Depth Information
H.M. van Driel, Large-scale synthesis of a silicon pho-
tonic crystal with a complete three-dimensional bandgap
near 1.5 micrometres,
Nature
405
(2000), 437-440.
[89] R. Mayoral, J. Requena, J.S. Moya, C. López, A. Cintas,
H. Miguez, F. Meseguer, L. Vázquez, M. Holgado, and
A. Blanco, 3D long-range ordering in an SiO
2
submi-
crometer-sphere sintered superstructure,
Adv Mater
9
(1997), 257-260.
[90] J.M. Jethmalani, W.T. Ford, and G. Beaucage, Crystal
structures of monodisperse colloidal silica in
poly(methyl acrylate) films,
Langmuir
13
(1997),
3338-3344.
[91] P. Pieranski, Colloidal crystals,
Contemp Phys
24
(1983),
25-73.
[92] J.M. Weissman, H.B. Sunkara, A.S. Tse, and S.A. Asher,
Thermally switchable periodicities and diffraction
from mesoscopically ordered materials,
Science
274
(1996), 959-960.
[93] A. Yethiraj and A. van Blaaderen, A colloidal model
system with an interaction tunable from hard sphere
to soft and dipolar,
Nature
421
(2003), 513-517.
[94] Y. Cui, M.T. Bjork, J.A. Liddle, C. Sonnichsen, B. Boussert,
and A.P. Alivisatos, Integration of colloidal nanocrystals
into lithographically patterned devices,
Nano Lett
4
(2004), 1093-1098.
[95] G.A. Ozin and S.M. Yang, The race for the photonic
chip: colloidal crystal assembly in silicon wafers,
Adv
Funct Mater
11
(2001), 95-104.
[96] A. van Blaaderen, R. Ruel, and P. Wiltzius, Template-
directed colloidal crystallization,
Nature
385
(1997),
321-324.
[97] Y.D. Yin, Y. Lu, B. Gates, and Y.N. Xia, Template-
assisted self-assembly: a practical route to complex
aggregates of monodispersed colloids with well-
defined sizes, shapes, and structures,
J Am Chem Soc
123
(2001), 8718-8729.
[98] P. Jiang and M.J. McFarland, Large-scale fabrication of
wafer-size colloidal crystals, macroporous polymers
and nanocomposites by spin-coating,
J Am Chem Soc
126
(2004), 13778-13786.
[99] P. Jiang, T. Prasad, M.J. McFarland, and V.L. Colvin,
Two-dimensional nonclose-packed colloidal crystals
formed by spincoating,
Appl Phys Lett
89
(2006),
011908.
[100] N.C. Linn, C.H. Sun, P. Jiang, and B. Jiang, Self-assem-
bled biomimetic antireflection coatings,
Appl Phys Lett
91
(2007), 101108.
[101] C.H. Sun, N.C. Linn, and P. Jiang, Templated fabrica-
tion of periodic metallic nanopyramid arrays,
Chem
Mater
19
(2007), 4551-4556.
[102] C.H. Sun, W.L. Min, N.C. Linn, P. Jiang, and B. Jiang,
Templated fabrication of large area subwavelength
antireflection gratings on silicon,
Appl Phys Lett
91
(2007), 231105.
[103] W.H. Huang, C.H. Sun, W.L. Min, P. Jiang, and
B. Jiang, Templated fabrication of periodic binary nano-
structures,
J Phys Chem C
112
(2008), 17586-17591.
[104] W.L. Min, A.P. Betancourt, P. Jiang, and B. Jiang, Bioin-
spired broadband antireflection coatings on GaSb,
Appl Phys Lett
92
(2008), 141109.
[105] W.L. Min, B. Jiang, and P. Jiang, Bioinspired self-clean-
ing antireflection coatings,
Adv Mater
20
(2008),
3914-3918.
[106] W.L. Min, P. Jiang, and B. Jiang, Large-scale assembly
of colloidal nanoparticles and fabrication of periodic
subwavelength structures,
Nanotechnology
19
(2008),
475604.
[107] C.H. Sun, A. Gonzalez, N.C. Linn, P. Jiang, and
B. Jiang, Templated biomimetic multifunctional coat-
ings,
Appl Phys Lett
92
(2008), 051107.
[108] C.H. Sun, B.J. Ho, B. Jiang, and P. Jiang, Biomimetic
subwavelength antireflective gratings on GaAs,
Opt
Lett
33
(2008), 2224-2226.
[109] C.H. Sun, P. Jiang, and B. Jiang, Broadband moth-eye
antireflection coatings on silicon,
Appl Phys Lett
92
(2008), 061112.
[110] C.H. Sun, W.L. Min, N.C. Linn, P. Jiang, and B. Jiang,
Large-scale assembly of periodic nanostructures with
metastable square lattices,
J Vac Sci Technol B
27
(2009),
1043-1047.
[111] B.M. Phillips, P. Jiang, and B. Jiang, Biomimetic broad-
band antireflection gratings on solar-grade multicrys-
talline silicon wafers,
Appl Phys Lett
99
(2011), 191103.
[112] M.J. Madou,
Fundamentals of microfabrication: the science
of miniaturization
, 2nd ed., CRC Press, New York, NY,
USA (2002).
[113] H.W. Deckman and J.H. Dunsmuir, Natural lithogra-
phy,
Appl Phys Lett
41
(1982), 377-379.
[114] J.C. Hulteen and R.P. Van Duyne, Nanosphere lithog-
raphy—a materials general fabrication process for
periodic particle array surfaces,
J Vac Sci Technol A
13
(1995), 1553-1558.
[115] A. Kosiorek, W. Kandulski, P. Chudzinski, K. Kempa,
and M. Giersig, Shadow nanosphere lithography:
simulation and experiment,
Nano Lett
4
(2004),
1359-1363.
[116] Y. Xu, G.J. Schneider, E.D. Wetzel, and D.W. Prather,
Centrifugation and spin-coating method for fabrica-
tion of three-dimensional opal and inverse-opal struc-
tures as photonic crystal devices,
J Microlith Microfab
Microsys
3
(2004), 168-173.
[117] R.L. Hoffman, Discontinuous and dilatant viscosity
behavior in concentrated suspensions. 1. Observation
of a flow instability,
Trans Soc Rheol
16
(1972),
155-165.
[118] S.A. Johnson, P.J. Ollivier, and T.E. Mallouk, Ordered
mesoporous polymers of tunable pore size from col-
loidal silica templates,
Science
283
(1999), 963-965.