Category: 5036-48-6

On October 31, 2021, Ma, Youwei; Liu, Zhiyong; Zhou, Shuai; Jiang, Xuesong; Shi, Zixing; Yin, Jie published an article.Safety of N-(3-Aminopropyl)-imidazole The title of the article was Aminoesterenamide Achieved by Three-Component Reaction Heading toward Tailoring Covalent Adaptable Network with Great Freedom. And the article contained the following:

Covalent adaptable networks (CANs) have recently received extensive interests due to their reprocessability and repairability. Rethinking the libraries of the published CANs, most of them are fabricated by one/two-component reactions and few cases utilize multi-component reactions to construct CANs while multi-component reactions are conductive to tailoring the properties of polymers due to their structural designability and flexible choice of raw materials. A novel kind of dynamic covalent bond named aminoesterenamide is presented through three-component reaction between acetoacetyl, amine and isocyanate. Aminoesterenamide exhibits thermal reversibility through dissociating into vinylogous urethane and isocyanate. When it is used to prepare CANs, the synthesized polymer networks can be reprocessed many times via the exchange reaction between aminoesterenamides. Moreover, the forming of aminoesterenamide involving three starting components imparts CANs with great freedom to tailor their properties. Therefore, the authors believe this method that utilizes three-component reaction to fabricate CANs would bring new stories and perspectives to the exploration of new types of CANs. The experimental process involved the reaction of N-(3-Aminopropyl)-imidazole(cas: 5036-48-6).Safety of N-(3-Aminopropyl)-imidazole

The Article related to aminoesterenamide covalent adaptable network three component reaction, aminoesterenamide, covalent adaptable networks, three-component reaction, Chemistry of Synthetic High Polymers: Ring-Opening and Other Polymerizations and other aspects.Safety of N-(3-Aminopropyl)-imidazole

Referemce:
Imidazole – Wikipedia,
Imidazole | C3H4N2 – PubChem

On January 19, 2021, Schauser, Nicole S.; Nikolaev, Andrei; Richardson, Peter M.; Xie, Shuyi; Johnson, Keith; Susca, Ethan M.; Wang, Hengbin; Seshadri, Ram; Clement, Raphaele J.; Read de Alaniz, Javier; Segalman, Rachel A. published an article.Computed Properties of 5036-48-6 The title of the article was Glass Transition Temperature and Ion Binding Determine Conductivity and Lithium-Ion Transport in Polymer Electrolytes. And the article contained the following:

Polymer electrolytes with high Li+-ion conductivity provide a route toward improved safety and performance of Li+-ion batteries. However, most polymer electrolytes suffer from low ionic conduction, and an even lower Li+ ion contribution to the conductivity (the transport number, t+), with the anion typically transporting over 80% of the charge. Here, we show that subtle and potentially undetected associations within a polymer electrolyte can entrain both the anion and the cation. When removed, the conductivity performance of the electrolyte can be improved by almost 2 orders of magnitude. Importantly, while some of this improvement can be attributed to a decreased glass transition temperature Tg, the removal of the amide functional group reduces interactions between the backbone and Li+ cations, doubling the Li+t+ to 0.43, as measured using pulsed-field-gradient NMR. This work highlights the importance of strategic synthetic design and emphasizes the dual role of Tg and ion binding for the development of polymer electrolytes with increased total ionic conductivity and the Li+ ion contribution to it. The experimental process involved the reaction of N-(3-Aminopropyl)-imidazole(cas: 5036-48-6).Computed Properties of 5036-48-6

The Article related to glass transition temperature ion conductivity lithium transport polymer electrolyte, Plastics Manufacture and Processing: Formulating Procedures and Compositions and other aspects.Computed Properties of 5036-48-6

Referemce:
Imidazole – Wikipedia,
Imidazole | C3H4N2 – PubChem

On April 9, 2021, O’Harra, Kathryn E.; Timmermann, George M.; Bara, Jason E.; Miller, Kevin M. published an article.Formula: C6H11N3 The title of the article was Designing Ionic Liquid-Derived Polymer Composites from Poly(Ionic Liquid)-Ionene Semi-interpenetrating Networks. And the article contained the following:

While the solvating power of ionic liquids (ILs) for a variety of solute types including polymers is well-known, the use of ILs as solvents for ionenes-charged polymers with cationic moieties within the backbone-has only recently begun to be explored. IL-ionene combinations offer vast possibilities to make iongels and perhaps even use ILs to exert control over ionene organization (i.e., coil or rod). If the IL solvent is also polymerizable, then poly(IL)-ionene semi-interpenetrating networks (semi-IPNs) can be achieved. This study reports, for the first time, examples of poly(IL)-ionene semi-IPNs formed by dissolving an ionene in a vinyl-functionalized imidazolium IL followed by subsequent photopolymerization of the IL around the ionene. The resultant poly(IL)-ionene semi-IPNs exhibit greater elasticity and ionic conductivity than the neat poly(IL). Thus, the addition of 10-20 weight % ionene can lead to significant changes in the properties of poly(IL) materials. Given the limitless possibilities for IL and ionene structures, this unique type of ionic composite presents vast opportunities for material design. The experimental process involved the reaction of N-(3-Aminopropyl)-imidazole(cas: 5036-48-6).Formula: C6H11N3

