Design and synthesis of high heat-resistant, soluble, and hydrophobic fluorinated polyimides containing pyridine and trifluoromethylthiophenyl units

Huang, Xiaohua; Li, Hua; Liu, Chanjuan; Wei, Chun

doi:10.1177/0954008317749018

Cited by 13 publications

(8 citation statements)

References 38 publications

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“…Therefore, in order to use it as an HVDC insulation material, its durability should be fundamentally improved. In order to improve the tracking resistance of a polymeric insulation material, hydrophobicity of the polymer surface should be modified and aluminum trihydroxide (ATH) particles are incorporated into the insulating material 15–17 . When the former condition is satisfied, moisture penetration is prevented due to the water repellency of the surface and the local distortion of electric field is prevented by suppressing the accumulation of contaminants, thereby improving tracking resistance.…”

Section: Introductionmentioning

confidence: 99%

Effect of surface‐modified nano‐aluminum trihydroxide on electrical properties of silicone/nano‐silica nanocomposite

Park

Lee

2021

J of Applied Polymer Sci

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The surface of fumed nano-silica (nano-SiO 2 ) was treated with an alkyl silazane to change from hydrophilic surface to hydrophobic, and the surface of aluminum trihydroxide (nano-ATH) was treated with a vinyl silazane to improve electrical properties (high voltage direct current [HVDC] breakdown strength and tracking resistance) in silicone nanocomposites. They were prepared by mixing liquid silicone resin with the modified nano-SiO 2 and the modified nano-ATH, and the effects of the modified nano-ATH particles on the electrical properties were studied in order to apply them to heavy electric equipment. The surface modifications were confirmed by thermogravimetric analysis and contact angle analysis. As the nano-ATH content increased, (±) HVDC breakdown strength increased and tracking resistance was greatly improved. As the nano-ATH content increased, the initial generation of leakage current was delayed, and the occurrence frequency and the intensity of the leakage current decreased. The erosion weight due to the tracking also decreased.

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Section: Introductionmentioning

confidence: 99%

Effect of surface‐modified nano‐aluminum trihydroxide on electrical properties of silicone/nano‐silica nanocomposite

Park

Lee

2021

J of Applied Polymer Sci

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“…One of the successful approaches to improve their solubility and processability is the introduction of flexible groups, such as O, S, SO 2 , CH 2 , (CH 3 ) 2 C, and (CF 3 ) 2 C moieties into the polymer backbone. [5][6][7][8][9][10][11][12][13][14][15][16][17][18] It is also recognized that ketone links inserted in the polyimide backbone could improve their solubility and mold ability, and various poly(ketone imide)s have been developed from the dianhydride or the diamine component containing ketone moieties. [19][20][21][22][23][24][25][26][27] In addition, several poly(diketone imide)s (PDKIs) using the dianhydride [28][29][30][31][32] or diamine [33][34][35][36][37][38] monomers containing diketone groups were also investigated.…”

Section: Introductionmentioning

confidence: 99%

Synthesis and characterization of new poly(diketone imide)s derived from 1,4-bis(3,4-dicarboxybenzoyl)benzene dianhydride and various diamines

Kuang

Wei

Sang

et al. 2020

High Performance Polymers

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1,4-Bis(3,4-dicarboxybenzoyl)benzene dianhydride, an aromatic bis(ketone anhydride) monomer, was synthesized by the Friedel–Crafts reaction of terephthaloyl dichloride and o-xylene, followed by the oxidation of the intermediate tetramethylated compound and cyclodehydration of the resulting tetraacid. A series of new poly(diketone imide)s (PDKIs) were prepared from this dianhydride with various aromatic diamines via a conventional two-stage process that included ring-opening polyaddition to form the poly(amic acid)s followed by thermal or chemical imidization. Most of the PDKIs through chemical imidization were soluble in aprotic amide solvents, such as N, N-dimethylacetamide, N-methyl-2-pyrrolidone, m-cresol, and so on. The resulting PDKIs had good thermal property with the glass transition temperature of 203–275°C, the temperature at 5% weight loss of 500–539°C, and the residue of 51–60% at 800°C in nitrogen. Additionally, strong and flexible PDKI films obtained by thermal imidization exhibited outstanding mechanical property with the tensile strength of 88.8–158.5 MPa, tensile modulus of 1.9–3.5 GPa, and elongation at breakage of 7–21%.

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“…5 –8 However, the intensive coloration of the PIs, owing to electronic conjugation and the formation of inter- and intramolecular charge transfer complexes (CTCs), limits their applications in optical and optoelectronic fields. Therefore, many efforts have been made to obtain highly transparent PIs through various strategies, including introduction of fluorine atoms, 9 –11 bulky substituents, 12 –14 alicyclic units, 15 –17 asymmetry, and noncoplanar structures 18,19 into polymer backbones. These structural modifications could loosen the chain packing, disrupt the conjugation, and inhibit the formation of CTC, leading to colorless PIs.…”

Section: Introductionmentioning

confidence: 99%

New transparent and thermally stable cardo poly(ether imide)s derived from 10,10-bis[4-(4-amino-2-pyridinoxy)phenyl]-9(10H)-anthrone

Zhang

Huang

Pan

et al. 2019

High Performance Polymers

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A new diamine bearing flexible ether, rigid pyridine, and bulky anthrone pendent group, 10,10-bis[4-(4-amino-2-pyridinoxy)phenyl]-9(10 H)-anthrone (BAPPA), was prepared in three steps from anthrone. BAPPA was reacted with six conventional aromatic dianhydrides in N, N-dimethylacetamide (DMAc) to form the corresponding new poly(ether imide)s (PEIs) via the poly(ether amic acid) (PEAA) precursors with inherent viscosities ranging from 0.85 dL g−1 to 1.26 dL g−1 and thermal imidization. All the PEAAs could be cast from DMAc solution and thermally converted into transparent, flexible, and tough PEI films with tensile strength of 72.2–112.4 MPa, tensile modulus of 1.8–2.1 GPa, and elongation at break of 10–18%. These PEIs were predominantly amorphous and displayed excellent thermal stability with the glass transition temperature of 290–388°C, the 5% weight loss temperature of 480–514°C, and the residue of 68–43% at 800°C in nitrogen. The PEIs derived from 1,4-bis(3,4-dicarboxyphenoxy)benzene dianhydride and 4,4′-hexafluoroisopropylidenediphathalic anhydride exhibited excellent solubility in organic solvents such as N-methyl-2-pyrrolidinone, DMAc, N, N-dimethylformamide, pyridine, and even in tetrahydrofuran. Meanwhile, these PEIs also exhibited high optical transparency with the ultraviolet cutoff wavelength in the 374–427 nm range and the wavelength of 80% transparency in the range of 468–493 nm.

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Design and synthesis of high heat-resistant, soluble, and hydrophobic fluorinated polyimides containing pyridine and trifluoromethylthiophenyl units

Cited by 13 publications

References 38 publications

Effect of surface‐modified nano‐aluminum trihydroxide on electrical properties of silicone/nano‐silica nanocomposite

Effect of surface‐modified nano‐aluminum trihydroxide on electrical properties of silicone/nano‐silica nanocomposite

Synthesis and characterization of new poly(diketone imide)s derived from 1,4-bis(3,4-dicarboxybenzoyl)benzene dianhydride and various diamines

New transparent and thermally stable cardo poly(ether imide)s derived from 10,10-bis[4-(4-amino-2-pyridinoxy)phenyl]-9(10H)-anthrone

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