crystalline
(noun)
Having a regular three-dimensional molecular lattice structure.
Examples of crystalline in the following topics:
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Crystal Structure: Packing Spheres
- Consider the arrangement of spheres within a lattice to form a view of the structure and complexity of crystalline materials.
- The unique arrangement of atoms or molecules within a crystalline solid is referred to as the crystal structure of that material.
- A crystal structure reflects the periodic pattern of the atoms which compose a crystalline substance.
- The structure seen within the crystalline lattice of a material can be described in a number of ways.
- Within a crystalline material, each atom can be thought of as a sphere.
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Crystal Structure: Closest Packing
- Closest packing refers to the most efficient way to arrange atoms in a crystalline unit cells.
- A crystalline material's structure is typically visualized as being composed of unit cells.
- This section considers how the packing of atoms within unit cells contributes to a crystalline solid's lattice structure.
- The three dimensional structure of a solid crystalline material is established through the periodic patterning of the atoms that make up the crystal.
- The arrangement of the atoms in a crystalline solid affects atomic coordination numbers, interatomic distances, and the types and strengths of bonding that occur within the solid.
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Characteristics of Condensation Polymers
- The presence of polar functional groups on the chains often enhances chain-chain attractions, particularly if these involve hydrogen bonding, and thereby crystallinity and tensile strength.
- The difference in Tg and Tm between the first polyester (completely aliphatic) and the two nylon polyamides (5th & 6th entries) shows the effect of intra-chain hydrogen bonding on crystallinity.
- The replacement of flexible alkylidene links with rigid benzene rings also stiffens the polymer chain, leading to increased crystalline character, as demonstrated for polyesters (entries 1, 2 &3) and polyamides (entries 5, 6, 7 & 8).
- This cold-drawing procedure organizes randomly oriented crystalline domains, and also aligns amorphous domains so they become more crystalline.
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Amorphous Solids
- Amorphous solids lack a crystalline or long-range order to their atomic structure.
- Solids can be divided into two classes: crystalline and amorphous.
- The first and most common type, known as crystalline or morphous, has regular crystal lattices, or long-range order.
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Properties of Macromolecules
- Crystallinity occurs when linear polymer chains are structurally oriented in a uniform three-dimensional matrix.
- In the diagram below, crystalline domains are colored blue.
- Consequently, crystallinity is high and the cellulose molecules do not move or slip relative to each other.
- Tm is the temperature at which crystalline domains lose their structure, or melt.
- As crystallinity increases, so does Tm.
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Properties of Quartz and Glass
- Glass is a non-crystalline solid material made of silica, while quartz is a crystalline silicate mineral with piezoelectric properties.
- Glass is an amorphous (non-crystalline) solid material.
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Phosphorus Compounds as Reducing Agents
- Triphenylphosphine is also oxidized by halogens, and with bromine yields dibromotriphenylphosphorane, a crystalline salt-like compound, useful for converting alcohols to alkyl bromides.
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Anionic Chain-Growth Polymerization
- Many of the resulting polymers are largely isotactic in configuration, and have high degrees of crystallinity.
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Ziegler-Natta Catalytic Polymerization
- In the case of ethylene, rapid polymerization occurred at atmospheric pressure and moderate to low temperature, giving a stronger (more crystalline) product (HDPE) than that from radical polymerization (LDPE).
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Crystalline Solids
- When a pure crystalline compound is heated, or a liquid cooled, the change in sample temperature with time is roughly uniform.
- If two crystalline compounds (A & B) are thoroughly mixed, the melting point of that mixture is normally depressed and broadened, relative to the characteristic sharp melting point of each pure component.
- Polymorphism is similar to, but distinct from, hydrated or solvated crystalline forms.