The Article related to ionic liquid polymer composite polyionic liquidionene semiinterpenetrating network, Plastics Manufacture and Processing: Formulating Procedures and Compositions and other aspects.Formula: C6H11N3

Referemce:
Imidazole – Wikipedia,
Imidazole | C3H4N2 – PubChem

Wang, Huihuan; Li, Chuan; Hou, Zhuang; Li, Bolun; Cai, Haopeng published an article in 2022, the title of the article was A phosphorus-containing imidazole derivative towards the liquid oxygen compatibility and toughness of epoxy resin.Formula: C6H11N3 And the article contains the following content:

In order to develop a liquid oxygen-compatible (LOX-compatible) matrix resins for polymer-based fiber-reinforced composites, a novel phosphorus-containing imidazole derivative called VAD containing multifunctional groups was synthesized and used as a co-curing agent for epoxy resin (EP) with simultaneous LOX-compatibility and mech. improvement. A phosphorus group was introduced into the EP to capture the free radicals generated during the pyrolysis of the polymer to improve LOX compatibility, and the trimethylene group was introduced as a flexible spacer to enhance the toughness of the cured material. In comparison to pure EP, the modified EP with only 2.5 wt% VAD showed excellent mech. properties with 23.0% and 75.6% increase in tensile and impact strength, resp. Furthermore, as the content of VAD increased, a thermoset compatible with LOX (according to the liquid oxygen impact test) was obtained, and the flame retardancy was improved (according to the limiting oxygen index test). However, there was no significant sacrifice of transparency or thermal stability. In addition, the LOX compatibility mechanism was analyzed using XPS. As an efficient multi-functional modifier, VAD has a bright future in the modification realm of EP materials. The experimental process involved the reaction of N-(3-Aminopropyl)-imidazole(cas: 5036-48-6).Formula: C6H11N3

The Article related to phosphorus containing imidazole derivative epoxy resin liquid oxygen compatibility, Plastics Manufacture and Processing: Formulating Procedures and Compositions and other aspects.Formula: C6H11N3

Referemce:
Imidazole – Wikipedia,
Imidazole | C3H4N2 – PubChem

Xu, Shaobin; Sheng, Dekun; Zhou, Yan; Wu, Haohao; Xie, Haopu; Tian, Xinxin; Sun, Yinglu; Liu, Xiangdong; Yang, Yuming published an article in 2020, the title of the article was A dual supramolecular crosslinked polyurethane with superior mechanical properties and autonomous self-healing ability.Recommanded Product: N-(3-Aminopropyl)-imidazole And the article contains the following content:

To prepare a robust material with high self-healing capability under ambient conditions is still a great challenge. Herein, a novel self-healing polyurethane is developed via a dual-dynamic network design, in which multiple H-bonding and metal-coordinated bonds (zinc-imidazole interaction) were incorporated into a polyurethane matrix. Benefiting from the dual-dynamic network, the synthesized metallopolymers exhibit excellent mech. properties, such as high tensile strength (from 6.68 MPa to 14.38 MPa), excellent stretchability (about 2000%) and superior toughness (from 55.61 MJ m-3 to 96.21 MJ m-3). Moreover, these metallopolymers show good self-healing capability. After healing under ambient conditions for 48 h, the tensile strength and strain at break of PU-IZ/Zn-0.50 can reach up to 7.13 MPa and 1800%, resp. The dual-dynamic crosslinked metallopolymers might provide a novel approach to design tough and self-healable materials for various industrial applications. The experimental process involved the reaction of N-(3-Aminopropyl)-imidazole(cas: 5036-48-6).Recommanded Product: N-(3-Aminopropyl)-imidazole

The Article related to crosslinked polyoxyalkylene polyurethane block self healing zinc tensile, Plastics Manufacture and Processing: Formulating Procedures and Compositions and other aspects.Recommanded Product: N-(3-Aminopropyl)-imidazole

Referemce:
Imidazole – Wikipedia,
Imidazole | C3H4N2 – PubChem

On August 14, 2020, Huo, Siqi; Yang, Shuang; Wang, Jun; Cheng, Jianwen; Zhang, Qianqian; Hu, Yefa; Ding, Guoping; Zhang, Qiaoxin; Song, Pingan; Wang, Hao published an article.Reference of N-(3-Aminopropyl)-imidazole The title of the article was A Liquid Phosphaphenanthrene-Derived Imidazole for Improved Flame Retardancy and Smoke Suppression of Epoxy Resin. And the article contained the following:

