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Basic Description
| Synonyms | 2-FUROIC ACID | Furan-2-carboxylic acid | 88-14-2 | 2-Furancarboxylic acid | Pyromucic acid | 2-Carboxyfuran | Furancarboxylic acid | FUROIC ACID | alpha-Furoic acid | 2-furanoic acid | alpha-Furancarboxylic acid | 26447-28-9 | Kyselina 2-furoova | Kyselina pyroslizova | .alpha.-Fur |
|---|---|
| Specifications & Purity | 10mM in DMSO |
| Storage Temp | Store at -80°C |
| Shipped In |
Ice chest + Ice pads This product requires cold chain shipping. Ground and other economy services are not available. |
Taxonomic Classification
Taxonomy Tree
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Kingdom
Organic compounds
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Superclass
Organoheterocyclic compounds
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Class
Furans
- Subclass Furoic acid and derivatives
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Class
Furans
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Superclass
Organoheterocyclic compounds
| Kingdom | Organic compounds |
|---|---|
| Superclass | Organoheterocyclic compounds |
| Class | Furans |
| Subclass | Furoic acid and derivatives |
| Intermediate Tree Nodes | Not available |
| Direct Parent | Furoic acids |
| Alternative Parents | Heteroaromatic compounds Oxacyclic compounds Monocarboxylic acids and derivatives Carboxylic acids Organooxygen compounds Organic oxides Hydrocarbon derivatives |
| Molecular Framework | Aromatic heteromonocyclic compounds |
| Substituents | Furoic acid - Heteroaromatic compound - Oxacycle - Monocarboxylic acid or derivatives - Carboxylic acid - Carboxylic acid derivative - Organic oxygen compound - Organic oxide - Hydrocarbon derivative - Organooxygen compound - Aromatic heteromonocyclic compound |
| Description | This compound belongs to the class of organic compounds known as furoic acids. These are organic compounds containing a furoic acid moiety, with a structure characterized by a furan ring bearing a carboxylic acid group at the C2 or C3 carbon atom. |
| External Descriptors | furoic acid |
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Associated Targets(Human)
HeLa (62764 Activities)
| Activity Type | Relation | Activity value | Units | Action Type | Journal | PubMed Id | doi | Assay Aladdin ID |
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Mechanisms of Action
| Mechanism of Action | Action Type | target ID | Target Name | Target Type | Target Organism | Binding Site Name | References |
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Names and Identifiers
| IUPAC Name | furan-2-carboxylic acid |
|---|---|
| INCHI | InChI=1S/C5H4O3/c6-5(7)4-2-1-3-8-4/h1-3H,(H,6,7) |
| InChIKey | SMNDYUVBFMFKNZ-UHFFFAOYSA-N |
| Smiles | C1=COC(=C1)C(=O)O |
| Isomeric SMILES | C1=COC(=C1)C(=O)O |
| WGK Germany | 3 |
| RTECS | LV1763000 |
| Molecular Weight | 112.08 |
| Beilstein | 110149 |
| Reaxy-Rn | 110149 |
| Reaxys-RN_link_address | https://www.reaxys.com/reaxys/secured/hopinto.do?context=S&query=IDE.XRN=110149&ln= |
Certificates(CoA,COO,BSE/TSE and Analysis Chart)
C of A & Other Certificates(BSE/TSE, COO):
Analytical Chart:
Chemical and Physical Properties
| Flash Point(°F) | 137℃ |
|---|---|
| Flash Point(°C) | 137℃ |
| Boil Point(°C) | 230-232°C |
| Melt Point(°C) | 129-133°C |
| Molecular Weight | 112.080 g/mol |
| XLogP3 | 0.500 |
| Hydrogen Bond Donor Count | 1 |
| Hydrogen Bond Acceptor Count | 3 |
| Rotatable Bond Count | 1 |
| Exact Mass | 112.016 Da |
| Monoisotopic Mass | 112.016 Da |
| Topological Polar Surface Area | 50.400 Ų |
| Heavy Atom Count | 8 |
| Formal Charge | 0 |
| Complexity | 99.800 |
