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5,5-dimethyl-3-(oxiran-2-ylmethyl)imidazolidine-2,4-dione is a complex organic compound with the molecular formula C9H13NO3. It is a derivative of imidazolidine-2,4-dione, featuring two methyl groups at the 5-position and an oxiran-2-ylmethyl group attached to the 3-position. This chemical is known for its ability to act as a cross-linking agent, which is useful in various industrial applications such as the production of polyurethane foams and adhesives. The oxiran-2-ylmethyl group, also known as a glycidyl group, is reactive and can form covalent bonds with other molecules, contributing to the compound's cross-linking properties. This makes it a valuable component in the synthesis of materials with enhanced mechanical strength and durability.

22096-01-1

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22096-01-1 Usage

Check Digit Verification of cas no

The CAS Registry Mumber 22096-01-1 includes 8 digits separated into 3 groups by hyphens. The first part of the number,starting from the left, has 5 digits, 2,2,0,9 and 6 respectively; the second part has 2 digits, 0 and 1 respectively.
Calculate Digit Verification of CAS Registry Number 22096-01:
(7*2)+(6*2)+(5*0)+(4*9)+(3*6)+(2*0)+(1*1)=81
81 % 10 = 1
So 22096-01-1 is a valid CAS Registry Number.

22096-01-1Downstream Products

22096-01-1Relevant academic research and scientific papers

N-halamine biocidal materials with superior antimicrobial efficacies for wound dressings

Demir, Buket,Broughton, Roy M,Qiao, Mingyu,Huang, Tung-Shi,Worley

, (2017)

This work demonstrated the successful application of N-halamine technology for wound dressings rendered antimicrobial by facile and inexpensive processes. Four N-halamine compounds, which possess different functional groups and chemistry, were synthesized. The N-halamine compounds, which contained oxidative chlorine, the source of antimicrobial activity, were impregnated into or coated onto standard non-antimicrobial wound dressings. N-halamine-employed wound dressings inactivated about 6 to 7 logs of Staphylococcus aureus and Pseudomonas aeruginosa bacteria in brief periods of contact time. Moreover, the N-halamine-modified wound dressings showed superior antimicrobial efficacies when compared to commercially available silver wound dressings. Zone of inhibition tests revealed that there was no significant leaching of the oxidative chlorine from the materials, and inactivation of bacteria occurred by direct contact. Shelf life stability tests showed that the dressings were stable to loss of oxidative chlorine when they were stored for 6 months in dark environmental conditions. They also remained stable under florescent lighting for up to 2 months of storage. They could be stored in opaque packaging to improve their shelf life stabilities. In vitro skin irritation testing was performed using a three-dimensional human reconstructed tissue model (EpiDerm). No potential skin irritation was observed. In vitro cytocompatibility was also evaluated. These results indicate that N-halamine wound dressings potentially can be employed to prevent infections, while at the same time improving the healing process by eliminating undesired bacterial growth.

Antimicrobial N-halamine modified chitosan films

Li, Rong,Hu, Pei,Ren, Xuehong,Worley,Huang

, p. 534 - 539 (2013)

The inherent antimicrobial properties and biodegradability of chitosan make it an ideal candidate for antimicrobial materials. In this study, N-halamine precursor 3-glycidyl-5,5-dimethylhydantoin (GH) was synthesized and bonded onto chitosan by a ring ope

ANTIBACTERIAL HYDROPHILIC COMPOUND AND USE THEREOF

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Paragraph 0200, (2020/04/10)

The present disclosure provides an antibacterial hydrophilic compound. The antibacterial hydrophilic compound may react, induced by light through a hydrogen abstraction group in the structural formula thereof, with a C—H group and thus bind to a surface of a material having the C—H group (for example, chemical fibers such as polyester, chinlon, and the like; plastics, rubbers, and other similar materials), which can impart a durable antibacterial activity and hydrophilicity to the material. The antibacterial hydrophilic compound has a relatively strong binding force to the surface of the material without damaging the mechanical properties of the raw material. The present disclosure also provides a modified material that is modified by the antibacterial hydrophilic compound.

The role of aryl-topology in balancing between selective and dual 5-HT7R/5-HT1A actions of 3,5-substituted hydantoins

Kucwaj-Brysz, Katarzyna,Kurczab, Rafa?,Zes?awska, Ewa,Lubelska, Annamaria,Mar?, Ma?gorzata Anna,Latacz, Gniewomir,Sata?a, Grzegorz,Nitek, Wojciech,Kie?-Kononowicz, Katarzyna,Handzlik, Jadwiga

, p. 1033 - 1044 (2018/06/27)

In order to search for active and selective serotonin 5-HT7R antagonists among 3,5-disubstituted arylpiperazine-imidazolidine-2,4-diones, the role of the introduction/deletion and the mutual orientation of aromatic rings was analyzed. Chemical modifications of 2nd generation lead structure of 3-(3-(4-(diphenylmethyl)piperazin-1-yl)-2-hydroxypropyl)-5-(4-fluorophenyl)-5-methylimidazolidine-2,4-dione (2, KKB16) were performed. New derivatives (4-18) were designed and synthesized. X-ray crystallographic analysis of the representative compound 5-(4-fluorophenyl)-3-[2-hydroxy-3-(4-phenylpiperazin-1-yl)propyl]-5-methylimidazolidine-2,4-dione (3) was performed to support molecular modeling and SAR studies. The affinity for 5-HT7R, D2R and 5-HT1AR in radioligand binding assays for the entire series and ADME-Tox parameters in vitro for selected compounds (7, 10, and 13) were evaluated. Molecular docking and pharmacophore model assessment were performed. According to the obtained results, 5-methyl-5-naphthylhydantoin derivatives were found to be the new highly active 5-HT7R agents (Ki ≤ 5 nM) with significant selectivity over 5-HT1AR and D2R. On the contrary, the (1-naphthyl)piperazine moiety was gained with the potent dual 5-HT7R/5-HT1AR action (Ki: 11 nM/19 nM).

Biocidal N-Halamine epoxides

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Page/Page column 4, (2010/11/25)

N-halaminehydantoinyl epoxide compounds which can be used for the construction of coatings and materials which can be rendered biocidal by exposure to halogen solutions either before or after curing the coating or material are disclosed. The biocidal coatings and materials can then be used to inactivate pathogenic microorganisms such as bacteria, fungi, and yeasts, as well as virus particles, which can cause infectious diseases, and those microorganisms which cause noxious odors and unpleasant coloring such as mildew. The coatings are compatible with a variety of substrates including, but not limited to, cellulose, chitin, chitosan, synthetic fibers, cement grout, latex caulk, acrylic films, polyurethanes, plastics and paints.

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