Synthesis and characterization of thioether-containing polyimides with high refractive indices

Huang, Xiaohua; Huang, Wei; Fu, Lingchao; Yan, Deyue

doi:10.1007/s10965-011-9790-4

Cited by 10 publications

(2 citation statements)

References 52 publications

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“…[5][6][7][8][9][10] These two drawbacks impede the applications of PIs in microelectronic and optoelectronic engineering. 11,12 Therefore, lots of efforts have been made to overcome above-mentioned problems through the design and modification of PI molecular structures, 13 including introduction of bulky pendent groups (e.g., cyclobutyl and cyclohexyl) to decrease close-packing and intermolecular CT interactions, [14][15][16] flexible linkages (e.g., -O-, -CH 2 -and -S-) to provide kinks in the polymer backbones, [17][18][19] noncoplanar structures to reduce crystallinity and hinder interactions, [20][21][22] and fluorine substituents like trifluoromethyl or perfluoro groups to weaken intermolecular cohesive force and reduce CTC formation. [23][24][25][26][27] However, the approaches to enhance transparency or solubility of PIs are usually contradicted with the demand to keep their good inherent properties, such as excellent mechanical properties, thermal stability and so on.…”

Section: Introductionmentioning

confidence: 99%

Soluble and transparent polyimides with high T_gs from a new semi-aliphatic diamine with cyclohexyl and ortho-methyl groups

Wang

et al. 2020

High Performance Polymers

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Herein a semi-aliphatic diamine 4,4′-(cyclohexylmethylene)bis(2-methylaniline) (CHMBMA) with a pendant cyclohexyl and two ortho-substituted methyl groups is synthesized from o-toluidine and cyclohexanecarbaldehyde by Mannich and rearrangement reactions. Then CHMBMA is polycondensed with five commercial aromatic dianhydrides by the high-temperature one-step method with the thermal imidization to produce a series of polyimides (PIs, PI-H(1–5)). The weight-averaged molecular weights ( M ws) of PI-H(1–5) are in the range from 9.08 × 104 to 27.48 × 104 g mol−1 with the polydispersity indices (PDI) from 3.29 to 6.13 by gel permeation chromatography (GPC) measurement. They are soluble in common organic solvents (such as THF, CHCl3 etc.) and can form transparent, tough films with light-color (Thickness: 20–26 μm) by the solution-casting method. The light transmittance of them is above 80% in the visible range from 400 to 760 nm. They exhibit excellent mechanical properties with tensile strength from 72.2 to 97.06 MPa and tensile modulus from 0.9 to 1.9 GPa. Furthermore, they also display low water absorption rates (<2.5%), good thermal stability (5% weight loss temperatures ( T 5%) in the range from 466 to 480°C under N2 atmosphere and high glass transition temperatures ( T gs ≥ 319°C). As comparison, we also synthesize these PIs (PI-L(1–5)) by the low-temperature two-step method with the chemical imidization. The M ws of PI-L(1–5) are lower than those of PI-H(1–5), but the film color of PI-L(1–5) is relatively lighter than the corresponding one of PI-H(1–5). In summary, the introduction of cyclohexyl and ortho-substituted methyl groups into the backbone can improve the solubility of PIs and the transparency of their corresponding films without reducing their T gs.

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Section: Introductionmentioning

confidence: 99%

Soluble and transparent polyimides with high T_gs from a new semi-aliphatic diamine with cyclohexyl and ortho-methyl groups

Wang

et al. 2020

High Performance Polymers

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“…After an extensive survey of the literature, it could be seen that, among the various substituents incorporated into macromolecular chains, linear thioether linkages, cyclic dibenzothiophene, thianthrene, thiophene, tetrathiaanthracene, pyridine and pyridazine, thiazole, sulfonyl (SO 2 ), selenophene, fluorene, bromine, chlorine, and fluorine units have significant influences on the value of refractive index of polyimides.…”

Section: Introductionmentioning

confidence: 99%

Influence of Chemical Structure on the Refractive Index of Imide‐Type Polymers

Butnaru¹,

Brumă²,

Köpnick³

et al. 2013

Macro Chemistry & Physics

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The influence of different substituents on the optical properties of poly(amide imide)s and polyimides is systematically investigated. All of the polymers exhibit good solubility and film‐forming ability, high thermal stability, and glass transition temperatures of 162–209 °C for poly(amide imide)s and of 209–274 °C for polyimides. The optical transmittance of the films at 450 nm is above 80% for all the studied polyimides and poly(amide imide)s containing benzonitrile units linked in the 2,6‐position. The values of refractive index for poly(amide imide)s are in the range of 1.623–1.748 and for polyimides in the domain of 1.672–1.768.

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Polyamides containing thiadiazole units: Synthesis and optical properties

Zhang

et al. 2014

Chin J Polym Sci

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Synthesis and characterization of thioether-containing polyimides with high refractive indices

Cited by 10 publications

References 52 publications

Soluble and transparent polyimides with high T_gs from a new semi-aliphatic diamine with cyclohexyl and ortho-methyl groups

Soluble and transparent polyimides with high T_gs from a new semi-aliphatic diamine with cyclohexyl and ortho-methyl groups

Influence of Chemical Structure on the Refractive Index of Imide‐Type Polymers

Polyamides containing thiadiazole units: Synthesis and optical properties

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Synthesis and characterization of thioether-containing polyimides with high refractive indices

Cited by 10 publications

References 52 publications

Soluble and transparent polyimides with high Tgs from a new semi-aliphatic diamine with cyclohexyl and ortho-methyl groups

Soluble and transparent polyimides with high Tgs from a new semi-aliphatic diamine with cyclohexyl and ortho-methyl groups

Influence of Chemical Structure on the Refractive Index of Imide‐Type Polymers

Polyamides containing thiadiazole units: Synthesis and optical properties

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Product

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Soluble and transparent polyimides with high T_gs from a new semi-aliphatic diamine with cyclohexyl and ortho-methyl groups

Soluble and transparent polyimides with high T_gs from a new semi-aliphatic diamine with cyclohexyl and ortho-methyl groups