| 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 |
Citations of This Product
| 1. Jingmin Cui, Yan Sun, Linqing Wang, Wenqiang Tan, Zhanyong Guo. (2023) Preparation of chitosan derivatives containing aromatic five-membered heterocycles for efficient antimicrobial and antioxidant activities. INTERNATIONAL JOURNAL OF BIOLOGICAL MACROMOLECULES, 247 (125850). |
| 2. Zhenyu Li, Enhui Du, Panpan Hao, Liyuan Huai, Yang Zhong, Soliman I. El-Hout, Chunlin Chen, Jian Zhang. (2023) Diluted oxygen realizes high productivity of 2,5-Furandicarboxylic acid under ambient temperature. CATALYSIS TODAY, 423 (114277). |
| 3. Xinxin Li, Linchuan Cong, Yupeng Wu, Nan Lin, Fangbing Liu, Deyuan Xin, Fuyu Han, Jin Yang, Weitong Chen, Haibo Lin. (2023) Strategies for controlling gas evolution reactions to boost the divergent paired electrochemical upgrading of furfural in acidic environment. CHEMICAL ENGINEERING JOURNAL, 470 (144093). |
| 4. Liu Yun, Wang Xueke, Hu Mingyang, Yu Yanyan. (2023) Catalytic conversion of 2,5-furandicarboxylic acid production from hemicellulose. Biomass Conversion and Biorefinery, (1-11). |
| 5. Siyuan Chang, Bingfeng Li, Tianyi Chen, Leilei Zhang, Yaru Li, Xuejun He, Sen Zhang, Xin Pan. (2023) Engineering aldehyde dehydrogenase PaALDH70140 from Pseudomonas aeruginosa PC-1 with improved catalytic properties for 5-hydroxymethyl-2-furancarboxylic acid synthesis. BIOCHEMICAL ENGINEERING JOURNAL, 192 (108835). |
| 6. Xin Yu, Huiqiang Wang, Wenlong Jia, Chengfeng Li, Jiahong Chen, Lincai Peng, Yong Sun, Xing Tang, Xianhai Zeng, Shuliang Yang, Zheng Li, Feng Xu, Lu Lin. (2022) Insight into the noble-metal-free NiCoAl catalyst boosting the reductive esterification of furancarboxylic acid to methyl 2-tetrahydrofuroate. FUEL, 329 (125462). |
| 7. Teng Li, Guangyu Sun, Lu Xiong, Boying Zheng, Yaqi Duan, Rui Yu, Jun Jiang, Yantao Wang, Weiran Yang. (2021) Transition-metal-free decarboxylation of D-glucaric acid to furan catalyzed by SnCl4 in a biphasic system. Molecular Catalysis, 516 (111958). |
| 8. Wang Xiangjun, Xinzhong Li, Qi Lin, Jianrong Xia, Hanyu Xue. (2021) A thermoreversible crosslinking hot-melt adhesive: reversibility and performance. RSC Advances, 11 (52): (32565-32572). |
| 9. Tao Yang, Wenzhi Li, Ajibola T. Ogunbiyi. (2021) The effect of Br- and alkali in enhancing the oxidation of furfural to maleic acid with hydrogen peroxide. Molecular Catalysis, 504 (111488). |
| 10. Liu Xiaobo, Zhang Ying, Shang Meijie, Zhu Liping, Yu Min. (2020) The Effects of Furoic Acid and Furfuryl Alcohol on Detection of Furfural in Transformer Oil by High-Performance Liquid Chromatography. CHROMATOGRAPHIA, 83 (8): (927-932). |
| 11. Heng Ban, Youdi Zhang, Shuaibo Chen, Youwei Cheng, Teng Pan, Lijun Wang, Xi Li. (2020) Production of 2,5-Furandicarboxylic Acid by Optimization of Oxidation of 5-Methyl Furfural over Homogeneous Co/Mn/Br Catalysts. ACS Sustainable Chemistry & Engineering, 8 (21): (8011–8023). |
| 12. Shuaipeng Wang, Yonggang Wu, Jinyue Dai, Na Teng, Yunyan Peng, Lijun Cao, Xiaoqing Liu. (2020) Making organic coatings greener: Renewable resource, solvent-free synthesis, UV curing and repairability. EUROPEAN POLYMER JOURNAL, 123 (109439). |
| 13. Xu Qianqian, Zheng Zhaojuan, Zou Lihua, Zhang Chen, Yang Fen, Zhou Kaijie, Ouyang Jia. (2020) A versatile Pseudomonas putida KT2440 with new ability: selective oxidation of 5-hydroxymethylfurfural to 5-hydroxymethyl-2-furancarboxylic acid. BIOPROCESS AND BIOSYSTEMS ENGINEERING, 43 (1): (67-73). |
| 14. Wei He, Guiqin Zhu, Yuan Gao, Hao Wu, Zheng Fang, Kai Guo. (2020) Green plasticizers derived from epoxidized soybean oil for poly (vinyl chloride): Continuous synthesis and evaluation in PVC films. CHEMICAL ENGINEERING JOURNAL, 380 (122532). |
