Category: 4415-87-6

Li, Dandan; Wang, Chengyang; Ma, Shengqi; Zhou, Hongwei; Lu, Ran published the artcile< Preparation and characterization of soluble heat-resistant polyimide films containing bis-N-phenyl-benzimidazole>, Related Products of 4415-87-6, the main research area is polybenzimidazole imide heat resistant film thermomech property.

To prepare soluble polyimides with high temperature resistance, two new diamine monomers, namely, 2,2′-(4,4′-oxybisphenylene)-bis(1-phenyl-5-aminobenzimidazole) (5a), and 2,2′-(4,4′-hexafluoroisopropylidene)-bis(1-phenyl-5- aminobenzimidazole) (5b), were synthesized and exploited to prepare three series of poly(benzimidazole imides)s (PBIIs) by a conventional two-stage synthesis. The resulting PI films were flexible and tough, possessing high glass-transition temperatures (Tgs = 311°C-390°C), improved optical transparency, and excellent solubility Moreover, the effect of different configuration on performance was revealed, and these data provided a feasible method to enhance both Tg and solubility of PIs by incorporating N-Ph benzimidazole and corresponding functional moieties.

High Performance Polymers published new progress about Complex modulus, tan δ. 4415-87-6 belongs to class tetrahydrofurans, and the molecular formula is C8H4O6, Related Products of 4415-87-6.

Referemce:
Tetrahydrofuran – Wikipedia,
Tetrahydrofuran | (CH2)3CH2O – PubChem

Kuang, Gaizhen; Lu, Hongtong; He, Shasha; Xiong, Hejian; Yu, Jie; Zhang, Qingfei; Huang, Yubin published the artcile< Near-Infrared Light-Triggered Polyprodrug/siRNA Loaded Upconversion Nanoparticles for Multi-Modality Imaging and Synergistic Cancer Therapy>, COA of Formula: C8H4O6, the main research area is IR light polyprodrug siRNA nanoparticle synergistic cancer therapy; combination therapy; drug delivery; multi-modality imaging; near-infrared; upconversion nanoparticles.

Stimuli-responsive nanosystems have been widely applied as effective modalities for drug/gene co-delivery in cancer treatment. However, precise spatiotemporal manipulations of drug/gene co-delivery, as well as multi-modality imaging-guided cancer therapy, still remain a daunting challenge. Here, multifunctional polyprodrug/siRNA loaded upconversion nanoparticles (UCNPs) are reported that combine computed tomog. (CT), magnetic resonance (MR), and upconversion luminescence (UCL) tri-modality imaging and near-IR (NIR) light-activated drug/gene on-demand delivery. The photoactivatable platinum(IV) (Pt(IV))-backbone polymers (PPt) and the siRNA targeting polo-like kinase 1 (Plk1) are loaded on the surface of polyethyleneimine (PEI)-coated UCNPs (PUCNP) to obtain the multifunctional polyprodrug/siRNA loaded UCNPs (PUCNP@Pt@siPlk1). The PUCNP@Pt@siPlk1 can be served as a ′nanotransducer′ to convert NIR light (980 nm) into local UV to visible light for the cleavage of photosensitive PPt, resulting in the simultaneous on-demand release of high toxic platinum(II) (Pt(II)) and siPlk1. Meanwhile, the PUCNP@Pt@siPlk1 has CT, T1-weighted MR, and UCL tri-modality imaging abilities. Based on these merits, PUCNP@Pt@siPlk1 displayed excellent synergistic therapeutic efficacy via image-guided and NIR light-activated platinum-based chemotherapy and RNA interfering in vitro and in vivo. Thus, this developed nanosystem with NIR light-controlled drug/gene delivery and multi-modality imaging abilities, will display great potential in combining chemotherapy and gene therapy.

Advanced Healthcare Materials published new progress about Antitumor agents. 4415-87-6 belongs to class tetrahydrofurans, and the molecular formula is C8H4O6, COA of Formula: C8H4O6.

Referemce:
Tetrahydrofuran – Wikipedia,
Tetrahydrofuran | (CH2)3CH2O – PubChem

Phanthuwongpakdee, Jakkapon; Harimoto, Toyohiro; Babel, Sandhya; Dwivedi, Sumant; Takada, Kenji; Kaneko, Tatsuo published the artcile< Flame retardant transparent films of thermostable biopolyimide metal hybrids>, Electric Literature of 4415-87-6, the main research area is flame retardant transparent film thermostable bio polyimide metal hybrid.

