基本描述

规格或纯度	UltraBio™, ≥99%(RT)
英文名称	Oxalic acid dihydrate
储存温度	室温
运输条件	常规运输
纯度	≥99%(RT)

产品属性

pH	~1.0 (25 °C, 1 M in H 2 O)

名称和识别符

EC号	205-634-3
IIUPAC Name	oxalic acid;dihydrate
INCHI	1S/C2H2O4.2H2O/c3-1(4)2(5)6;;/h(H,3,4)(H,5,6);2*1H2
InChi Key	GEVPUGOOGXGPIO-UHFFFAOYSA-N
Smiles	C(=O)(C(=O)O)O.O.O
Isomeric SMILES	C(=O)(C(=O)O)O.O.O
分子量	126.07
Beilstein号	3679436
Reaxy-Rn	3679436
Reaxys-RN link address	https://www.reaxys.com/reaxys/secured/hopinto.do?context=S&query=IDE.XRN=3679436&ln=

化学和物理性质

溶解性	H 2 O: 1 M at 20 °C, clear, colorless
折光率	1.4556
沸点	86.9°C
熔点	101-102°C
分子量	126.070 g/mol
XLogP3
氢键供体数Hydrogen Bond Donor Count	4
氢键受体数Hydrogen Bond Acceptor Count	6
可旋转键计数Rotatable Bond Count	1
精确质量Exact Mass	126.016 Da
单同位素质量Monoisotopic Mass	126.016 Da
拓扑极表面积Topological Polar Surface Area	76.600 Å²
重原子数Heavy Atom Count	8
形式电荷Formal Charge	0
复杂度Complexity	71.500
同位素原子数Isotope Atom Count	0
定义的原子立体中心计数Defined Atom Stereocenter Count	0
未定义的原子立体中心计数Undefined Atom Stereocenter Count	0
定义的键立体中心计数Defined Bond Stereocenter Count	0
未定义的键立体中心计数Undefined Bond Stereocenter Count	0
所有立体化学键的总数The total count of all stereochemical bonds	0
共价键合单元计数Covalently-Bonded Unit Count	3

安全和危险性（GHS）

象形图	GHS05, GHS07, GHS08
信号词	危险
危险声明	H302: 吞食有害 H312: 皮肤接触有害 H315: 引起皮肤刺激 H318: 造成严重的眼睛损伤 H373: 通过长时间或反复暴露对器官造成损害
预防措施声明	P260: 不要吸入灰尘/烟雾/气体/雾/蒸汽/喷雾。 P264: 处理后要彻底洗手。 P270: 使用本产品时，请勿进食、饮水或吸烟。 P280: 戴防护手套/穿防护服/戴防护眼罩/戴防护面具。 P321: 特殊处理（请参阅此标签上的...）。 P330: 漱口 P302+P352: 如皮肤沾染：用水充分清洗。 P362+P364: 脱掉沾污的衣服，清洗后方可重新使用。 P501: 将内容物/容器处理到。。。 P264+P265: 处理后彻底洗手[和…]。不要触摸眼睛。 P301+P317: 如果被吞咽：请寻求医疗帮助。 P305+P354+P338: 如果进入眼睛：立即用水冲洗几分钟。取下隐形眼镜（如果有的话），并且操作简单。继续冲洗。 P317: 寻求紧急医疗救助。 P332+P317: 如果出现皮肤刺激：请寻求医疗帮助。 P319: 如果你感到不适，请寻求医疗帮助。
WGK Germany	1
个人防护装备	dust mask type N95 (US),Eyeshields,Gloves

质检证书（CoA,COO,BSE/TSE 和分析图谱)

C of A & Other Certificates(BSE/TSE, COO):

