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Learn about PIMs |
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POLYMERS
OF INTRINSIC MICROPOROSITY Polymers of intrinsic
microporosity (PIMs) are glassy polymers that possess high free volume
because their rigid, contorted macromolecular backbones cannot easily pack
together to fill space. |
A PIM cannot undergo
large-scale changes in conformation because it does not have any single bonds
in the backbone about which rotation can easily occur (the backbone typically
has a fused-ring or ladder-like structure). However, the backbone twists and turns
because it incorporates sites of contortion (e.g., spiro-centres). |
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MICROPOROSITY According to an IUPAC
definition, a micropore has dimensions <2 nm. Within a micropore,
small molecules exhibit enhanced adsorption, due to multiple interactions with
pore walls. |
INTRINSIC
MICROPOROSITY Intrinsic microporosity refers to a continuous network of interconnected intermolecular
voids, which forms as a direct consequence of the shape and rigidity of the
component macromolecules. |
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PIM-1 The prototypical PIM is referred to as PIM-1. PIM-1 is synthesized by a step-growth
polymerization involving nucleophilic
aromatic substitution reactions. |
P.M. Budd et al., Chem.
Comm., 2004, 230. P.M. Budd et al., Adv.
Mater., 2004, 16, 456. |
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PIM-1 is a yellow, fluorescent polymer that exhibits high
internal surface area in the solid state. Brunauer-Emmet-Teller
(BET) analysis of gas adsorption data typically gives an apparent surface
area in the range 600-800 m2 g-1. |
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PIM-1 is soluble in solvents such as chloroform and
tetrahydrofuran, and can be processed from solution into powders, coatings,
films and fibres. |
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