Determine the necessary mass, volume, or concentration for preparing a solution.
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100μg/mL in Methanol 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 12 peer-reviewed publications across chromatography, organic synthesis, and cross-coupling reactions.
This standard substance is mainly used for measuring instrument calibration, analysis 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 for value traceability or as a standard stock solution. Dilute and prepare various standard solutions for work.
Sample Preparation
This standard material is made of pure diniconazole with accurate purity as the raw material, HPLC grade methanol as the solvent, and accurately prepared by the weight-volume method.
Traceability and valuation method
This standard material uses the prepared value as the standard value, and uses HPLC-MS to compare the batch of standard materials and quality control control samples 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) |
BWY272963 | Diniconazole in Methanol | 100 | 3 |
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 Standard Material Values], the samples after subpackage are randomly sampled, the solution concentration is tested for uniformity and stability. 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 the value changes 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, please refer to the pipette volume when pipetting or diluting.
2. Transportation and storage: ice bag transportation, avoid squeezing and collision during transportation; store under refrigerated and dark conditions.
3. Use: Before unsealing, equilibrate at room temperature (20±3)℃ 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.
| Canonical Smiles | CC(C)(C)C(C(=CC1=C(C=C(C=C1)Cl)Cl)N2C=NC=N2)O |
|---|---|
| IUPAC Name | (E)-1-(2,4-dichlorophenyl)-4,4-dimethyl-2-(1,2,4-triazol-1-yl)pent-1-en-3-ol |
| InChIKey | FBOUIAKEJMZPQG-AWNIVKPZSA-N |
| INCHI | 1S/C15H17Cl2N3O/c1-15(2,3)14(21)13(20-9-18-8-19-20)6-10-4-5-11(16)7-12(10)17/h4-9,14,21H,1-3H3/b13-6+ |
| Isomeric SMILES | CC(C)(C)C(/C(=C\C1=C(C=C(C=C1)Cl)Cl)/N2C=NC=N2)O |
| Molecular Weight | 326.22 |
| Beilstein | 9202976 |
| Reaxy-Rn | 8265704 |
| Reaxys-RN_link_address | https://www.reaxys.com/reaxys/secured/hopinto.do?context=S&query=IDE.XRN=8265704&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 | Phenylpropanoids and polyketides |
| Class | Cinnamyl alcohols |
| Subclass | Not available |
| Intermediate Tree Nodes | Not available |
| Direct Parent | Cinnamyl alcohols |
| Alternative Parents | Dichlorobenzenes Aryl chlorides Triazoles Heteroaromatic compounds Secondary alcohols Azacyclic compounds Organopnictogen compounds Organonitrogen compounds Organochlorides Hydrocarbon derivatives |
| Molecular Framework | Aromatic heteromonocyclic compounds |
| Substituents | Cinnamyl alcohol - 1,3-dichlorobenzene - Chlorobenzene - Halobenzene - Aryl chloride - Aryl halide - Monocyclic benzene moiety - Benzenoid - Azole - Heteroaromatic compound - 1,2,4-triazole - Secondary alcohol - Azacycle - Organoheterocyclic compound - Organonitrogen compound - Organooxygen compound - Alcohol - Hydrocarbon derivative - Organopnictogen compound - Organic oxygen compound - Organic nitrogen compound - Organohalogen compound - Organochloride - Aromatic heteromonocyclic compound |
| Description | This compound belongs to the class of organic compounds known as cinnamyl alcohols. These are aromatic alcohols containing a 3-phenylprop-2-en-1-ol moiety. |
| External Descriptors | Conazole fungicides |
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Find and download the COA for your product by matching the lot number on the packaging.
