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References (70)
-
Justin Debord, S. Eustis, S. Debord, M. Lofye, L. Lyon (2002)
Color-Tunable Colloidal Crystals from Soft Hydrogel NanoparticlesAdvanced Materials, 14
-
A. Stein, Fan Li, N. Denny (2008)
Morphological Control in Colloidal Crystal Templating of Inverse Opals, Hierarchical Structures, and Shaped Particles†Chemistry of Materials, 20
-
P. Feeney, D. Napper, R. Gilbert (1987)
Surfactant-free emulsion polymerizations: predictions of the coagulative nucleation theoryMacromolecules, 20
-
Younan Xia, B. Gates, Z.Y. Li (2001)
Self‐Assembly Approaches to Three‐Dimensional Photonic CrystalsAdvanced Materials, 13
-
Junhu Zhang, Zhiqiang Sun, Bai Yang (2009)
Self-assembly of photonic crystals from polymer colloidsCurrent Opinion in Colloid and Interface Science, 14
-
Hiroshi Kobayashi, A. Chaiyasat, Y. Oshima, Toyoko Suzuki, M. Okubo (2009)
Incorporation of nonionic emulsifier inside carboxylated polymer particles during emulsion copolymerization: influence of methacrylic acid content.Langmuir : the ACS journal of surfaces and colloids, 25 1
-
S. Romanov, T. Maka, C. Torres, M. Müller, R. Zentel, D. Cassagne, J. Manzanares-Martinez, C. Jouanin (2001)
Diffraction of light from thin-film polymethylmethacrylate opaline photonic crystals.Physical review. E, Statistical, nonlinear, and soft matter physics, 63 5 Pt 2
-
Zhongze Gu, Rumiko Horie, S. Kubo, Y. Yamada, A. Fujishima, O. Sato (2002)
Fabrication of a metal-coated three-dimensionally ordered macroporous film and its application as a refractive index sensorAngewandte Chemie, 41
-
M. Antonietti, H. Kaspar, K. Tauer (1996)
Swelling equilibrium of small polymer colloids : Influence of surface structure and a size-dependent depletion correctionLangmuir, 12
-
L. Liau, Yen-Kai Huang (2008)
Effects of influential factors on sedimentation self-assembly processing of photonic band gap crystals by relative humidity-controlled environmentsChemical Engineering and Processing, 47
-
R. Almeida, S. Portal (2003)
Photonic band gap structures by sol–gel processingCurrent Opinion in Solid State & Materials Science, 7
-
G. Shoaf, G. Poehlein (1991)
Kinetics of emulsion copolymerization with acrylic acidsJournal of Applied Polymer Science, 42
-
Masaki Honda, T. Seki, Y. Takeoka (2009)
Dual Tuning of the Photonic Band‐Gap Structure in Soft Photonic CrystalsAdvanced Materials, 21
-
S. Noda, Katsuhiro Tomoda, N. Yamamoto, A. Chutinan (2000)
Full three-dimensional photonic bandgap crystals at near-infrared wavelengthsScience, 289 5479
-
T. Baumiller (2000)
Functional Morphology of the Invertebrate Skeleton, 15
-
L. Zavieh, T. Mayer (1999)
Demonstration of a three-dimensional simple-cubic infrared photonic crystalApplied Physics Letters, 75
-
X. Kong, Chengyou Kan, Hui-Hui Li, Dai Yu, Qing Yuan (1997)
Synthesis and characterization of hollow polymer latex particlesPolymers for Advanced Technologies, 8
-
S. Asher, V. Alexeev, A. Goponenko, Anjal Sharma, I. Lednev, C. Wilcox, D. Finegold (2003)
Photonic crystal carbohydrate sensors: low ionic strength sugar sensing.Journal of the American Chemical Society, 125 11
-
P. Jiang, J. Bertone, K. Hwang, V. Colvin (1999)
Single-Crystal Colloidal Multilayers of Controlled ThicknessChemistry of Materials, 11
-
P. Yao, Caihua Chen, S. Shi, G. Schneider, D. Prather (2001)
Polymer‐Based Photonic CrystalsAdvanced Materials, 13
-
Jaime Juárez, M. Bevan (2012)
Feedback Controlled Colloidal Self‐AssemblyAdvanced Functional Materials, 22
-
N. G. Wen B. You (2009)
10.1039/b906293aChem. Mater., 19
-
Y. Vlasov, Xiang-Zheng Bo, J. Sturm, D. Norris (2001)
On-chip natural assembly of silicon photonic bandgap crystalsNature, 414
-
L. Goldenberg, J. Wagner, J. Stumpe, B. Paulke, E. Görnitz (2002)
Ordered arrays of large latex particles organized by vertical depositionLangmuir, 18
-
P. Bermel (2013)
Turning data on a dimeNature Photonics, 7
-
Jingxia Wang, Y. Wen, Hongli Ge, Zhongwei Sun, Yong Zheng, Yanlin Song, Lei Jiang (2006)
Simple fabrication of full color colloidal crystal films with tough mechanical strengthMacromolecular Chemistry and Physics, 207
-
S. Yang, H. Míguez, G. Ozin (2002)