The fabrication of high-performance thermosetting polymers with intrinsic flame retardancy and smoke suppression is necessary but challenging. Herein, we have successfully synthesized a liquid phosphaphenanthrene/imidazole-containing curing agent (DOPO-AI) for epoxy resin (EP) by the Atherton-Todd reaction of 1-(3-aminopropyl)imidazole (AI) and 9,10-dihydro-9-oxa-10-phosphaphenanthrene-10-oxide (DOPO). The as-prepared EP/DOPO-AI samples exhibit comparable mech. properties to the reference EP/AI-6 sample, with slightly decreased glass transition temperatures Impressively, the EP/DOPO-AI sample can pass the UL-94 V-0 rating and achieve a limited oxygen index (LOI) value of 37.0%. Addnl., the EP/DOPO-AI sample shows 26.3%, 36.6%, and 24.4% reductions in the total heat release (THR), peak of heat release rate (pHRR), and total smoke production (TSP) relative to the EP/AI-6 sample, indicating a significantly reduced fire hazard. The significant enhancements in flame retardancy and smoke suppression are attributed to the condensed- and gaseous-phase effects of DOPO-AI. This work demonstrates a feasible methodol. for creating high-performance EPs with inherent flame retardancy and smoke suppression, holding great promise in the future. The experimental process involved the reaction of N-(3-Aminopropyl)-imidazole(cas: 5036-48-6).Reference of N-(3-Aminopropyl)-imidazole

The Article related to imidazole flame smoke suppression epoxy resin, Plastics Manufacture and Processing: Formulating Procedures and Compositions and other aspects.Reference of N-(3-Aminopropyl)-imidazole

Referemce:
Imidazole – Wikipedia,
Imidazole | C3H4N2 – PubChem

On January 31, 2022, Shiveshwarkar, Priyanka; Siurano, Savier Vega; Kadyrova, Mahri; Tran, Natalie; Jaworski, Justyn published an article.Name: N-(3-Aminopropyl)-imidazole The title of the article was Investigating the Characteristics and Responses of Diacetylene Based Materials as Spray-On Colorimetric Sensors. And the article contained the following:

Polydiacetylene based sensors were used for a variety of sensing applications. Here we demonstrate that diacetylene-containing amphiphiles could be spray processed to provide unique sensor coatings that may be applied to a variety of material surfaces. Utilizing an airbrushing technique, we examined processing parameters to yield spray-on sensors for detecting UV, temperature, as well as chem./solvent targets depending on the pendant side chain chem. of the resulting polydiacetylene coating. We observed that the concentration, carrier solvent, and UV exposure time had a significant effect on the colorimetric response of the sprayed on coating with better responses observed at higher amphiphile concentration and shorter polymerization times. We expect this approach to generating spray-on responsive coatings will provide a widely deployable means for detection that may be customized for a variety of sensing applications. The experimental process involved the reaction of N-(3-Aminopropyl)-imidazole(cas: 5036-48-6).Name: N-(3-Aminopropyl)-imidazole

The Article related to diacetylene spray colorimetric sensor, Chemistry of Synthetic High Polymers: Ring-Opening and Other Polymerizations and other aspects.Name: N-(3-Aminopropyl)-imidazole

Referemce:
Imidazole – Wikipedia,
Imidazole | C3H4N2 – PubChem

Tuan, Cao Manh; Tinh, Vo Dinh Cong; Kim, Dukjoon published an article in 2020, the title of the article was Anion exchange membranes prepared from quaternized polyepichlorohydrin cross-linked with 1-(3-aminopropyl)imidazole grafted poly(arylene ether ketone) for enhancement of toughness and conductivity.Recommanded Product: 5036-48-6 And the article contains the following content:

A novel anion exchange membrane was synthesized via crosslinking of the quaternized polyepichlorohydrin (QPECH) by 1-(3-aminopropyl) imidazole grafted poly(arylene ether ketone) (PAEK-API).While the QPECH provided an excellent ion conductive property, therigidrod-structured PAEK-API played a reinforcing role, along with providing the high conductivity associated with the pendant API group. The chem. structure of QPECH/PAEK-API membranes was identified by 1H nuclear magnetic resonace spectroscopy. A variety of membrane properties, such as anion conductivity, water uptake, length swelling percentage, and thermal, mech. and chem. stability, were investigated. The QPECH/PAEK-API1 membrane showed quite high hydroxide ion conductivity, from 0.022 S cm-1 (30°C) to 0.033 S cm-1 (80°C), and excellent mech. strength, associated with the low water uptake of less than 40%, even at 80°C. Such high conductivity at relatively low water uptake is attributed to the concentrated cationic groups, in a cross-linked structure, facilitating feasible ion transport. Further, the QPECH/PAEK-API membranes showed thermal stability up to 250°C, and chem. stability for 30 days in a 4 NaOH solution, without significant loss of ion exchange capacity. The experimental process involved the reaction of N-(3-Aminopropyl)-imidazole(cas: 5036-48-6).Recommanded Product: 5036-48-6