| 15. Yong Ni, Zhihao Bi, Hui Su, Lifeng Yan. (2019) Deep eutectic solvent (DES) as both solvent and catalyst for oxidation of furfural to maleic acid and fumaric acid. GREEN CHEMISTRY, 21 (5): (1075-1079). |
| 16. Xian Zhang, Miaomiao Han, Guoqiang Liu, Guozhong Wang, Yunxia Zhang, Haimin Zhang, Huijun Zhao. (2019) Simultaneously high-rate furfural hydrogenation and oxidation upgrading on nanostructured transition metal phosphides through electrocatalytic conversion at ambient conditions. APPLIED CATALYSIS B-ENVIRONMENTAL, 244 (899). |
| 17. Yaotai Jiang, Xiaobang Liu, Dongshun Deng. (2018) Absorption of SO2 in Furoate Ionic Liquids/PEG200 Mixtures and Thermodynamic Analysis. JOURNAL OF CHEMICAL AND ENGINEERING DATA, 63 (2): (259–268). |
| 18. Dongshun Deng, Yaotai Jiang, Xiaobang Liu. (2017) Investigation of furoate-based ionic liquid as efficient SO2 absorbent. NEW JOURNAL OF CHEMISTRY, 41 (5): (2090-2097). |
| 19. Huan Ren, Min-Hua Zong, Hong Wu, Ning Li. (2016) Efficient Pretreatment of Wheat Straw Using Novel Renewable Cholinium Ionic Liquids To Improve Enzymatic Saccharification. INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH, 55 (6): (1788–1795). |
| 20. Yuhong Guo, Qiuxiang Yin, Hongxun Hao, Meijing Zhang, Ying Bao, Baohong Hou, Wei Chen, Hui Zhang, Wenjie Cong. (2014) Measurement and Correlation of Solubility and Dissolution Thermodynamic Properties of Furan-2-carboxylic Acid in Pure and Binary Solvents. JOURNAL OF CHEMICAL AND ENGINEERING DATA, 59 (4): (1326–1333). |
| 21. Haiyan Ji, Zhaowen Wu, Tong Li, Guidong Ju, Huaming Li, Yong Wang, Hui Xu, Junfeng Liu. (2025) Bipolar hydrogen generation via furfural-water co-electrolysis over bifunctional CuPt catalysts. INTERNATIONAL JOURNAL OF HYDROGEN ENERGY, 102 (856). |
| 22. Jia Cheng, Zhiwei Zeng, Xun Huang, Zidong Wei. (2025) Electrooxidation of furfural on an electrodeposited NiMoP electrode to simultaneously produce hydrogen and 2-furancarboxylic acid at industrial current levels. JOURNAL OF POWER SOURCES, 628 (235919). |
| 23. Peiyao Liu, Zhengzeng Yang, Mengyuan Zhang, Yufeng Liu, Dandan Han, Dan Wu, Charles Chunbao Xu, Jianshe Wang. (2024) Enhanced Carboxylation of Furoic Salt with CO2 by ZnCl2 Coordination for Efficient Production of 2,5-Furandicarboxylic Acid. DALTON TRANSACTIONS, |
| 24. Qingqing Pang, Kaihang Sun, Xizheng Fan, Kun Xiang, Baojun Li, Shufang Zhao, Young Dok Kim, Qiaoyun Liu, Zhongyi Liu, Zhikun Peng. (2024) Enhancement effect from ReS2/Co9S8 heterostructure evolution for the highly effective furfural oxidation coupling with hydrogen production. CHEMICAL ENGINEERING JOURNAL, 497 (154475). |
| 25. Ze-Cheng Yao, Jing Chai, Tang Tang, Liang Ding, Zhe Jiang, Jiaju Fu, Xiaoxia Chang, Bingjun Xu, Liang Zhang, Jin-Song Hu, Li-Jun Wan. (2025) Manipulating hydrogenation pathways enables economically viable electrocatalytic aldehyde-to-alcohol valorization. PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA, 122 (8): (e2423542122). |
| 26. Ruiqi Fang, Jie Kang, Fengliang Wang, Xin Zhao, Yingwei Li. (2025) One-Pot Synthesis of Valeric Biofuels via Esterification–Hydrogenolysis. ACS Catalysis, 15 (6): (4403-4414). |
| 27. Shuai Sun, Ruiyu Zhang, Wenxun Sun, Yifei Ding, Linghui Meng, Yongping Bai. (2024) Terminal modified polyesters with improved tensile properties based on plasticization and π-π stacking effects. POLYMER, 298 (126934). |
| 28. Shiling Zhao, Kaizhi Wang, Shaoqi Mao, Beibei Yang, Yu Zhao. (2025) Toward Maximizing the Ag–CeO2 Interface and Rich Oxygen Vacancies for Efficient Photocatalytic Oxidation of 5-Hydroxymethylfurfural. ACS Sustainable Chemistry & Engineering, |
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