Definition of crystal lattice in English:

crystal lattice

noun

The symmetrical three-dimensional arrangement of atoms inside a crystal.
Example sentencesExamples
- According to the researchers' computer simulations, a crystal lattice whose atoms vibrate in the right way could be worked into a thermal rectifier and perhaps even thermal transistors.
- Crystallographers describe the repeating unit of a crystal lattice, the unit cell, by the length of its edges and angles between them.
- Provided that enough energy is transmitted, bombarding materials with high-energy particles can displace atoms within the crystal lattice via a ballistic collision phenomenon.
- Essentially, the system uses the phenomenon of ‘electromigration’, in which moving electrons - current - transfer momentum to the surrounding crystal lattice.
- 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.
- These convective currents are harmful because they alter the orientation of the protein molecules as they hook onto the crystal lattice.
- The blue-green color of amazonite results from the contamination and substitution of trace to minor amounts of lead and water (as the hydroxyl ion) in the crystal lattice.
- No two of these arrangements were alike, and the pattern did not repeat itself over a long range like an ordinary crystal lattice.
- The next step was therefore to check that only one crystal phase was present and to determine the crystal lattice.
- Repeated translation along the edges of the unit cell can be used to derive the entire crystal lattice; in other words, the crystal lattice is the unit cell repeated many times in a periodic fashion.
- 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.
- For example, certain spots in a crystal lattice may remain vacant, or a lattice may have an unequal number of anion and cation sites.
- A diamond is a perfect crystal lattice while the graphite arrangement is more random.
- The layer silicates can be classified into various groups, according to their chemical composition and the layer structure of their crystal lattice.
- 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.
- The oligomers also exhibited different symmetry than in the crystal lattice.
- It means that the conductivity can be delicately fine-tuned by sprinkling the crystal lattice with atoms of other elements, which increase or decrease the number of mobile electrons.
- 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.
- In these materials, the freely flowing electrons and the atoms that form the crystal lattice are in an uneasy state of coexistence.
- These peculiar spectroscopic features can be attributed to the arrangement of the proteins inside the crystal lattice of the photoreccptor.

Definition of crystal lattice in US English:

crystal lattice

nounˈkristl ˈladəs

The symmetrical three-dimensional arrangement of atoms inside a crystal.
Example sentencesExamples
- 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.
- The blue-green color of amazonite results from the contamination and substitution of trace to minor amounts of lead and water (as the hydroxyl ion) in the crystal lattice.
- These convective currents are harmful because they alter the orientation of the protein molecules as they hook onto the crystal lattice.
- These peculiar spectroscopic features can be attributed to the arrangement of the proteins inside the crystal lattice of the photoreccptor.
- Crystallographers describe the repeating unit of a crystal lattice, the unit cell, by the length of its edges and angles between them.
- A diamond is a perfect crystal lattice while the graphite arrangement is more random.
- It means that the conductivity can be delicately fine-tuned by sprinkling the crystal lattice with atoms of other elements, which increase or decrease the number of mobile electrons.
- 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.
- 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.
- Provided that enough energy is transmitted, bombarding materials with high-energy particles can displace atoms within the crystal lattice via a ballistic collision phenomenon.
- For example, certain spots in a crystal lattice may remain vacant, or a lattice may have an unequal number of anion and cation sites.
- Repeated translation along the edges of the unit cell can be used to derive the entire crystal lattice; in other words, the crystal lattice is the unit cell repeated many times in a periodic fashion.
- Essentially, the system uses the phenomenon of ‘electromigration’, in which moving electrons - current - transfer momentum to the surrounding crystal lattice.
- 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.
- According to the researchers' computer simulations, a crystal lattice whose atoms vibrate in the right way could be worked into a thermal rectifier and perhaps even thermal transistors.
- In these materials, the freely flowing electrons and the atoms that form the crystal lattice are in an uneasy state of coexistence.
- The oligomers also exhibited different symmetry than in the crystal lattice.
- The layer silicates can be classified into various groups, according to their chemical composition and the layer structure of their crystal lattice.
- No two of these arrangements were alike, and the pattern did not repeat itself over a long range like an ordinary crystal lattice.
- The next step was therefore to check that only one crystal phase was present and to determine the crystal lattice.

