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Journal articles on the topic 'Crystalline ordering'

Author: Grafiati
Published: 4 June 2021
Last updated: 1 February 2022

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1

Szlawska, Maria, and Dariusz Kaczorowski. "Antiferromagnetic ordering in single-crystalline Ce2IrSi3." Journal of the Korean Physical Society 62, no. 10 (May 2013): 1564–66. http://dx.doi.org/10.3938/jkps.62.1564.

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2

Birshtein, Tatiana M., Anna A. Mercurieva, Victor A. Pryamitsyn, and Alexei Polotzkiy. "Liquid-crystalline ordering in polymer brushes." Macromolecular Theory and Simulations 5, no. 2 (March 1996): 215–23. http://dx.doi.org/10.1002/mats.1996.040050204.

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3

Gaffo, Luciana, Maria J. S. P. Brasil, Fernando Cerdeira, Carlos Giles, and Wania C. Moreira. "The effect of cyclic voltammetry on the crystalline order of PdPc thin films." Journal of Porphyrins and Phthalocyanines 09, no. 02 (February 2005): 89–93. http://dx.doi.org/10.1142/s1088424605000150.

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The degree of crystalline order of evaporated and cast palladium phthalocyanine films was investigated before and after they were submitted to a voltammetric process. X-ray diffraction and UV-vis spectroscopy measurements demonstrated that the electrochemical treatment improves the crystalline quality of the films. The X-ray results revealed an increase of the average size of the crystallites composing the films as well as a decrease in the spacing between the lattice planes in the direction perpendicular to the surface of the film. Optical measurements showed that the electrochemical treatment also introduces an appreciable degree of in-plane ordering. These improvements of crystalline order are observed in both types of films, cast and evaporated, which indicates that the ordering is a direct consequence of the electrochemical treatment and not of the method used for the film deposition.
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4

CRAWFORD, G. P., and J. W. DOANE. "ORDERING AND ORDERING TRANSITIONS IN CONFINED LIQUID CRYSTALS." Modern Physics Letters B 07, no. 28 (December 10, 1993): 1785–808. http://dx.doi.org/10.1142/s0217984993001818.

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A resurgence of interest in confined liquid crystals has taken place over the past few years because of the availability of well-defined and random-type matrices that can be used to constrain liquid crystalline materials to submicrometer spaces. The main driving force behind many of the studies on confined liquid crystals is their relevance to electrically controllable light-scattering devices. Apart from their electrooptic importance, confined liquid crystals introduce many fascinating surface and finite-size effects which are the subject of this review.
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5

Fujiwara, Takumi, Takayuki Honma, S. Mizuno, N. Iwafuchi, Yasuhiko Benino, and Takayuki Komatsu. "Order/Disorder Hybrid Structures in Photonic Glass Materials." Advanced Materials Research 11-12 (February 2006): 53–56. http://dx.doi.org/10.4028/www.scientific.net/amr.11-12.53.

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Investigations for space-selected structure ordering from nano-particles to single-crystal patterning in glasses will be described. Transparent crystallization in glass must be the best material solution to obtain novel functional glasses with a permanent second-order optical nonlinearity. We focus on the new functions created by structure ordering in glass by means of laser micro-fabrication for space-selected crystallization. Two topics in our recent experimental results of space-selected structure ordering in glass will be presented as follows: 1) Single crystalline patterning by atom heat laser processing in Sm-doped glasses for optical waveguides with second-order optical nonlinearity, 2) structure ordering of domains in crystallized glass fibers for possible photonic fiber-type devices with active signal processing.
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6

Li, Minhuan, Yanshuang Chen, Hajime Tanaka, and Peng Tan. "Revealing roles of competing local structural orderings in crystallization of polymorphic systems." Science Advances 6, no. 27 (July 2020): eaaw8938. http://dx.doi.org/10.1126/sciadv.aaw8938.

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Most systems have more than two stable crystalline states in the phase diagram, which is known as polymorphism. Crystallization in such a system is often under strong influence of competing orderings linked to those crystals. However, how such competition affects crystal nucleation and ordering toward the final crystalline state is largely unknown. This is primarily because the competition takes place locally and thus is masked by large positional fluctuations. We develop a unique method to correctly identify local symmetries by removing their distortions due to positional fluctuations. This allows us to experimentally access the spatiotemporal fluctuations of local symmetries at a single-particle level in crystallization of a charged colloidal system near the body-centered cubic–face-centered cubic border. Thus, we successfully reveal the crucial roles of competing ordering in the initial selection of polymorphs and the final grain boundary motion toward the most stable state from a microscopic perspective.
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7

Červinka, Ladislav. "Medium-range ordering in non-crystalline solids." Journal of Non-Crystalline Solids 90, no. 1-3 (February 1987): 371–81. http://dx.doi.org/10.1016/s0022-3093(87)80446-5.

