Determine the necessary mass, volume, or concentration for preparing a solution.
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1000μg/mL for sensitive chromatographic and analytical workflows requiring minimal baseline interference.
Store at 2-8°C,Protected from light Ships Wet ice Check lot-specific COA for exact specifications.
SDS, COA, datasheet, and spec sheet available for download. Lot-specific COA accessible via lot number lookup.
Cited in 9 peer-reviewed publications across chromatography, organic synthesis, and cross-coupling reactions.
This standard substance is mainly used for measuring instrument calibration, analytical method evaluation and quality control, as well as the content determination and residue detection of corresponding components in the fields of food, hygiene, environment and agriculture. It can also be used as a standard stock solution and prepared into various types through successive dilutions. Standard solution for work, etc.
Sample Preparation
This standard material is made of pure pyridaben with accurate purity as raw material, pesticide residue methanol as solvent, and accurately prepared by the weight-volume method.
Pyridaben (alias: pyridaben), English name: Pyridaben, CAS: 96489-71-3
Traceability and valuation method
This standard material uses the prepared value as the standard value, and uses HPLC to compare the batch of standard materials with the quality control control sample to verify the prepared value. Through the use of preparation methods, measurement methods and measuring instruments that meet the requirements of metrological characteristics, the traceability of the value of the reference material is guaranteed.
Characteristic value and uncertainty
Number | Name | Standard value(μg/mL) | Relative expanded uncertainty(%)(k=2) |
| BWY272961 | Pyridaben in Methanol | 1000 | 2 |
The uncertainty of the standard value is mainly composed of raw material purity, weighing, constant volume, uniformity, stability and other uncertainty components.
Uniformity inspection and stability inspection
According to JJF1343-2012 "General Principles and Statistical Principles for Determining the Value of Standard Materials", random samples were taken of the subpackaged samples, and the uniformity and stability of the solution concentration were inspected. The results show that the standard material has good uniformity and stability.
The quality value of this standard material is valid for 24 months from the date of setting the value. The development unit will continue to track and monitor the stability of the standard material. If there is any change in the value within the validity period, the user will be notified in time.
Packaging, transportation and storage, use and precautions
1. Packaging: This standard material is packaged in a borosilicate glass ampoule, about 1.2mL/piece. When pipetting or diluting, please refer to the pipette volume.
2. Transportation and storage: transport in ice bags, avoid squeezing and collision during transportation; store under refrigerated and dark conditions.
3. Use: Equilibrate at room temperature (20±3℃) before unsealing, and shake well. Once the ampoule is opened, it should be used immediately. It cannot be used as a standard substance after being sealed again.
| Sonrisas canónicas | CC(C)(C)C1=CC=C(C=C1)CSC2=C(C(=O)N(N=C2)C(C)(C)C)Cl |
|---|---|
| IUPAC Name | 2-tert-butyl-5-[(4-tert-butylphenyl)methylsulfanyl]-4-chloropyridazin-3-one |
| InChIKey | DWFZBUWUXWZWKD-UHFFFAOYSA-N |
| INCHI | 1S/C19H25ClN2OS/c1-18(2,3)14-9-7-13(8-10-14)12-24-15-11-21-22(19(4,5)6)17(23)16(15)20/h7-11H,12H2,1-6H3 |
| Isómeros SMILES | CC(C)(C)C1=CC=C(C=C1)CSC2=C(C(=O)N(N=C2)C(C)(C)C)Cl |
| WGK Alemania | 3 |
| RTECS | UR6149000 |
| Número ONU | 3077 |
| Peso molecular | 364.93 |
| Beilstein | 7933972 |
| Reaxy-Rn | 7933972 |
| Reaxys-RN_link_address | https://www.reaxys.com/reaxys/secured/hopinto.do?context=S&query=IDE.XRN=7933972&ln= |
Comprehensive hazard, handling, storage, and regulatory compliance document.
Download SDS →Lot-specific quality data. Enter your lot number to retrieve the exact COA.
Look up COA →Full quality attributes and acceptance criteria for this grade.