The development of flame retardant transparent films is important for elec. devices and building materials it but it is still a challenge. Herein, flame retardant films having high optical transparency were developed from the amino acid-based biopolyimide (BPI) salt with aluminum (BPI-COOAl) and copper ions (BPI-COOCu). The microscale combustion calorimetry anal. revealed that for BPI-COOAl, the total heat released (THR) and peak heat released rate were 4.5 W/g and 18.9 kJ/g, resp. These values were lower than those of its precursors and BPI-COOCu. BPI-COOAl was rated V-0 for the Underwriters Laboratories vertical burning standard test. The polymer also retained a high transparency of more than 80% transmittance at a wavelength of 450 nm. The tensile strength was also preserved at 63.7 MPa. For BPI-COOCu, 14.6 kJ/g THR and 47.1 MPa tensile strength were observed When a colorful ion such as Cu was used, BPI-COOCu became a flame retardant film that was a green filter. The char formation of Al2O3 and Cu2O in their resp. polymer complexes was deduced as the main flame suppression mechanism. The present films of biopolyimide salts are advantageous in showcasing the balance of different essential material properties such as flame retardancy, thermo-mech. stability, and transparency.

Polymer Degradation and Stability published new progress about Cation exchange. 4415-87-6 belongs to class tetrahydrofurans, and the molecular formula is C8H4O6, Electric Literature of 4415-87-6.

Referemce:
Tetrahydrofuran – Wikipedia,
Tetrahydrofuran | (CH2)3CH2O – PubChem

Xiao, Peng; He, Xiaojie; Zheng, Feng; Lu, Qinghua published the artcile< Super-heat resistant, transparent and low dielectric polyimides based on spirocyclic bisbenzoxazole diamines with Tg > 450°C>, Name: Cyclobuta[1,2-c:3,4-c’]difuran-1,3,4,6(3aH,3bH,6aH,6bH)-tetraone, the main research area is polyimide spirocyclic bisbenzoxazole diamine glass transition temperature.

Maintaining ultra-high heat resistance and sufficient colorless transparency at the same time is a challenge for polymer materials because of conflicting design principles, but such materials are urgently needed for some optoelectronic devices. In this study, four new isomeric diamines with a spirocyclic bisbenzoxazole structure were synthesized, and their polyimides were prepared by condensation with com. diamines, 4,4′-(hexafluoroisopropylidene) diphthalic anhydride (6FDA) and cyclobutane-1,2,3,4-tetracarboxylic acid dianhydride (CBDA) followed by chem. imidization. The resultant polyimide (PI) films have excellent optical transparency with cut-off wavelengths in the range of 346 nm-380 nm, and 85%-90% transmittance at 550 nm. Also, these PIs possessed excellent solubility in common organic solvents, even in low-boiling-point solvents, such as chloroform, dichloromethane and THF. Most importantly, the colorless polyimides displayed a super-high glass transition temperature (Tg), high thermal stability, and favorable mech. properties, and their Tg reached 491°. The polyimides possessed low moisture absorptions of 0.52%-0.61% and low dielec. constants (Dk) of 2.32-2.93. The excellent comprehensive properties of the spirocyclic bisbenzoxazole-containing colorless transparent polyimides (CPIs) render these materials promising candidates for optical and optoelectronic applications.

Polymer Chemistry published new progress about Absorption. 4415-87-6 belongs to class tetrahydrofurans, and the molecular formula is C8H4O6, Name: Cyclobuta[1,2-c:3,4-c’]difuran-1,3,4,6(3aH,3bH,6aH,6bH)-tetraone.

Referemce:
Tetrahydrofuran – Wikipedia,
Tetrahydrofuran | (CH2)3CH2O – PubChem

Jeong, Keuk-Min; Tapaswi, Pradip Kumar; Kambara, Takehiko; Ishige, Ryohei; Ando, Shinji; Ha, Chang-Sik published the artcile< Photoconductive polyimides derived from a novel imidazole-containing diamine>, SDS of cas: 4415-87-6, the main research area is imidazole containing polyimide preparation photoconductive property.