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8

Albunia, Alexandra R., Concetta D’Aniello, Gaetano Guerra, Dante Gatteschi, Matteo Mannini, and Lorenzo Sorace. "Ordering Magnetic Molecules within Nanoporous Crystalline Polymers." Chemistry of Materials 21, no. 20 (October 27, 2009): 4750–52. http://dx.doi.org/10.1021/cm902158k.

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9

Fröhlich, Jürg, and Charles-Edouard Pfister. "Absence of crystalline ordering in two dimensions." Communications in Mathematical Physics 104, no. 4 (December 1986): 697–700. http://dx.doi.org/10.1007/bf01211072.

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10

Nyrkova, Irina A., Nadezhda P. Shusharina, and Alexei R. Khokhlov. "Liquid-crystalline ordering in solutions of polyelectrolytes." Macromolecular Theory and Simulations 6, no. 6 (November 1997): 965–1006. http://dx.doi.org/10.1002/mats.1997.040060602.

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11

Tong, Zaizai, Junyi Zhou, Rui-Yang Wang, and Jun-Ting Xu. "Interplay of microphase separation, crystallization and liquid crystalline ordering in crystalline/liquid crystalline block copolymers." Polymer 130 (November 2017): 1–9. http://dx.doi.org/10.1016/j.polymer.2017.09.071.

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12

Workineh, Zerihun, and Alexandros Vanakaras. "Surface-Induced Ordering on Model Liquid Crystalline Dendrimers." Polymers 6, no. 8 (July 30, 2014): 2082–99. http://dx.doi.org/10.3390/polym6082082.

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13

Wright, Adrian C. "Crystalline-like ordering in melt-quenched network glasses?" Journal of Non-Crystalline Solids 401 (October 2014): 4–26. http://dx.doi.org/10.1016/j.jnoncrysol.2013.12.012.

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14

Gutman, Lorin, and Eugene Shakhnovich. "Orientational ordering in sequence-disordered liquid crystalline polymers." Chemical Physics Letters 325, no. 4 (July 2000): 323–29. http://dx.doi.org/10.1016/s0009-2614(00)00693-x.

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15

Jung, M. H., A. M. Alsmadi, S. Chang, M. R. Fitzsimmons, Y. Zhao, A. H. Lacerda, H. Kawanaka, S. El-Khatib, and H. Nakotte. "Magnetic ordering in single-crystalline SrLaFeO4 and Sr1.1La0.9FeO4." Journal of Applied Physics 97, no. 10 (May 15, 2005): 10A926. http://dx.doi.org/10.1063/1.1861416.

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16

Yu, Haifeng, Takaomi Kobayashi, and Huai Yang. "Liquid-Crystalline Ordering Helps Block Copolymer Self-Assembly." Advanced Materials 23, no. 29 (May 30, 2011): 3337–44. http://dx.doi.org/10.1002/adma.201101106.

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17

Yasen, Muniriding, Masashi Torikai, and Mamoru Yamashita. "Nematic Ordering of a Liquid Crystalline Homeotropic Cell." Journal of the Physical Society of Japan 73, no. 9 (September 15, 2004): 2453–57. http://dx.doi.org/10.1143/jpsj.73.2453.

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18

Mercurieva, Anna A., Tatiana M. Birshtein, and Victor M. Amoskov. "Theory of Liquid-crystalline Ordering in Polymer Brushes." Macromolecular Symposia 252, no. 1 (May 2007): 90–100. http://dx.doi.org/10.1002/masy.200750609.

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19

Wei, Wei, Yu Liu, and Huiming Xiong. "Interplay of liquid crystalline ordering in double side-chain liquid crystalline diblock copolymer." Polymer 54, no. 25 (November 2013): 6793–800. http://dx.doi.org/10.1016/j.polymer.2013.10.041.

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20

Rha, Sa-Kyun, Seung-Deok Baek, and Youn-Seoung Lee. "Effects of Dimethylamine Borane in Electroless Ni–B Plating." Journal of Nanoscience and Nanotechnology 15, no. 10 (October 1, 2015): 7444–50. http://dx.doi.org/10.1166/jnn.2015.11136.

