1,3-Dioxlane - ≥99%, contains ~75 ppm BHT as inhibitor , CAS No.646-06-0

CAS: 646-06-0 Cat. No.: D105895 Peso molecular: 74.08 Beilstein Registry Number: 19,2 Número EC: 211-463-5
Disponible para pedir
GRADE & PURITY ≥99% contains ~75 ppm BHT as inhibitor
Synonyms
1,3-DIOXOLANE|646-06-0|DIOXOLANE|Glycolformal|Formal glycol|1,3-Dioxolan|1,3-Dioxacyclopentane|Ethylene glycol formal|1,3-dioxalane|1,3-Dioxolane, Stabilized|Glycol methylene ether|1,3-Dioxole, dihydro-|1,3-Dioxolane (stabilized with BHT)|Y57RBG19JL|DTXSI
Storage
Room temperature,Argon charged
Shipped In
FedEx DG Service
 ·  off list, applied to all prices below.
Size
Estado
Price
Qty
100ml
D105895-100ml
3

16,90US$

17,90US$
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500ml
D105895-500ml
3

25,90US$

29,90US$
Guardar 4,00 US$ (13.38%)
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Why this grade

≥99%, contains ~75 ppm BHT as inhibitor for sensitive chromatographic and analytical workflows requiring minimal baseline interference.

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Storage & shipping

Room temperature,Argon charged Ships FedEx DG Service Check lot-specific COA for exact specifications.

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Quality documents

SDS, COA, datasheet, and spec sheet available for download. Lot-specific COA accessible via lot number lookup.

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Literature proof

Cited in 101 peer-reviewed publications across chromatography, organic synthesis, and cross-coupling reactions.

Specifications

Sinónimos
1, 3-DIOXOLANE | 646-06-0 | DIOXOLANE | Glycolformal | Formal glycol | 1, 3-Dioxolan | 1, 3-Dioxacyclopentane | Ethylene glycol formal | 1, 3-dioxalane | 1, 3-Dioxolane, Stabilized | Glycol methylene ether | 1, 3-Dioxole, dihydro- | 1, 3-Dioxolane (stabilized with BHT) | Y57RBG19JL | DTXSI
Especificaciones y pureza
≥99%, contains ~75 ppm BHT as inhibitor
Condiciones de almacenamiento de almacenamiento
Room temperature, Argon charged
Enviado en
FedEx DG Service
Este producto requiere envío en cadena de frío. Los servicios terrestres y otros servicios económicos no están disponibles.
Pureza
≥99%
Nombres e identificadores
Sonrisas canónicasC1COCO1
IUPAC Name1,3-dioxolane
InChIKeyWNXJIVFYUVYPPR-UHFFFAOYSA-N
INCHI1S/C3H6O2/c1-2-5-3-4-1/h1-3H2
Isómeros SMILES C1COCO1
WGK Alemania 1
Número ONU 1166
Grupo de embalaje II
Peso molecular 74.08
Beilstein 19,2
Reaxy-Rn 102453
Reaxys-RN_link_address https://www.reaxys.com/reaxys/secured/hopinto.do?context=S&query=IDE.XRN=102453&ln=

Documentation

📋 Safety Data Sheet (SDS)

Comprehensive hazard, handling, storage, and regulatory compliance document.

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✅ Certificate of Analysis (COA)

Lot-specific quality data. Enter your lot number to retrieve the exact COA.

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📊 Datasheet

Quick-reference summary of product specifications and applications.

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🔬 Specification Sheet

Full quality attributes and acceptance criteria for this grade.

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Advanced Data

Taxonomic Classification

Taxonomy Tree

KingdomOrganic compounds
SuperclassOrganoheterocyclic compounds
ClaseDioxolanes
Subclass1,3-dioxolanes
Intermediate Tree Nodes Not available
Direct Parent1,3-dioxolanes
Alternative Parents Oxacyclic compounds  Acetals  Hydrocarbon derivatives  
Molecular FrameworkAliphatic heteromonocyclic compounds
Substituents Meta-dioxolane - Oxacycle - Acetal - Organic oxygen compound - Hydrocarbon derivative - Organooxygen compound - Aliphatic heteromonocyclic compound
DescripciónThis compound belongs to the class of organic compounds known as 1,3-dioxolanes. These are organic compounds containing 1,3-dioxolane, an aliphatic five-member ring with two oxygen atoms in ring positions 1 and 3.
External Descriptors dioxolane - cyclic acetal
Estructura 3D
Modelo de Estructura Química Interactiva