Opal Circuits of Light—Planarized Microphotonic Crystal ChipsAdvanced Functional Materials, 12
-
W. Deng, Ronglong Li, Mengjun Zhang, Lixiang Gong, Chengyou Kan (2010)
Influences of MAA on the porous morphology of P(St-MAA) latex particles produced by batch soap-free emulsion polymerization followed by stepwise alkali/acid post-treatment.Journal of colloid and interface science, 349 1
-
S. Wong, V. Kitaev, G. Ozin (2003)
Colloidal crystal films: advances in universality and perfection.Journal of the American Chemical Society, 125 50
-
H. Míguez, F. Meseguer, C. López, A. Blanco, J. Moya, J. Requena, Amparo Mifsud, V. Fornés (1998)
Control of the Photonic Crystal Properties of fcc-Packed Submicrometer SiO(2) Spheres by Sintering.Advanced materials, 10 6
-
R. Mayoral, J. Requena, J. Moya, C. López, A. Cintas, H. Míguez, F. Meseguer, L. Vázquez, M. Holgado, A. Blanco (1997)
3D Long‐range ordering in ein SiO2 submicrometer‐sphere sintered superstructureAdvanced Materials, 9
-
V. Manoharan, A. Imhof, J. Thorne, D. Pine (2001)
Photonic Crystals from Emulsion TemplatesAdvanced Materials, 13
-
J. Broek, L. Woldering, R. Tjerkstra, F. Segerink, I. Setija, W. Vos (2012)
Inverse‐Woodpile Photonic Band Gap Crystals with a Cubic Diamond‐like Structure Made from Single‐Crystalline SiliconAdvanced Functional Materials, 22
-
P. Wang, C. Pan (2001)
Emulsion copolymerization of styrene with acrylic or methacrylic acids – distribution of the carboxylic groupColloid and Polymer Science, 279
-
Zhangqing Yu, Bo-geng Li, Bao-fang Li, Z. Pan (1999)
Preparation and characterization of MMA-BA-DMAEMA terpolymer latexColloids and Surfaces A: Physicochemical and Engineering Aspects, 153
-
G. Freymann, V. Kitaev, B. Lotsch, G. Ozin (2013)
Bottom-up assembly of photonic crystals.Chemical Society reviews, 42 7
-
D. Cullen, Yongan Xu, Dexter Reneer, K. Browne, J. Geddes, Shu Yang, Douglas Smith, S. Yang (2011)
Color changing photonic crystals detect blast exposureNeuroImage, 54
-
Y. Takeoka, M. Watanabe (2003)
Template Synthesis and Optical Properties of Chameleonic Poly(N‐isopropylacrylamide) Gels Using Closest‐Packed Self‐Assembled Colloidal Silica CrystalsAdvanced Materials, 15
-
Arnaud Richel, N. Johnson, D. McComb (2000)
Observation of Bragg reflection in photonic crystals synthesized from air spheres in a titania matrixApplied Physics Letters, 76
-
S. Matsushita, M. Shimomura (2006)
Light-propagation patterns in freestanding two-dimensional colloidal crystalsColloids and Surfaces A: Physicochemical and Engineering Aspects, 284
-
P. Jiang, M. Mcfarland (2004)
Large-scale fabrication of wafer-size colloidal crystals, macroporous polymers and nanocomposites by spin-coating.Journal of the American Chemical Society, 126 42
-
Guang-xian Liu, Z. Wang, Y. Ji (2010)
Influence of growth parameters on the fabrication of high-quality colloidal crystals via a controlled evaporation self-assembly methodThin Solid Films, 518
-
F. Hoshino, H. Kawaguchi, Y. Ohtsuka (1987)
N-Substituted Acrylamide-Styrene Copolymer Latices III. Morphology of Latex ParticlesPolymer Journal, 19
-
H. Fudouzi (2009)
Optical properties caused by periodical array structure with colloidal particles and their applicationsAdvanced Powder Technology, 20
-
Pete Vukusic, J. Sambles (2003)
Photonic structures in biologyNature, 424
-
S. John (1987)
Strong localization of photons in certain disordered dielectric superlattices.Physical review letters, 58 23
-
J. Joannopoulos, Steven Johnson, J. Winn, R. Meade (1995)
Photonic Crystals: Molding the Flow of Light -
J. Joannopoulos (2001)
Photonics: Self-assembly lights upNature, 414
-
Shawn-Yu Lin, E. Chow, V. Hietala, P. Villeneuve, J. Joannopoulos (1998)
Experimental demonstration of guiding and bending of electromagnetic waves in a photonic crystalScience, 282 5387
-
H. Fudouzi (2004)
Fabricating high-quality opal films with uniform structure over a large area.Journal of colloid and interface science, 275 1
-
Alessandro Rugge, W. Ford, S. Tolbert (2003)
From a Colloidal Crystal to an Interconnected Colloidal Array: A Mechanism for a Spontaneous RearrangementLangmuir, 19
-
G. Tayeb, B. Gralak, S. Enoch (2003)
Structural Colors in Nature and Butterfly-Wing ModelingOptics & Photonics News, 14
-