A new diamine containing an imidazole structure, 4,4′-(4,5-diphenyl-1H-imidazole-1,2-diyl)dianiline (DIMA), was synthesized to prepare photoconductive polyimides (PIs) with four types of dianhydrides such as 3,3′,4,4′-biphenyltetracarboxylic dianhydride, 4,4′-oxydiphthalic anhydride, 4,4′-(hexafluoroisopropylidene) diphthalic anhydride, and cyclobutane-1,2,3,4,-tetracarboxylic dianhydride, based on the fact that the imidazole ring is a useful n-type block with high electron-donating property and good thermal stability. The imidazole-containing diamine possesses high electron-donating properties due to the lone pair electrons at nitrogen, which affords a high hole-transport property. All the PIs prepared from DIMA were amorphous due to the large side group and kink structure of the diamine, optically transparent (transmittances of 92-98% at 450 nm), and exhibited high thermal stability (10% weight loss temperatures ranged 453-558°).

High Performance Polymers published new progress about Absorption. 4415-87-6 belongs to class tetrahydrofurans, and the molecular formula is C8H4O6, SDS of cas: 4415-87-6.

Referemce:
Tetrahydrofuran – Wikipedia,
Tetrahydrofuran | (CH2)3CH2O – PubChem

Dwivedi, Sumant; Nag, Aniruddha; Sakamoto, Shigeki; Funahashi, Yasuyoshi; Harimoto, Toyohiro; Takada, Kenji; Kaneko, Tatsuo published the artcile< High-temperature resistant water-soluble polymers derived from exotic amino acids>, Reference of 4415-87-6, the main research area is temperature resistant water soluble polyimide preparation.

High-performance water-soluble polymers have a wide range of applications from engineering materials to biomedical plastics. However, existing materials are either natural polymers that lack high thermostability or rigid synthetic polymers. Therefore, we design an amino acid-derived building block, 4,4′-diamino-α-truxillate dianion (4ATA2-), that induces water solubility in high-performance polymers. Polyimides containing 4ATA2- units are intrinsically water-soluble and are processed into films cast from an aqueous solution The resulting polyimide films exhibit exceptional transparency and extremely high thermal stability. In addition, the films can be made insoluble in water by simple post-treatment using weak acid or multivalent metal ions such as calcium. The synthesized polyimide’s derived from bio-based resources are useful for yielding waterborne polymeric high-performance applications.

RSC Advances published new progress about Elongation at break. 4415-87-6 belongs to class tetrahydrofurans, and the molecular formula is C8H4O6, Reference of 4415-87-6.

Referemce:
Tetrahydrofuran – Wikipedia,
Tetrahydrofuran | (CH2)3CH2O – PubChem

Takada, Kenji; Shinagawa, Hiromasa; Morita, Yuki; Grewal, Manjit S.; Taya, Kazuya; Kumar, Amit; Kaneko, Tatsuo published the artcile< Syntheses of Soluble Biopolyimides Using 4-Aminophenylalanine>, Electric Literature of 4415-87-6, the main research area is aminophenylalanine tetracarboxylic dianhydride polyamic acid thermal imidization biopolyimide.

4-Aminophenylalanine (4APhe), an exotic amino acid which is obtained as a microorganism metabolite of glucose, is polycondensed with various tetracarboxylic dianhydrides as a diamine monomer to obtain poly(amic acid)s. Subsequent thermal imidization of poly(amic acid)s is made at 220°C with stepwise heating from 100°C. Some of the obtained polyimides (PIs) exhibited good solubility in organic solvents such as N,N-dimethylformamide, N,N-dimethylacetamide, and more. The progress of imidization was observed by proton NMR and IR spectroscopy to confirm that the imidization ratio was up to 98%. Carboxylate group of the side-chains of PIs affected their solubilities despite the high imidization ratio, and the solubility was lost for any organic solvents by decarboxylation at 280°C, confirmed from mass-loss of thermogravimetric anal. Thus, a new series of PIs were obtained with abilities of solvent-molding in PI state and thermal resistivity enhancement by further heating after molding.

Chinese Journal of Polymer Science published new progress about Glass transition temperature. 4415-87-6 belongs to class tetrahydrofurans, and the molecular formula is C8H4O6, Electric Literature of 4415-87-6.

Referemce:
Tetrahydrofuran – Wikipedia,
Tetrahydrofuran | (CH2)3CH2O – PubChem

Ishii, Hidenori; Tetsutani, Hisashi; Nagi, Tatsuya published the artcile< Improving liquid crystal alignment ability and UV sensitivity in photodecomposition polyimide film>, Reference of 4415-87-6, the main research area is carboxylic dianhydride liquid crystal UV sensitivity photodecomposition.

A liquid crystal alignment film with fewer processes capable of imparting anisotropy was developed using a polyimide, which utilized the cleavage of a cyclobutane ring by irradiation of polarized UV light at 254 nm. When an aromatic diamine with alkylene in the mol. center was used, an even methylene number of diamines showed superior liquid crystal alignment ability compared with diamines with an odd methylene number Addnl., a diamine containing a mol. structure with a pre-imidized imide group adjoined to a cyclobutane ring was extremely effective in improving liquid crystal alignment ability and sensitivity to polarized UV light.