The Article related to polyepichlorohydrin polyarylene ether ketone anion exchange membrane, anion exchange membrane, paek, crosslinking, imidazole, ion conductivity, Electrochemical, Radiational, and Thermal Energy Technology: Energy Sources and other aspects.Recommanded Product: 5036-48-6

Referemce:
Imidazole – Wikipedia,
Imidazole | C3H4N2 – PubChem

On August 17, 2021, Le, My Linh; Rawlings, Dakota; Danielsen, Scott P. O.; Kennard, Rhiannon M.; Chabinyc, Michael L.; Segalman, Rachel A. published an article.Product Details of 5036-48-6 The title of the article was Aqueous Formulation of Concentrated Semiconductive Fluid Using Polyelectrolyte Coacervation. And the article contained the following:

Conjugated polyelectrolytes (CPEs), which combine π-conjugated backbones with ionic side chains, are intrinsically soluble in polar solvents and have demonstrated tunability with respect to solution processability and optoelectronic performance. However, this class of polymers often suffers from limited solubility in water. Here, polyelectrolyte coacervation was utilized for aqueous processing of conjugated polymers at extremely high polymer loading. Sampling various mixing conditions, compositions that enable the formation of complex coacervates of an alkoxysulfonate-substituted PEDOT (PEDOT-S) with poly(3-methyl-1-propylimidazolylacrylamide) (PA-MPI) were identified. The resulting coacervate is a viscous fluid containing 50% weight/volume polymer and can be readily blade-coated into films of 4 ± 0.5μm thickness. Subsequent acid doping of the film increased the elec. conductivity of the coacervate to twice that of a doped film of neat PEDOT-S. This higher conductivity of the doped coacervate film suggests an enhancement in charge carrier transport along PEDOT-S backbone, in agreement with spectroscopic data, which shows an enhancement in the conjugation length of PEDOT-S upon coacervation. This study illustrates the utilization of electrostatic interactions in aqueous processing of conjugated polymers, which will be useful in large-scale industrial processing of semiconductive materials using limited solvent and with added enhancements to optoelectronic properties. The experimental process involved the reaction of N-(3-Aminopropyl)-imidazole(cas: 5036-48-6).Product Details of 5036-48-6

The Article related to polythiophene conjugated polymer polyelectrolyte coacervation semiconductive fluid, Physical Properties of Synthetic High Polymers: Polymer Solutions and Gels and other aspects.Product Details of 5036-48-6

Referemce:
Imidazole – Wikipedia,
Imidazole | C3H4N2 – PubChem

Brzeczek-Szafran, Alina; Wieclawik, Justyna; Barteczko, Natalia; Szelwicka, Anna; Byrne, Emily; Kolanowska, Anna; Swadzba Kwasny, Malgorzata; Chrobok, Anna published an article in 2021, the title of the article was Protic ionic liquids from di- or triamines: even cheaper Bronsted acidic catalysts.Synthetic Route of 5036-48-6 And the article contains the following content:

Dicationic and tricationic ionic liquids, synthesized by proton transfer from sulfuric acid and corresponding di- and triamines, were characterised and used as Bronsted acidic catalysts in biodiesel production It has been demonstrated that the new ionic liquids are less expensive than those based on monoamines (even on triethylamine) and are highly acidic. Their performance in a model catalytic esterification reaction surpassed that of sulfuric acid and other literature reports, due to the capability of the ionic liquids to absorb water while phase-separating the ester, thereby shifting the reaction equilibrium towards products. The overall catalytic performance was an interplay between acidity (quantified by Gutmann AN) and phys. properties: d. and viscosity, which enabled easy phase separation, thereby separating water from the ester. The substrate scope and recycling studies have demonstrated that the new ionic liquids are robust and recyclable catalysts. The experimental process involved the reaction of N-(3-Aminopropyl)-imidazole(cas: 5036-48-6).Synthetic Route of 5036-48-6

The Article related to protic ionic liquid esterification reaction phys thermal catalytic property, Catalysis, Reaction Kinetics, and Inorganic Reaction Mechanisms: Catalysts and other aspects.Synthetic Route of 5036-48-6

Referemce:
Imidazole – Wikipedia,
Imidazole | C3H4N2 – PubChem