| No two of these arrangements were alike, and the pattern did not repeat itself over a long range like an ordinary crystal lattice. |
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| The oligomers also exhibited different symmetry than in the crystal lattice. |
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| The next step was therefore to check that only one crystal phase was present and to determine the crystal lattice. |
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| In these materials, the freely flowing electrons and the atoms that form the crystal lattice are in an uneasy state of coexistence. |
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| These peculiar spectroscopic features can be attributed to the arrangement of the proteins inside the crystal lattice of the photoreccptor. |
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| This zero intensity point is equivalent to a dislocation on a crystal lattice. |
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| Trapped dislocations in the crystal lattice were observed even when the average grain size was as small as 10 nanometers. |
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| This crystalline structure is an orderly arrangement of ions known as a crystal lattice. |
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| Crystallographers describe the repeating unit of a crystal lattice, the unit cell, by the length of its edges and angles between them. |
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| These convective currents are harmful because they alter the orientation of the protein molecules as they hook onto the crystal lattice. |
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| For example, certain spots in a crystal lattice may remain vacant, or a lattice may have an unequal number of anion and cation sites. |
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| A diamond is a perfect crystal lattice while the graphite arrangement is more random. |
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| The ions in the crystal lattice cannot move very much without disturbing the overall balance between negative and positive charges. |
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| The layer silicates can be classified into various groups, according to their chemical composition and the layer structure of their crystal lattice. |
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| Solutions passed through a filter bed of zeolite minerals undergo ion exchange as particular ions or molecules become trapped within the crystal lattice. |
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| Provided that enough energy is transmitted, bombarding materials with high-energy particles can displace atoms within the crystal lattice via a ballistic collision phenomenon. |
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| In addition, conformational changes may not occur to the same extent as in solution because they could be limited by intermolecular contacts in the crystal lattice. |
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| The blue-green color of amazonite results from the contamination and substitution of trace to minor amounts of lead and water in the crystal lattice. |
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| The atoms or molecules of which the crystal is composed are arranged in a precise regular way that is repeated over and over in three dimensions forming a crystal lattice. |
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| In this way, FERON is provided with a crystal lattice structure which displays optimum magnetic properties. |
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| The high sensitivity of these superconductors to oxygen is due to the apparent ease with which that atom can move in and out of the crystal lattice. |
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| But when he observed the crystals in a light microscope, he noticed that on drying they became disordered, as the large amount of water in the crystal lattice evaporated. |
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| In fact, TQ-NLC formulation provides a weak crystallization as the result of increased imperfection in the crystal lattice. |
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| Whiffen worked out the electron-spin resonance signal of a free radical in a crystal lattice. |
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| The polarization effects responsible for piezoelectricity arise from small displacements of ions in the crystal lattice. |
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| Overzealous atoms ripping through the nicely organized crystal lattice damage the structure of the wafer. |
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| In this class of materials the ionic transport of oxygen is augmented by interstitial oxide ions within the structure's crystal lattice. |
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| The silicon has a single and continuous crystal lattice structure with almost no defects or impurities. |
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| In this way, distortions in the material's crystal lattice structure, caused by rolling and stamping, are eliminated. |
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| The white sphere is a hydrogen atom, the red spheres are the surrounding oxygen atoms in the crystal lattice. |
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| It is extremely pure, and it has a special crystal lattice structure. |
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| This anisotropic, or distorted, structure makes it difficult for the atoms of alloying metals to substitute for uranium atoms or to occupy spaces between uranium atoms in the crystal lattice. |
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| Hydrates: A hydrate is a naturally occurring, ice-like crystalline compound in which a crystal lattice of water molecules encloses a molecule of some other substance such as methane or carbon dioxide. |
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| The research involved varying the distance between atoms in a crystal lattice substrate. |
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| Here, the necessary energy to realign the crystal lattice structure is supplied by small, natural ground movements and normal temperature fluctuations. |
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| To treat the crystal lattice structure, energy must be introduced into the metal to allow the atoms to move in such a way as to reduce these stresses. |
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| When a metallic conductor is exposed to the same temperature along its length, the electrons move within the crystal lattice as a result of their thermal energy. |
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| Also, uncontrolled nucleation at the container walls leads to imperfections in crystal structure as well as the presence of impurities in the crystal lattice. |
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| Hydrogen solubility in metals is influenced by local distortions or impurities in the crystal lattice. |
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| Clathrate hydrates are forms of ice that contain gas molecules trapped within its crystal lattice. |
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| A second method, the Guinier-Hagg transmission technique, was employed to support the diffractometer single crystal lattice parameter data. |
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| A combination of silica and aluminum arranged in a crystal lattice, zeolite traps nitrogen molecules in its nanometer-sized cavities and lets oxygen molecules through. |
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| In a reactor, thousands of atoms can be set in motion by one energetic particle that displaces them from sites in a crystal lattice. |
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| An inclusion complex is a solid solution in which molecules of one compound occupy places in the crystal lattice of another compound. |
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| When a neutron hits metal, it displaces atoms within the crystal lattice. |
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| Diamondoids are cage-shaped rigid hydrocarbon molecules resembling tiny fragments of a diamond crystal lattice. |
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| Blue diamonds are structurally the purest of all diamonds, with barely any impurities within their crystal lattice. |
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| Conduction can occur by migration of the positively charged site through the crystal lattice, and a semiconductor doped with an atom of this type, an acceptor atom, is called p-type. |
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| Due to the shifted positioning of the atoms in the GB they have a higher energy state when compared with the atoms in the crystal lattice of the grains. |
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| This happens more for particles with a high-sulfate content because the chromium atoms in these particles are not as well integrated into the crystal lattice. |
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