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141-83-3

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  • 141-83-3 Structure

  • Basic information

    1. Product Name: CARBAMOYL-GUANIDINE AMIDINO UREA SALT
    2. Synonyms: (aminoiminomethyl)-ure;1-amidinourea;1-carbamoylguanidine;amidino-ure;amidinourea;dicyandiamidine;guanidinecarboxamide;guanylurea
    3. CAS NO:141-83-3
    4. Molecular Formula: C2H6N4O
    5. Molecular Weight: 204.19048
    6. EINECS: 205-504-6
    7. Product Categories: Aliphatics;Amino Acids & Derivatives
    8. Mol File: 141-83-3.mol
    9. Article Data: 11

  • Chemical Properties

    1. Melting Point: 173-175°C
    2. Boiling Point: 191.38°C (rough estimate)
    3. Flash Point: 147.2°C
    4. Appearance: /
    5. Density: 1.3662 (rough estimate)
    6. Vapor Pressure: 0.000331mmHg at 25°C
    7. Refractive Index: 1.4164 (estimate)
    8. Storage Temp.: Hygroscopic, -20°C Freezer, Under inert atmosphere
    9. Solubility: DMSO (Slightly), Methanol (Slightly), Water (Slightly)
    10. PKA: pK1:1.8;pK2:8.2 (25°C)
    11. Stability: Hygroscopic
    12. CAS DataBase Reference: CARBAMOYL-GUANIDINE AMIDINO UREA SALT(CAS DataBase Reference)
    13. NIST Chemistry Reference: CARBAMOYL-GUANIDINE AMIDINO UREA SALT(141-83-3)
    14. EPA Substance Registry System: CARBAMOYL-GUANIDINE AMIDINO UREA SALT(141-83-3)

  • Safety Data

    1. Hazard Codes: N/A
    2. Statements: N/A
    3. Safety Statements: N/A
    4. WGK Germany:
    5. RTECS:
    6. HazardClass: N/A
    7. PackingGroup: N/A
    8. Hazardous Substances Data: 141-83-3(Hazardous Substances Data)

141-83-3 Usage

Description

CARBAMOYL-GUANIDINE AMIDINO UREA SALT is a light yellow solid with unique chemical properties that make it suitable for various applications across different industries.

Uses

Used in Analytical Chemistry:
CARBAMOYL-GUANIDINE AMIDINO UREA SALT is used as a reagent for detecting and determining the presence of nickel (Ni) in samples. It aids in the separation of nickel from cobalt (Co) and other metals, making it a valuable tool in the field of analytical chemistry.
Used in Research and Development:
Due to its unique chemical properties, CARBAMOYL-GUANIDINE AMIDINO UREA SALT can be employed in research and development for the creation of new compounds, materials, or processes that require its specific characteristics. This can include the development of new analytical methods, catalysts, or other chemical applications.
Used in Industrial Processes:
CARBAMOYL-GUANIDINE AMIDINO UREA SALT may also find use in specific industrial processes where its ability to interact with metals is required. This could include applications in the metallurgical industry, where it can be used to enhance the separation or purification of certain metals.
Used in Environmental Applications:
The compound's ability to interact with metals may also make it useful in environmental applications, such as the treatment of wastewater or soil remediation, where the removal or recovery of specific metal contaminants is necessary.

Check Digit Verification of cas no

The CAS Registry Mumber 141-83-3 includes 6 digits separated into 3 groups by hyphens. The first part of the number,starting from the left, has 3 digits, 1,4 and 1 respectively; the second part has 2 digits, 8 and 3 respectively.
Calculate Digit Verification of CAS Registry Number 141-83:
(5*1)+(4*4)+(3*1)+(2*8)+(1*3)=43
43 % 10 = 3
So 141-83-3 is a valid CAS Registry Number.
InChI:InChI=1/C2H6N4O/c3-1(4)6-2(5)7/h(H6,3,4,5,6,7)

141-83-3SDS

SAFETY DATA SHEETS

According to Globally Harmonized System of Classification and Labelling of Chemicals (GHS) - Sixth revised edition

Version: 1.0

Creation Date: Aug 14, 2017

Revision Date: Aug 14, 2017

1.Identification

1.1 GHS Product identifier

Product name CARBAMOYL-GUANIDINE AMIDINO UREA SALT

1.2 Other means of identification

Product number -
Other names Guanidinecarboxamide

1.3 Recommended use of the chemical and restrictions on use

Identified uses For industry use only.
Uses advised against no data available

1.4 Supplier's details

1.5 Emergency phone number

Emergency phone number -
Service hours Monday to Friday, 9am-5pm (Standard time zone: UTC/GMT +8 hours).