M. Campbell, D. Sharp, M. Harrison, M. Harrison, R. Denning, A. Turberfield (2000)
Fabrication of photonic crystals for the visible spectrum by holographic lithographyNature, 404
-
Y. Takeoka D. Nakayama (2003)
10.1002/ange.200351746Angewandte Chemie, 115
-
Wang Jing, Yuan Chun-wei, Huang Zhongbing, Tang Fang-qiong (2005)
Synthesis and optical properties of durable opal photonic crystals with high crystalline quality, 53
-
H. Fudouzi, Younan Xia (2003)
Photonic Papers and Inks: Color Writing with Colorless MaterialsAdvanced Materials, 15
-
R. McPhedran, N. Nicorovici, D. Mckenzie, L. Botten, A. Parker, G. Rouse (2001)
The Sea Mouse and the Photonic CrystalAustralian Journal of Chemistry, 54
-
R. McPhedran, N. Nicorovici, D. Mckenzie, G. Rouse, L. Botten, V. Welch, A. Parker, M. Wohlgennant, V. Vardeny (2003)
Structural colours through photonic crystalsPhysica B-condensed Matter, 338
-
K. Davis, W. Russel, W. Glantschnig (1989)
Disorder-to-Order Transition in Settling Suspensions of Colloidal Silica: X-ray MeasurementsScience, 245
-
P. Lovell, M. El-Aasser (1997)
Emulsion polymerization and emulsion polymers -
Hiroshi and, Younan Xia (2003)
Colloidal Crystals with Tunable Colors and Their Use as Photonic PapersLangmuir, 19
-
Ping Wang, C. Pan (2000)
Polymer-metal composite particles : Metal particles on poly(St-co-MAA) microspheresJournal of Applied Polymer Science, 75
-
Shin‐Hyun Kim, Jong-Min Lim, W. Jeong, D. Choi, Seung‐Man Yang (2008)
Patterned Colloidal Photonic Domes and Balls Derived from Viscous Photocurable SuspensionsAdvanced Materials, 20
-
A. Parker, V. Welch, D. Driver, Natalia Martini (2003)
Structural colour: Opal analogue discovered in a weevilNature, 426
-
S. Kinoshita, S. Yoshioka (2005)
Structural colors in nature: the role of regularity and irregularity in the structure.Chemphyschem : a European journal of chemical physics and physical chemistry, 6 8
-
T. Ruhl, P. Spahn, G. Hellmann (2003)
Artificial opals prepared by melt compressionPolymer, 44
-
E. Yablonovitch (1987)
Inhibited spontaneous emission in solid-state physics and electronics.Physical review letters, 58 20
-
Geoffrey Waterhouse, M. Waterland (2007)
Opal and inverse opal photonic crystals: Fabrication and characterizationPolyhedron, 26
-
S. Park, Younan Xia (1999)
Assembly of Mesoscale Particles over Large Areas and Its Application in Fabricating Tunable Optical FiltersLangmuir, 15
-
B. Cheng, P. Ni, C. Jin, Zhaolin Li, Dao-zhong Zhang, P. Dong, Xingcai Guo (1999)
More direct evidence of the fcc arrangement for artificial opalOptics Communications, 170
- Publisher
- Springer Journals
- Copyright
- 2014 The Korean Fiber Society and Springer Science+Business Media Dordrecht
- ISSN
- 1229-9197
- eISSN
- 1875-0052
- DOI
- 10.1007/s12221-014-1112-0
- Publisher site
- See Article on Publisher Site
Abstract
Abstract The core-shell monodisperse P(St-MAA) microspheres with different diameters ranging from 200 nm to 400 nm were prepared by soap-free emulsion copolymerization, in which styrene (St) and methacrylic acid (MAA) were polymerizable monomers, and ammonium persulfate (APS) acted as initiator. The diameters and monodispersity of P(St-MAA) microspheres could be controlled by adjusting the concentrations of styrene, methacrylic acid and ammonium persulfate. The core-shell structure and chemical component distribution of the P(St-MAA) microspheres were confirmed by TEM and XPS. The photonic crystals on polyester fabrics with three-dimensionally ordered arrangement were fabricated by self-assembly of gravitational sedimentation with P(St-MAA) microspheres and exhibited brilliant structural colors without any chemical dyes and pigments. SEM, TEM and crystallographic analysis were applied to confirm a face centered cubic (fcc) structure of the photonic crystals on polyester fabrics. The versatile structural colors of the photonic crystals were dependent on the photonic band-gap which could be regulated by the spherical size of P(St-MAA) microspheres and viewing angles. This technology may provide a new strategy to color the fabrics and reduce the pollution in the current textile industry.
Journal
Fibers and Polymers – Springer Journals
Published: Jun 1, 2014
Keywords: Polymer Sciences