Mecanismos de acción
Certificados (CoA, COO, BSE/TSE y tabla de análisis)
C of A & Other Certificates(BSE/TSE, COO):
Analytical Chart:

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35 results found

Lot NumberCertificate TypeFechaArticulo
H2212256Certificate of AnalysisFeb 04, 2026 D105895
H2212255Certificate of AnalysisFeb 04, 2026 D105895
L2503150Certificate of AnalysisDec 15, 2025 D105895
J2531220Certificate of AnalysisNov 10, 2025 D105895
B2207094Certificate of AnalysisAug 07, 2025 D105895
B2207095Certificate of AnalysisAug 07, 2025 D105895
H2506085Certificate of AnalysisJun 28, 2024 D105895
F2424144Certificate of AnalysisJun 28, 2024 D105895
I2516019Certificate of AnalysisJun 28, 2024 D105895
K2421077Certificate of AnalysisJun 28, 2024 D105895
D2415028Certificate of AnalysisApr 19, 2024 D105895
A2412294Certificate of AnalysisJan 18, 2024 D105895
A2408493Certificate of AnalysisJan 09, 2024 D105895
A2408492Certificate of AnalysisJan 09, 2024 D105895
B2207091Certificate of AnalysisNov 03, 2023 D105895
L2108323Certificate of AnalysisSep 20, 2023 D105895
L2108331Certificate of AnalysisSep 20, 2023 D105895
I2314218Certificate of AnalysisSep 16, 2023 D105895
I2314217Certificate of AnalysisSep 16, 2023 D105895
K2123468Certificate of AnalysisAug 18, 2023 D105895
G2325304Certificate of AnalysisJul 29, 2023 D105895
G2325307Certificate of AnalysisJul 29, 2023 D105895
E2331374Certificate of AnalysisJun 06, 2023 D105895
E2331373Certificate of AnalysisJun 05, 2023 D105895
H2103068Certificate of AnalysisMay 10, 2023 D105895
K1722070Certificate of AnalysisMay 08, 2023 D105895
B2313271Certificate of AnalysisFeb 16, 2023 D105895
D2115125Certificate of AnalysisJan 13, 2023 D105895
A2309311Certificate of AnalysisJan 11, 2023 D105895
A2309292Certificate of AnalysisJan 11, 2023 D105895
A2309327Certificate of AnalysisJan 10, 2023 D105895
B2207093Certificate of AnalysisAug 16, 2022 D105895
B2207092Certificate of AnalysisFeb 09, 2022 D105895
H2212257Certificate of AnalysisDec 18, 2021 D105895
L2108329Certificate of AnalysisDec 18, 2021 D105895