单词	crystal lattice
释义	Definition of crystal lattice in English: crystal lattice noun The symmetrical three-dimensional arrangement of atoms inside a crystal. Example sentencesExamples According to the researchers' computer simulations, a crystal lattice whose atoms vibrate in the right way could be worked into a thermal rectifier and perhaps even thermal transistors. Crystallographers describe the repeating unit of a crystal lattice, the unit cell, by the length of its edges and angles between them. Provided that enough energy is transmitted, bombarding materials with high-energy particles can displace atoms within the crystal lattice via a ballistic collision phenomenon. Essentially, the system uses the phenomenon of ‘electromigration’, in which moving electrons - current - transfer momentum to the surrounding crystal lattice. 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. These convective currents are harmful because they alter the orientation of the protein molecules as they hook onto the crystal lattice. The blue-green color of amazonite results from the contamination and substitution of trace to minor amounts of lead and water (as the hydroxyl ion) in the crystal lattice. No two of these arrangements were alike, and the pattern did not repeat itself over a long range like an ordinary crystal lattice. The next step was therefore to check that only one crystal phase was present and to determine the crystal lattice. Repeated translation along the edges of the unit cell can be used to derive the entire crystal lattice; in other words, the crystal lattice is the unit cell repeated many times in a periodic fashion. 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. For example, certain spots in a crystal lattice may remain vacant, or a lattice may have an unequal number of anion and cation sites. A diamond is a perfect crystal lattice while the graphite arrangement is more random. The layer silicates can be classified into various groups, according to their chemical composition and the layer structure of their crystal lattice. 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. The oligomers also exhibited different symmetry than in the crystal lattice. It means that the conductivity can be delicately fine-tuned by sprinkling the crystal lattice with atoms of other elements, which increase or decrease the number of mobile electrons. 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. In these materials, the freely flowing electrons and the atoms that form the crystal lattice are in an uneasy state of coexistence. These peculiar spectroscopic features can be attributed to the arrangement of the proteins inside the crystal lattice of the photoreccptor. Definition of crystal lattice in US English: crystal lattice nounˈkristl ˈladəs The symmetrical three-dimensional arrangement of atoms inside a crystal. Example sentencesExamples 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. The blue-green color of amazonite results from the contamination and substitution of trace to minor amounts of lead and water (as the hydroxyl ion) in the crystal lattice. These convective currents are harmful because they alter the orientation of the protein molecules as they hook onto the crystal lattice. These peculiar spectroscopic features can be attributed to the arrangement of the proteins inside the crystal lattice of the photoreccptor. Crystallographers describe the repeating unit of a crystal lattice, the unit cell, by the length of its edges and angles between them. A diamond is a perfect crystal lattice while the graphite arrangement is more random. It means that the conductivity can be delicately fine-tuned by sprinkling the crystal lattice with atoms of other elements, which increase or decrease the number of mobile electrons. 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. 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. Provided that enough energy is transmitted, bombarding materials with high-energy particles can displace atoms within the crystal lattice via a ballistic collision phenomenon. For example, certain spots in a crystal lattice may remain vacant, or a lattice may have an unequal number of anion and cation sites. Repeated translation along the edges of the unit cell can be used to derive the entire crystal lattice; in other words, the crystal lattice is the unit cell repeated many times in a periodic fashion. Essentially, the system uses the phenomenon of ‘electromigration’, in which moving electrons - current - transfer momentum to the surrounding crystal lattice. 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. According to the researchers' computer simulations, a crystal lattice whose atoms vibrate in the right way could be worked into a thermal rectifier and perhaps even thermal transistors. In these materials, the freely flowing electrons and the atoms that form the crystal lattice are in an uneasy state of coexistence. The oligomers also exhibited different symmetry than in the crystal lattice. The layer silicates can be classified into various groups, according to their chemical composition and the layer structure of their crystal lattice. No two of these arrangements were alike, and the pattern did not repeat itself over a long range like an ordinary crystal lattice. The next step was therefore to check that only one crystal phase was present and to determine the crystal lattice.
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