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By electroless plating in a pH 7 bath at 50 °C, Ni–B alloy films with nano-crystallite size (3∼6 nm) were formed on screen printed Ag paste. According to the addition of DMAB (dimethylamine borane), the boron concentration in the Ni–B alloy films increased systematically from <1 at.% to ∼10 at.%, and the crystallite size of the Ni–B alloy films decreased gradually. The crystal/electronic structures of the Ni–B alloys were studied using XAS (X-ray absorption spectroscopy), XRD, etc., with changes of boron contents. In the crystalline structure, the ordering of fcc type was broken upon alloying and then the samples with additions of 0.5 M and 1 M DMAB had amorphous-like structures with decreases of crystallite size. In the electronic structure, the unoccupied d states of the Ni sites were filled as the B concentration increased upon alloying. From the electronegativity rule and the broken orderging upon alloying, we can suggest that an overall charge transfer occurs from the Ni sites toward the alloying B sites with intra-atomic charge redistribution, leading to an increased occupancy of the Ni 3d states in the alloys.
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21

Szlawska, Maria, Daniel Gnida, Piotr Ruszała, Maciej J. Winiarski, Małgorzata Samsel-Czekała, Marcus Schmidt, Yuri Grin, and Dariusz Kaczorowski. "Antiferromagnetic Ordering and Transport Anomalies in Single-Crystalline CeAgAs2." Materials 13, no. 17 (September 1, 2020): 3865. http://dx.doi.org/10.3390/ma13173865.

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Single crystals of the ternary cerium arsenide CeAgAs2 were grown by chemical vapor transport. They were studied by means of x-ray diffraction, magnetization, heat capacity and electrical transport measurements. The experimental research was supplemented with electronic band structure calculations. The compound was confirmed to order antiferromagnetically at the Néel temperature of 4.9 K and to undergo metamagnetic transition in a field of 0.5 T at 1.72 K. The electrical resistivity shows distinct increase at low temperatures, which origin is discussed in terms of pseudo-gap formation in the density of states at the Fermi level and quantum corrections to the resistivity in the presence of atom disorder due to crystal structure imperfections.
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22

Coppin, C. M., and P. C. Leavis. "Quantitation of liquid-crystalline ordering in F-actin solutions." Biophysical Journal 63, no. 3 (September 1992): 794–807. http://dx.doi.org/10.1016/s0006-3495(92)81647-8.

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23

Wiedenmann, A., M. Kammel, and A. Hoell. "Pseudo-crystalline ordering in ferrofluids induced by magnetic fields." Journal of Magnetism and Magnetic Materials 272-276 (May 2004): 1487–89. http://dx.doi.org/10.1016/j.jmmm.2003.12.1421.

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24

Hueser, B., T. Pakula, and H. W. Spiess. "Macroscopic ordering of liquid-crystalline polymers with discotic mesogens." Macromolecules 22, no. 4 (July 1989): 1960–63. http://dx.doi.org/10.1021/ma00194a073.

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25

Tamura, R., and C. P. Gomez. "Structural and magnetic ordering in Cd-based crystalline approximants." Acta Crystallographica Section A Foundations of Crystallography 68, a1 (August 7, 2012): s64. http://dx.doi.org/10.1107/s0108767312098765.

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26

Herrmannsdörfer, T., A. Dönni, P. Fischer, L. Keller, E. Clementyev, A. Furrer, S. Mango, B. van den Brandt, and H. Kitazawa. "Magnetic ordering and crystalline electric field splitting in Nd3Pd20Si6." Journal of Alloys and Compounds 323-324 (July 2001): 509–12. http://dx.doi.org/10.1016/s0925-8388(01)01024-6.

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27

Sobota, Marek, Xinjiao Wang, Melinda Fekete, Markus Happel, Karsten Meyer, Peter Wasserscheid, Mathias Laurin, and Jörg Libuda. "Ordering and Phase Transitions in Ionic Liquid-Crystalline Films." ChemPhysChem 11, no. 8 (April 6, 2010): 1632–36. http://dx.doi.org/10.1002/cphc.201000144.

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28

Pisula, Wojciech, Matthias Zorn, Ji Young Chang, Klaus Müllen, and Rudolf Zentel. "Liquid Crystalline Ordering and Charge Transport in Semiconducting Materials." Macromolecular Rapid Communications 30, no. 14 (July 7, 2009): 1179–202. http://dx.doi.org/10.1002/marc.200900251.

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29

Lv, Ruihua, Shufen Zou, Bing Na, Huayan Pan, and Huiyu Deng. "Stretch-induced molecular ordering in amorphous/crystalline polylactide blends." Polymer Engineering & Science 53, no. 1 (June 19, 2012): 21–26. http://dx.doi.org/10.1002/pen.23233.