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Propiedades químicas y físicas
Índice de refracción1.399-1.401
Punto de inflamación (°F)26.6 °F
Punto de inflamación (°C)-6℃
Punto de ebullición (°C)75°C
Punto de fusión (°C)-95°C
Peso molecular74.080 g/mol
XLogP3-0.400
Hydrogen Bond Donor Count0
Hydrogen Bond Acceptor Count2
Rotatable Bond Count0
Exact Mass74.0368 Da
Monoisotopic Mass74.0368 Da
Topological Polar Surface Area18.500 Ų
Heavy Atom Count5
Formal Charge0
Complexity24.100
Isotope Atom Count0
Defined Atom Stereocenter Count0
Undefined Atom Stereocenter Count0
Defined Bond Stereocenter Count0
Undefined Bond Stereocenter Count0
The total count of all stereochemical bonds0
Covalently-Bonded Unit Count1
Preguntas frecuentes y artículos
Citations of This Product
Referencias
1. Zeliang Guan, Ling Bai, Binyang Du.  (2023)  An Ionic Liquid Electrolyte Additive for High-Performance Lithium–Sulfur Batteries.  Materials,  16  (23): (7504).  [PMID:38068248] [10.3390/ma16237504]
2. Yangyang Mao, Tianle Li, Siddig Abuelgasim, Xiaoqian Hao, Yupeng Xiao, Chongyang Li, Wenju Wang, Yuqian Li, Encai Bao.  (2023)  Systematic insight of the behavior of LiNO3 additive in LiS batteries with gradient S loading.  Journal of Energy Storage,      [PMID:] [10.1016/j.est.2023.110215]
3. Liping Zhao, Ye Zhao, Lihe Zhao, Gang Liu.  (2023)  Preparation of an N–S dual-doped black fungus porous carbon matrix and its application in high-performance Li–S batteries.  Frontiers in Chemistry,      [PMID:38179239] [10.3389/fchem.2023.1288013]
4. Pierre Dramou, Yiyang Sun, Xu Ni, Fangqi Wang, Hua He.  (2023)  In-depth descriptive investigation of composite sorbent based self-assembled magnetic halloysite nanotube-graphene oxide: Actual use case study for rutin.  APPLIED CLAY SCIENCE,      [PMID:] [10.1016/j.clay.2023.107193]
5. Xiao-Fang Lv, Xing-Ya Ni, Jing Guo, Jiang-Jiang Zhang, Yan-Yun Xiao, Yang Liu, Chuan-Shuo Wang, Shi-Dong Zhou, Shang-Fei Song.  (2023)  Kinetic characterization of gas mixture separation by hydrate method with 1,3-dioxolane and multi-walled carbon nanotubes complex synergistic system.  CHEMICAL ENGINEERING JOURNAL,      [PMID:] [10.1016/j.cej.2023.146288]
6. Xing-Ya Ni, Xiao-Fang Lv, Rong-Qiang Zhong, Yang Liu, Chuan-Shuo Wang, Qian-Li Ma, Yan-Yun Xiao, Shi-Dong Zhou, Shang-Fei Song.  (2023)  Effect of 1,3-Dioxolane on Gas Separation Kinetics via Gas Hydrates.  INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH,      [PMID:] [10.1021/acs.iecr.3c02034]
7. Jie Zhang, Wenhao Ren, Shuhui Chen, Yong Liu, Zibiao Guo, Jingchuan Dang, Wenjia Wu, Jingtao Wang.  (2023)  The Fabrication of in Situ Polymerization of 1,3-Dioxlane/Poly(vinyl alcohol)/Polyethylenimine Quasi-Solid Polymer Electrolyte for a Lithium Metal Battery Operated at Low Temperatures.  ENERGY & FUELS,      [PMID:] [10.1021/acs.energyfuels.3c02142]
8. Zhengpeng Song, Haotong Li, Fei Zheng, Husitu Lin, Jing Liu, Wei Liu, Guohua Sun, Xia Tao.  (2023)  In Situ Gelation of a 1,3-Dioxolane Dual-Permeable Porous Tandem Framework with Excellent Interfacial Stability to Power Long-Cycling Solid-State Lithium Metal Batteries.  ACS Applied Materials & Interfaces,      [PMID:37434413] [10.1021/acsami.3c06511]
9. Dongyun Wang, Biyu Jin, Jiao Huang, Xinyu Yao, Yongyuan Ren, Xiao Xu, Xiao Han, Fanqun Li, Xiaoli Zhan, Qinghua Zhang.  (2023)  Laponite-Supported Gel Polymer Electrolyte with Multiple Lithium-Ion Transport Channels for Stable Lithium Metal Batteries.  ACS Applied Materials & Interfaces,      [PMID:37365916] [10.1021/acsami.3c04309]
10. Jingjing Hou, Lu Han, Shuzheng Sun, Mingkai Li, Junbo Yue, Yanqin Yang, Jingde Li.  (2023)  Single-walled carbon nanotubes film supported lithiated PIM-1 ultrathin selective barrier: A multifunctional layer for polypropylene separator to boost performance of Li-S batteries.  POLYMER,      [PMID:] [10.1016/j.polymer.2023.126137]