| Lot Number | Certificate Type | Date | Item |
|---|---|---|---|
| Certificate of Analysis | Jun 24, 2026 | BWY272963 |
| Melt Point(°C) | 134-156°C |
|---|---|
| Molecular Weight | 326.200 g/mol |
| XLogP3 | 4.200 |
| Hydrogen Bond Donor Count | 1 |
| Hydrogen Bond Acceptor Count | 3 |
| Rotatable Bond Count | 4 |
| Exact Mass | 325.075 Da |
| Monoisotopic Mass | 325.075 Da |
| Topological Polar Surface Area | 50.900 Ų |
| Heavy Atom Count | 21 |
| Formal Charge | 0 |
| Complexity | 384.000 |
| Isotope Atom Count | 0 |
| Defined Atom Stereocenter Count | 0 |
| Undefined Atom Stereocenter Count | 1 |
| Defined Bond Stereocenter Count | 1 |
| Undefined Bond Stereocenter Count | 0 |
| The total count of all stereochemical bonds | 1 |
| Covalently-Bonded Unit Count | 1 |
| 1. Xiaoyu Yang. (2023) Simultaneous Enantioseparation of Three Chiral Antifungal Pesticides by Hydroxypropyl-γ-CD-Modified Micellar Electrokinetic Chromatography. Journal of Analytical Methods in Chemistry, [PMID:37849914] [10.1155/2023/9993526] |
| 2. Ruiyu Fu, Tingze Ren, Yanhui Zhang, Qingxin Lu, Xiaoli Guo, Xin Di. (2023) Hexafluoroisopropanol-based supramolecular solvent for liquid phase microextraction of triazole fungicides in drinking water and beverages. MICROCHEMICAL JOURNAL, [PMID:] [10.1016/j.microc.2023.108842] |
| 3. Yang Liu, Liqiang Liu, Xinxin Xu, Chuanlai Xu, Liguang Xu. (2023) Gold nanoparticle-based lateral flow immunoassay for the rapid detection of flutriafol residues in food. Materials Chemistry Frontiers, 7 (5): (955-963). [PMID:] [10.1039/D2QM01231F] |
| 4. Wenhui Li, Ying Gu, Zikun Liu, Rimao Hua, Xiangwei Wu, Jiaying Xue. (2022) Development of a polyurethane-coated thin film solid phase microextraction device for multi-residue monitoring of pesticides in fruit and tea beverages. JOURNAL OF SEPARATION SCIENCE, 46 (2): (2200661). [PMID:36373185] [10.1002/jssc.202200661] |
| 5. Min Sun, Haili Sun, Juanjuan Feng, Jiaqing Feng, Jing Fan, Mingxia Sun, Yang Feng. (2022) Carbonized metal-organic framework-74/carbon aerogel composites for the efficient extraction of triazole fungicides from fruits and vegetables. JOURNAL OF CHROMATOGRAPHY A, [PMID:36219967] [10.1016/j.chroma.2022.463552] |
| 6. Haili Sun, Juanjuan Feng, Jiaqing Feng, Mingxia Sun, Yang Feng, Min Sun. (2022) Carbon aerogels derived from waste paper for pipette-tip solid-phase extraction of triazole fungicides in tomato, apple and pear. FOOD CHEMISTRY, [PMID:35816989] [10.1016/j.foodchem.2022.133633] |
| 7. Liu Yang, Xu Xinxin, Liu Liqiang, Xu Liguang, Kuang Hua, Xu Chuanlai. (2022) Gold-based lateral-flow strip for the detection of penconazole in watermelon and cucumber samples. Food Quality and Safety, [PMID:] [10.1093/fqsafe/fyac007] |
| 8. Jian Zhu, Shuang Zhang, Guo-jun Weng, Jian-jun Li, Jun-wu Zhao. (2021) Spiky yolk-shell AuAg bimetallic nanorods with uniform interior gap for the SERS detection of thiram residues in fruit juice. SPECTROCHIMICA ACTA PART A-MOLECULAR AND BIOMOLECULAR SPECTROSCOPY, [PMID:34198118] [10.1016/j.saa.2021.120108] |
| 9. Suling Zhang, Ziluo Hua, Hongting Zhao, Weixuan Yao, Yuanzhao Wu, Defeng Fu, Jiancong Sun. (2021) Defective Zr-based metal–organic frameworks as sorbent for the determination of fungicides in environmental water samples by rapid dispersive micro-solid-phase extraction coupled to liquid chromatography/mass spectrometry. JOURNAL OF SEPARATION SCIENCE, 44 (10): (2113-2120). [PMID:33721403] [10.1002/jssc.202001240] |
| 10. Weixuan Yao, Zhefeng Fan, Suling Zhang. (2019) Preparation of metal-organic framework UiO-66-incorporated polymer monolith for the extraction of trace levels of fungicides in environmental water and soil samples. JOURNAL OF SEPARATION SCIENCE, 42 (16): (2679-2686). [PMID:31177628] [10.1002/jssc.201900168] |
| 11. Xiao-jing Mao, Jing Li, Dan Liu, Ting Qiao, Liyun Ma, Xiao Sun, Li Xu, Zhi-guo Shi. (2017) Flow-through silica: A potential matrix for fast chromatographic enantioseparation with high enantioselectivity. TALANTA, [PMID:29136866] [10.1016/j.talanta.2017.09.093] |
| 12. Shuaihua Zhang, Qian Yang, Wenchang Wang, Chun Wang, Zhi Wang. (2016) Covalent Bonding of Metal–Organic Framework-5/Graphene Oxide Hybrid Composite to Stainless Steel Fiber for Solid-Phase Microextraction of Triazole Fungicides from Fruit and Vegetable Samples. JOURNAL OF AGRICULTURAL AND FOOD CHEMISTRY, [PMID:26998567] [10.1021/acs.jafc.5b05831] |