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30

Matsuyama, Akihiko. "Mean Field Theory of Crystalline Ordering in Colloidal Solutions." Journal of the Physical Society of Japan 75, no. 3 (March 15, 2006): 034604. http://dx.doi.org/10.1143/jpsj.75.034604.

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31

Umesh, C. P., Antonius T. M. Marcelis, and Han Zuilhof. "Fluorine-containing triphenylenes. Liquid crystalline properties and surface ordering." Liquid Crystals 41, no. 12 (November 11, 2014): 1911–22. http://dx.doi.org/10.1080/02678292.2014.960490.

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32

Červinka, Ladislav. "Comments on medium-range ordering in non-crystalline solids." Journal of Non-Crystalline Solids 97-98 (December 1987): 207–12. http://dx.doi.org/10.1016/0022-3093(87)90049-4.

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33

Mukhopadhyay, N. K., K. Chattopadhyay, and S. Ranganathan. "Ordering transformation in icosahedral quasicrystals and related crystalline phases." Bulletin of Materials Science 19, no. 5 (October 1996): 717–23. http://dx.doi.org/10.1007/bf02745191.

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34

Sugimoto, Toshiki, and Yoshiyasu Matsumoto. "Orientational ordering in heteroepitaxial water ice on metal surfaces." Physical Chemistry Chemical Physics 22, no. 29 (2020): 16453–66. http://dx.doi.org/10.1039/d0cp01763a.

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35

Zhou, Ji, Qing-Xin Su, K. M. Moulding, and D. J. Barber. "Sol-gel derived Ba(Mg1/3Ta2/3)O3 thin films: Preparation and structure." Journal of Materials Research 12, no. 3 (March 1997): 596–99. http://dx.doi.org/10.1557/jmr.1997.0087.

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Ba(Mg1/3Ta2/3)O3 thin films were prepared by a sol-gel process involving the reaction of barium isopropoxide, tantalum ethoxide, and magnesium acetate in 2-methoxyethanol and subsequently hydrolysis, spin-coating, and heat treatment. Transmission electron microscopy, x-ray diffraction, and Raman spectroscopy were used for the characterization of the thin films. It was shown that the thin films tend to crystallize with small grains sized below 100 nm. Crystalline phase with cubic (disordered) perovskite structure was formed in the samples annealed at a very low temperature (below 500 °C), and well-crystallized thin films were obtained at 700 °C. Although disordered perovskite is dominant in the thin films annealed below 1000 °C, a low volume fraction of 1 : 2 ordering domains was found in the samples and grows with an increase of annealing temperature.
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36

Storm, Ingeborg M., Micha Kornreich, Ilja K. Voets, Roy Beck, Renko de Vries, Martien A. Cohen Stuart, and Frans A. M. Leermakers. "Loss of bottlebrush stiffness due to free polymers." Soft Matter 12, no. 38 (2016): 8004–14. http://dx.doi.org/10.1039/c6sm01227b.

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37

Alam, Nurul, and Robert Mokaya. "Strongly acidic mesoporous aluminosilicates prepared via hydrothermal restructuring of a crystalline layered silicate." Journal of Materials Chemistry A 3, no. 15 (2015): 7799–809. http://dx.doi.org/10.1039/c5ta00548e.

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38

Aguilar Gutierrez, Oscar F., and Alejandro D. Rey. "Biological plywood film formation from para-nematic liquid crystalline organization." Soft Matter 13, no. 44 (2017): 8076–88. http://dx.doi.org/10.1039/c7sm01865g.

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The coupling of mass transfer and chiral phase ordering present in non-equilibriumin vitrodrying of biomacromolecules leading to different microstructures depending on the relative speed of both processes.
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39

Corbató, C. E., and R. T. Tettenhorst. "Analysis of illite-smectite interstratification." Clay Minerals 22, no. 3 (September 1987): 269–85. http://dx.doi.org/10.1180/claymin.1987.022.3.02.

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AbstractA new approach to understanding illite-smectite interstratification is formulated which incorporates the concepts of interparticle diffraction and elementary illite particles. The analysis shows that nearest-neighbour ordering, non-nearest-neighbour ordering, ordering at the illite end of the composition scale, and the lack of ordering at the smectite end can be explained by expandable interfaces between elementary, i.e. two silicate layers, and larger illite particles. Ordering in I/S clays is significant only when the probability of occurrence of illite is ∼80%. New concepts proposed are an order parameter (ω) and an expansion parameter (β). Interparticle diffraction implies that I/S clays are unusual among all crystalline materials since their XRD size is equal to or larger than the size of their constituent physically separable particles.
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40

Matczyszyn, K., A. Chwialkowska, and J. Sworakowski. "Photochromic reaction-induced changes of ordering in liquid crystalline films." Thin Solid Films 516, no. 24 (October 2008): 8899–904. http://dx.doi.org/10.1016/j.tsf.2007.11.064.