More Details:141-83-3 SDS

141-83-3Relevant articles and documents

Aerobic soil metabolism of metsulfuron-methyl

Li,Zimmerman,Gorman,Reiser,Fogiel,Haney

, p. 434 - 445 (1999)

A laboratory study was conducted to determine the degradation rates and identify major metabolites of the herbicide metsulfuron-methyl in sterile and non-sterile aerobic soils in the dark at 20°C. Both [phenyl-U-14C]- and [triazine-2-14C]metsulfuron-methyl were used. The soil was treated with [14C]metsulfuron-methyl (0.1 mg kg-1) and incubated in flow-through systems for one year. The degradation rate constants, DT50, and DT90 were obtained based on the first-order and biphasic models. The DT50 (time required for 50% of applied chemical to degrade) for met sulfuron-methyl, estimated using a biphasic model, was approximately 10 days (9-11 days, 95% confidence limits) in the non-sterile soil and 20 days (12-32 days, 95% confidence limits) in the sterile soil. One-year cumulative carbon dioxide accounted for approximately 48% and 23% of the applied radioactivity in the [phenyl-U-14C] and [triazine-2-14C]metsulfuron-methyl systems, respectively. Seven metabolites were identified by HPLC or LC/MS with synthetic standards. The degradation pathways included O-demethylation, cleavage of the sulfonylurea bridge, and triazine ring opening. The triazine ring-opened products were methyl 2- [[[[[[[(acetylamino)carbonyl]amino]carbonyl]amino] carbonyl]- amino]sulfonyl]benzoate in the sterile soil and methyl 2- 1[[[[[amino](aminocarbonyl)imino]methyl] amino]carbonyl]amino]sulfonyl]benzoate in the non-sterile soil, indicating that different pathways were operable.

Herth, R.

, (1880)

Retinoidal pyrimidinecarboxylic acids. Unexpected diaza-substituent effects in retinobenzoic acids

Ohta, Kiminori,Kawachi, Emiko,Inoue, Noriko,Fukasawa, Hiroshi,Hashimoto, Yuichi,Itai, Akiko,Kagechika, Hiroyuki

, p. 1504 - 1513 (2007/10/03)

Several pyridine- and pyrimidine-carboxylic acids were synthesized as ligand candidates for retinoid nuclear receptors, retinoic acid receptors (RARs) and retinoic X receptors (RXRs). Although the pyridine derivatives, 6-[(5,6,7,8-tetrahydro-5,5,8,8-tetramethyl-2-naphthalenyl)carbamoyl]pyridine- 3-carboxylic acid (2b) and 6-[(5,6,7,8-tetrahydro-5,5,8,8-tetramethyl-2-naphthalenyl)carboxamido]pyridin e-3-carboxylic acid (5b) are more potent than the corresponding benzoic acid-type retinoids, Am80 (2a) and Am580 (5a), the replacement of the benzene ring of Am580 (5a), Am555 (6a), or Am55 (7a) with a pyrimidine ring caused loss of the retinoidal activity both in HL-60 cell differentiation assay and in RAR transactivation assay using COS-1 cells. On the other hand, pyrimidine analogs (PA series, 10 and 11) of potent RXR agonists (retinoid synergists) with a diphenylamine skeleton (DA series, 8 and 9) exhibited potent retinoid synergistic activity in HL-60 cell differentiation assay and activated RXRs. Among the synthesized compounds, 2-[N-n-propyl-N-(5,6,7,8-tetrahydro-5,5,8,8-tetramethyl-2-naphthalenyl)amino] pyrimidine-5-carboxylic acid (PA013, 10e) is most active retinoid synergist in HL-60 assay.

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