View spec sheet →Taxonomy Tree
| Kingdom | Organic compounds |
|---|---|
| Superclass | Benzenoids |
| Clase | Benzene and substituted derivatives |
| Subclass | Phenylpropanes |
| Intermediate Tree Nodes | Not available |
| Direct Parent | Phenylpropanes |
| Alternative Parents | Pyridazinones Alkylarylthioethers Vinylogous thioesters Aryl chlorides Heteroaromatic compounds Lactams Sulfenyl compounds Azacyclic compounds Organopnictogen compounds Organooxygen compounds Organonitrogen compounds Organochlorides Organic oxides Hydrocarbon derivatives |
| Molecular Framework | Aromatic heteromonocyclic compounds |
| Substituents | Phenylpropane - Aryl thioether - Pyridazinone - Alkylarylthioether - Aryl chloride - Aryl halide - Pyridazine - Vinylogous thioester - Heteroaromatic compound - Lactam - Azacycle - Thioether - Sulfenyl compound - Organoheterocyclic compound - Hydrocarbon derivative - Organic oxide - Organosulfur compound - Organooxygen compound - Organonitrogen compound - Organochloride - Organohalogen compound - Organic nitrogen compound - Organic oxygen compound - Organopnictogen compound - Aromatic heteromonocyclic compound |
| Descripción | This compound belongs to the class of organic compounds known as phenylpropanes. These are organic compounds containing a phenylpropane moiety. |
| External Descriptors | Pesticides |
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| Peso molecular | 364.900 g/mol |
|---|---|
| XLogP3 | 5.200 |
| Hydrogen Bond Donor Count | 0 |
| Hydrogen Bond Acceptor Count | 3 |
| Rotatable Bond Count | 5 |
| Exact Mass | 364.138 Da |
| Monoisotopic Mass | 364.138 Da |
| Topological Polar Surface Area | 58.000 Ų |
| Heavy Atom Count | 24 |
| Formal Charge | 0 |
| Complexity | 535.000 |
| Isotope Atom Count | 0 |
| Defined Atom Stereocenter Count | 0 |
| Undefined Atom Stereocenter Count | 0 |
| Defined Bond Stereocenter Count | 0 |
| Undefined Bond Stereocenter Count | 0 |
| The total count of all stereochemical bonds | 0 |
| Covalently-Bonded Unit Count | 1 |
| 1. Mei-ting Guo, Ting-feng Shi, Run Tian, Ping Lu, Ting-tiao Pan. (2023) Adsorption behavior of pyridaben on silver surface and detection of pyridaben residues in apple. MICROCHEMICAL JOURNAL, [PMID:] [10.1016/j.microc.2023.109635] |
| 2. Jiaxuan Fan, Jing Li, Wenfeng Zhou, Haixiang Gao, Runhua Lu. (2022) A low-cost, efficient and selective detection method of acaricide residues: Adsorption study. MICROCHEMICAL JOURNAL, [PMID:] [10.1016/j.microc.2022.108325] |
| 3. Gu Yu-Xin, Yan Tian-Ci, Yue Zi-Xuan, Li Min-Hui, Zheng Hui, Wang Shu-Ling, Cao Jun. (2022) Dispersive Micro-solid-Phase Extraction of Acaricides from Fruit Juice and Functional Food Using Cucurbituril as Sorbent. Food Analytical Methods, 15 (5): (1356-1367). [PMID:] [10.1007/s12161-021-02209-8] |
| 4. Ning Shen, Yao Li, Kipchoge Leviticus, Xiao Li Chang, Tao Tang, Li Cui, Zhao Jun Han, Chun Qing Zhao. (2021) Effect of broflanilide on the phytophagous mite Tetranychus urticae and the predatory mite Typhlodromips swirskii. PEST MANAGEMENT SCIENCE, 77 (6): (2964-2970). [PMID:33624401] [10.1002/ps.6335] |
| 5. Xiao-Chun Ma, Zong-Qin Ma, Meng-Xin Zhao, Ying-Hui Wang, Yuan Peng, Xin Guo, Fang-Huan Wang, Zhe Meng, Hao-Bo Zheng. (2020) Facile synthesis of magnetic molybdenum disulfide@graphene nanocomposite with amphiphilic properties and its application in solid-phase extraction for a wide polarity of insecticides in wolfberry samples. Analytical Methods, 13 (5): (672-684). [PMID:33475104] [10.1039/D0AY01939A] |
| 6. Kipchoge Leviticus, Li Cui, Han Ling, Zhong-Qiang Jia, Qiu-Tang Huang, Zhao-Jun Han, Chun-Qing Zhao, Lu Xu. (2019) Lethal and sublethal effects of fluralaner on the two-spotted spider mites, Tetranychus urticae Koch (Acari: Tetranychidae). PEST MANAGEMENT SCIENCE, 76 (3): (888-893). [PMID:31429178] [10.1002/ps.5593] |
| 7. Weiping Wang, Hualing Zhu, Shumin Cui, Jigen Miao, Jianrong Chen. (2014) Ultrasound-assisted dispersive liquid–liquid microextraction based on solidification of floating organic droplets coupled with gas chromatography for the determination of pesticide residues in water samples. Analytical Methods, 6 (10): (3388-3394). [PMID:] [10.1039/C3AY42331J] |
| 8. Bing Peng, Xiaoling Yang, Jiaheng Zhang, Fengpei Du, Wenfeng Zhou, Haixiang Gao, Runhua Lu. (2013) Comparison of two ultrasound-enhanced microextractions combined with HPLC for determining acaricides in water. JOURNAL OF SEPARATION SCIENCE, 36 (13): (2196-2202). [PMID:23596154] [10.1002/jssc.201300283] |
| 9. Cui Shumin, Chen Qianxia, Wang Weiping, Miao Jigen, Wang Aijun, Chen Jianrong. (2013) Ultra-Preconcentration and Determination of Multiple Pesticide Residues in Water Samples Using Ultrasound-Assisted Dispersive Liquid–Liquid Microextraction and GC-FID. CHROMATOGRAPHIA, 76 (11): (671-678). [PMID:] [10.1007/s10337-013-2441-7] |