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41

Shtukenberg, A. G., Yu O. Punin, and Ol'ga V. Frank-Kamenetskaya. "The kinetic ordering and growth dissymmetrisation in crystalline solid solutions." Russian Chemical Reviews 75, no. 12 (December 31, 2006): 1083–106. http://dx.doi.org/10.1070/rc2006v075n12abeh003598.

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42

Ojha, Durga Prasad. "Molecular Ordering in Liquid Crystalline EMBAC. A Quantum Mechanical Study." Zeitschrift für Naturforschung A 55, no. 11-12 (December 1, 2000): 923–28. http://dx.doi.org/10.1515/zna-2000-11-1217.

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Abstract Molecular ordering in a liquid crystal, ethyl 4-(4'-methoxybenzylidene amino) cinnamate (EMBAC) has been studied by intermolecular interaction energy calculations. The CNDO/2 method has been employed to compute the atomic charge and atomic dipole at each atomic centre. The modified Rayleigh-Schrödinger perturbation theory along with the multicentered-multipole expansion method have been employed to evaluate the long-range intermolecular interactions, while a '6-exp' potential function has been assumed for the short-range interactions. On the basis of stacking, in-plane, and terminal interaction energy calculations all possible geometrical arrangements of a molecular pair have been considered, and the most favourable configuration of the pair has been obtained. Molecular parameters like total energy, binding energy and total dipole moment have been given. Results are discussed in the light of those obtained for the nematogens 4-(4'-ethoxyphenylazo) phenyl valerate (EPPV) and 4,4'-di-n-propoxy-azoxybenzene (DPAB). An attempt is made to explain the liquid crystalline behavior of these liquid crystals and thereby develop a molecular model for liquid crystallinity.
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43

Bernard, Samuel, Fernand Chassagneux, Marie-Paule Berthet, David Cornu, and Philippe Miele. "Crystallinity, Crystalline Quality, and Microstructural Ordering in Boron Nitride Fibers." Journal of the American Ceramic Society 88, no. 6 (June 2005): 1607–14. http://dx.doi.org/10.1111/j.1551-2916.2005.00318.x.

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44

Matsuyama, Akihiko, and Tadaya Kato. "Nematic ordering-induced volume phase transitions of liquid crystalline gels." Journal of Chemical Physics 116, no. 18 (May 8, 2002): 8175–82. http://dx.doi.org/10.1063/1.1468221.

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45

Smith, Mark E. "ChemInform Abstract: Inorganic Non-Stoichiometric Crystalline Systems and Atomic Ordering." ChemInform 41, no. 50 (November 18, 2010): no. http://dx.doi.org/10.1002/chin.201050215.

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46

Nobel, J. A., G. A. Wilson, and S. B. Trickey. "Near-equilibrium ordering of the crystalline phases of atomic hydrogen." International Journal of Quantum Chemistry 42, no. 4 (May 20, 1992): 1037–45. http://dx.doi.org/10.1002/qua.560420436.

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47

Glagolev, M. K., and V. V. Vasilevskaya. "Liquid-Crystalline Ordering of Filaments Formed by Bidisperse Amphiphilic Macromolecules." Polymer Science, Series C 60, no. 1 (September 2018): 39–47. http://dx.doi.org/10.1134/s1811238218010046.

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48

Lee, Jinhyoung, and Sin-Doo Lee. "Ferroelectric Liquid Crystalline Ordering of Rigid Rods with Dipolar Interactions." Molecular Crystals and Liquid Crystals Science and Technology. Section A. Molecular Crystals and Liquid Crystals 254, no. 1 (September 1994): 395–403. http://dx.doi.org/10.1080/10587259408036088.

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49

Verhoeff, A. A., and H. N. W. Lekkerkerker. "Droplet snap-off in fluids with nematic liquid crystalline ordering." New Journal of Physics 14, no. 2 (February 3, 2012): 023010. http://dx.doi.org/10.1088/1367-2630/14/2/023010.

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50

AlSunaidi, A., W. K. den Otter, and J. H. R. Clarke. "Microphase separation and liquid-crystalline ordering of rod-coil copolymers." Journal of Chemical Physics 130, no. 12 (March 28, 2009): 124910. http://dx.doi.org/10.1063/1.3089701.

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