Journal of Photopolymer Science and Technology published new progress about Anisotropy. 4415-87-6 belongs to class tetrahydrofurans, and the molecular formula is C8H4O6, Reference of 4415-87-6.

Referemce:
Tetrahydrofuran – Wikipedia,
Tetrahydrofuran | (CH2)3CH2O – PubChem

Noda, Takumi; Iwasaki, Takuma; Takada, Kenji; Kaneko, Tatsuo published the artcile< Soluble Biobased Polyimides from Diaminotruxinic Acid with Unique Bending Angles>, Recommanded Product: Cyclobuta[1,2-c:3,4-c’]difuran-1,3,4,6(3aH,3bH,6aH,6bH)-tetraone, the main research area is soluble bio polyimide diaminotruxinic acid bending solubility tensile thermal.

Biobased diamines with unique bending angles, β- and δ-type truxinic acids, were prepared from functionalized 4-nitrocinnamic acid derivatives via solid-state photodimerization and further chem. modification. The obtained diamines were polymerized with tetracarboxylic acid dianhydrides to produce soluble polyimides via chem. imidization at a high efficiency. The obtained δ-type-based polyimides exhibited a high thermostability at 10% weight loss temperature of ~415°C and good solubility in organic solvents. Most of the polyimides were soluble in chloroform and dichloromethane, as well as polar organic solvents. Tensile test results showed that biopolyimide films from cyclobutanetetracarboxylic dianhydride exhibited ~10.2% elongation at break, indicating high flexibility.

Macromolecules (Washington, DC, United States) published new progress about Crystal structure. 4415-87-6 belongs to class tetrahydrofurans, and the molecular formula is C8H4O6, Recommanded Product: Cyclobuta[1,2-c:3,4-c’]difuran-1,3,4,6(3aH,3bH,6aH,6bH)-tetraone.

Referemce:
Tetrahydrofuran – Wikipedia,
Tetrahydrofuran | (CH2)3CH2O – PubChem

Li, Pengfei; Lan, Hongling; Chen, Kuo; Ma, Xiupeng; Wei, Bingxin; Wang, Ming; Li, Peng; Hou, Yingfei; Jason Niu, Q. published the artcile< Novel high-flux positively charged aliphatic polyamide nanofiltration membrane for selective removal of heavy metals>, Quality Control of 4415-87-6, the main research area is aliphatic polyamide nanofiltration membrane heavy metal removal separation.

The toxic heavy metals produced by the discharge of industrial wastewater pose a serious threat to the ecol. environment and human health. Nanofiltration (NF) membrane separation technol. is widely used in fields such as water softening, heavy metal removal and dye separation due to its environmental friendliness and low cost. Herein, a novel pos. charged aliphatic polyamide NF membrane (PEI-BTC) has been developed by using 1,2,3,4-cyclobutane tetracarboxylic acid chloride (BTC) monomer bearing a stereoscopic structure which undergoes classic interfacial polymerization (IP) with polyethyleneimine (PEI) on the Polyether sulfone (PES) support membrane. The physicochem. properties revealed that the PEI-BTC membrane had a larger mean effective pore size (0.285 nm), a thinner separation layer (40 nm) and a stronger pos. charged membrane surface (IEP = 7.25) than the traditional PEI-TMC membrane. Compared with previously reported PEI-based and com. NF membranes, the optimized PEI-BTC membrane exhibits a higher MgCl2 (2000 ppm) rejection of 97.53% and pure water flux of 156.85 kg·m-2·h-1 at 1.0 MPa. Moreover, the prepared PEI-BTC NF membrane shows excellent toxic heavy metal (1000 ppm) removal efficiency in the order of Mn (98.78%) > Zn (98.32%) > Ni (97.74%) > Cu (95.67%) > Cd (90.49%). The results demonstrate that the prepared pos. charged aliphatic polyamide NF membrane (PEI-BTC) has a unique industrial production potential for water softening and heavy metal removal.

Separation and Purification Technology published new progress about Contact angle. 4415-87-6 belongs to class tetrahydrofurans, and the molecular formula is C8H4O6, Quality Control of 4415-87-6.

Referemce:
Tetrahydrofuran – Wikipedia,
Tetrahydrofuran | (CH2)3CH2O – PubChem