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12. Yajun Lu, Feng Ma, Jiayao Mao, Haoran Zhang, Jiaxin Wang, Xingtao Liu, Xiaohui Ren, Rongsheng Chen.  (2023)  Nickel-iron layered double hydroxide modified by NiS2/FeS2 with regulated electronic structure as a high-performance catalyst for oxygen evolution reaction.  JOURNAL OF ALLOYS AND COMPOUNDS,      [PMID:] [10.1016/j.jallcom.2023.170842]
13. Lu Han, Yanqin Yang, Shuzheng Sun, Junbo Yue, Jingde Li.  (2023)  Polydopamine-Assisted In Situ Formation of a Covalent Organic Framework on Single-Walled Carbon Nanotubes to Multifunctionalize Separators for Advanced Lithium–Sulfur Batteries.  ACS Sustainable Chemistry & Engineering,      [PMID:] [10.1021/acssuschemeng.2c07568]
14. Ke Yang, Chan Li, Haoyuan Qi, Yunfei Dai, Yuhong Cui, Yibo He.  (2023)  Developing a MXene quantum dot-based separator for Li–S batteries.  Journal of Materials Chemistry A,  11  (19): (10425-10434).  [PMID:] [10.1039/D3TA01082A]
15. Shuai Dai, Chang Sun, Yuhe Zhang, Lingzhi Zeng, Yiqiong Peng, Liyuan Zhou, Yanlong Wang, Jian Jiang, Chang Ming Li.  (2023)  Carbon microspheres built of La2O3 quantum dots-implanted nanorods: Superb hosts with ultra-long Li2Sn-catalysis durability.  JOURNAL OF COLLOID AND INTERFACE SCIENCE,      [PMID:36867928] [10.1016/j.jcis.2023.02.127]
16. Ke Tan, Zhaolin Tan, Sen Liu, Guoqiang Zhao, Yang Liu, Linrui Hou, Changzhou Yuan.  (2023)  Synergistic design of core–shell V3S4@C hosts and homogeneous catalysts promoting polysulfide chemisorption and conversion for Li–S batteries.  Journal of Materials Chemistry A,  11  (5): (2233-2245).  [PMID:] [10.1039/D2TA09373A]
17. Xiangxiang Fu, Huanhuan Duan, Shiwei Zhang, Ran Bi, Yuanfu Deng, Guohua Chen.  (2022)  Hexachloro-1,3-butadiene as a Functional Additive for Constructing an Efficient Solid Electrolyte Interface Layer for Long-Life Stable Li Anodes.  ACS Applied Materials & Interfaces,      [PMID:36472852] [10.1021/acsami.2c18783]
18. Lu Han, Shuzheng Sun, Yanqin Yang, Junbo Yue, Jingde Li.  (2022)  An ultrathin double-layer covalent organic framework/zwitterionic microporous polymer functional separator for high-performance lithium-sulfur battery.  APPLIED SURFACE SCIENCE,      [PMID:] [10.1016/j.apsusc.2022.155496]
19. Shuzheng Sun, Lu Han, Jingjing Hou, Yanqin Yang, Junbo Yue, Guoxian Gu, Chong Yang Chuah, Jingde Li, Zisheng Zhang.  (2022)  Single-walled carbon nanotube gutter layer supported ultrathin zwitterionic microporous polymer membrane for high-performance lithium-sulfur battery.  JOURNAL OF COLLOID AND INTERFACE SCIENCE,      [PMID:35970127] [10.1016/j.jcis.2022.08.025]
20. Zhengmin Zhang, Jiangyang Mo, Peng Yu, Lanxiang Feng, Yu Wang, Yuyuan Lu, Wei Yang.  (2022)  High-Performance Flexible Sulfur Cathodes with Robust Electrode Skeletons Built by a Hierarchical Self-Assembling Slurry.  Advanced Science,  (26): (2201881).  [PMID:35853244] [10.1002/advs.202201881]
21. Chen Dongli, Zhu Ming, Zhan Wenwei, Long Lei, Yu Lu, Zhu Tao, Kang Peibin, Yang Xiaoping, Sui Gang.  (2022)  Fe, N co-doped mesoporous carbon spheres as barrier layer absorbing and reutilizing polysulfides for high-performance Li–S batteries.  JOURNAL OF MATERIALS SCIENCE,  57  (28): (13527-13540).  [PMID:] [10.1007/s10853-022-07477-1]
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24. Yu Pengcheng, Ye Yu, Zhu Jinlong, Xia Wei, Zhao Yusheng.  (2021)  Optimized Interfaces in Anti-Perovskite Electrolyte-Based Solid-State Lithium Metal Batteries for Enhanced Performance.  Frontiers in Chemistry,      [PMID:35004611] [10.3389/fchem.2021.786956]
25. Shuzheng Sun, Congcong Li, Mingkai Li, Guoxian Gu, Yanqin Yang, jingde Li, Zisheng Zhang.  (2021)  Zwitterionic microporous polymer with selective ion transport for durable lithium-sulfur batteries.  POLYMER,      [PMID:] [10.1016/j.polymer.2021.124439]
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