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此产品的引用文献

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引用文献

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2. Zhi Luo, Jing Li, Shenglan Hu, Lingling Zheng, Lixin Xu, Biyang Deng. (2025) Anodic self-enhanced Ru@Zn-MOF and double quencher MnO2@AuNPs for the detection of SCCA. MICROCHEMICAL JOURNAL, 209 (112693). [10.1016/j.microc.2025.112693]
3. Bo Zhang, Jian Qiang Liu, Dian Yuan Wang, Feng Hui An, Liang Xu. (2024) Boosted near-infrared shielding properties of cesium-tungsten bronze based on solid state reaction with optimized precursor. JOURNAL OF PHYSICS D-APPLIED PHYSICS, 57 (14): (145501). [10.1088/1361-6463/ad17a2]
4. Geng Gao, Jian Tang, Shaoze Zhang, Bo Jin, Yajie Yuan, Yixing Zeng, Yanqiu Xu, Qing Zhao, Keyu Zhang, Junxian Hu, Yin Li, Yaochun Yao. (2025) Eliminating water molecules through tailored crystal orientation to enhance the lithium storage capacity of iron oxalate. Journal of Materials Chemistry A, 13 (8): (5638-5648). [10.1039/D4TA06032F]
5. Ziqiang Zhang, Tiancheng Liu, Fengquan She, Yulong Jiao, Yuanming Wang, Guohui Yuan. (2025) Engineering low-cost multifunctional carbon interface layer with hydrophobic negative surface and oriented zinc deposition dynamics for dendrite-free zinc ion batteries. JOURNAL OF COLLOID AND INTERFACE SCIENCE, 690 (137338). [PMID:40101626] [10.1016/j.jcis.2025.137338]
6. Shan Zhiqiang, Jia Xiaohua, Yang Jin, Wang Zhaofeng, Song Haojie. (2025) High strength, toughness, and wear-resistant photothermal management films assembled from nanocellulose, MXene sediments, and polyvinyl alcohol. CELLULOSE, (1-17). [10.1007/s10570-025-06395-0]
7. Jie Wang, Chaowu Wang, Qibo Zhang. (2025) Highly Efficient Recovery of Cobalt-Ion Containing Waste Deep Eutectic Electrolytes: A Sustainable Solvent Extraction Approach. ChemSusChem, (e202402422). [PMID:39875756] [10.1002/cssc.202402422]
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9. Qian Xie, Chengjie Lu, Chengjie Yi, Tao Shui, Nosipho Moloto, Jiacheng Liu, Song-Zhu Kure-Chu, Takehiko Hihara, Wei Zhang, ZhengMing Sun. (2024) Interfacial integration of ultra-thin flexible electrochemical capacitors via vacuum filtration based on gelatinized fibrous membranes. Journal of Materials Chemistry A, [10.1039/D4TA05110F]
10. Xianhong Zheng, Jinhao Tang, Qiaole Hu, Zongqian Wang, Zhi Liu, Changlong Li, Xiaoshuang Zhou, Ying Zhang, Hao Jia. (2024) Kinetics regulation in yarn-shaped Zn-ammonium vanadate batteries by sodium-ion and polyaniline co-intercalation and carbon nanotube intermediate layer. COLLOIDS AND SURFACES A-PHYSICOCHEMICAL AND ENGINEERING ASPECTS, 702 (134965). [10.1016/j.colsurfa.2024.134965]
11. Xuyan Guo, Zhuangzhuang Xiong, Fuqiu Ma, Qizi Wu, Lixia Ying, Guixiang Wang. (2025) Long-term corrosion resistance of superhydrophobic Ce-Co-Al LDH composite coatings prepared on the surface of Al alloy. Surfaces and Interfaces, 56 (105601). [10.1016/j.surfin.2024.105601]
12. Xilun Zhang, Hongliang Liang, Fei Chang. (2024) Magnesium oxide-supported potassium hydride as a transition-metal-free catalyst for the selective hydrogenation of alkynes. JOURNAL OF CATALYSIS, 440 (115851). [10.1016/j.jcat.2024.115851]
13. Jun Yu, Hao Yang, Xiangyu Li, Xupeng Chen, Wenyue Li, Xingang Li, Chun Zhang. (2025) MOF-on-MOF-derived hollow tubular ZnFe2O4/Er-ZnO heterojunctions for the efficient degradation of tetracycline by visible light photocatalysis. APPLIED SURFACE SCIENCE, 684 (161634). [10.1016/j.apsusc.2024.161634]
14. Wenwu Fu, Jun Zheng, Zhiguang Lin, Kai Zhang, Ming Zhang, Xiaokang Cai, Chao Liu, Zhongrong Shen. (2024) Nitrogen-Doped Porous Carbon with Staged Nanopore Formation for Capacitors. ACS Applied Nano Materials, 7 (14): (16191-16203). [10.1021/acsanm.4c02104]
15. Hanning Zhang, Tao Shui, Wei Zhang, ZhengMing Sun. (2024) Parallel zinc deposition enabled by diethylene triaminepentaacetic acid induced interfacial complex for dendrite-free zinc metal anode. Energy Storage Materials, 71 (103595). [10.1016/j.ensm.2024.103595]
16. Yangyang Gong, Pengtao Zhang, Shuang Fan, Minghui Cai, Jiangtao Hu, Zhaoyan Luo, Hongwei Mi, Xiantao Jiang, Qianling Zhang, Xiangzhong Ren. (2024) Polypyrrole pre-intercalation engineering-induced NH4+ removal in tunnel ammonium vanadate toward high-performance zinc ion batteries. JOURNAL OF COLLOID AND INTERFACE SCIENCE, 664 (168). [PMID:38460381] [10.1016/j.jcis.2024.03.025]
17. Panpan Wang, Meiyu Shi, Yuan Shu, Qiang Niu, Pengfei Zhang. (2025) Porous CaCO3 fabricated by Ca-containing solid wastes for effective CO2 adsorption. Journal of Environmental Chemical Engineering, 13 (115815). [10.1016/j.jece.2025.115815]
18. Guanfeng Zheng, Fanxia Kong, Peng Fu, Xinglin Li. (2024) Preparation of modified wood-based metal nanoparticles synthesized in situ and efficient removal of organic pollutants from wastewater. COLLOIDS AND SURFACES A-PHYSICOCHEMICAL AND ENGINEERING ASPECTS, 695 (134246). [10.1016/j.colsurfa.2024.134246]
19. KeXuan Wu, Ting Peng, Jing Cao. (2025) Rod-Like Fe, Bi Co-doped Co3O4 as an Efficient Electrocatalyst for Chlorine Evolution Reaction and Ammonia-Nitrogen-Oxidation in Water. ChemistrySelect, 10 (9): (e202405544). [10.1002/slct.202405544]
20. Zhipeng Wang, Xueting Chang, Junfeng Li, Xiaojie Zhu, Yuliang Zhang, Dongsheng Wang, Yingchang Jiang, Shibin Sun. (2024) Room-temperature NH3 sensor based on CoFe2O4/PANI composite with porous structure. MATERIALS RESEARCH BULLETIN, 175 (112774). [10.1016/j.materresbull.2024.112774]
21. Chengjian Ma, Longhua He, Haiyun Ruan, Hong Gao, Jianxiang Ding. (2024) Sintering temperature–induced evolutions of crystal structure, microstructure, twin defects, and electrical properties of Co0.98Cu0.4Mn1.62O4 ceramics. JOURNAL OF ALLOYS AND COMPOUNDS, 990 (174395). [10.1016/j.jallcom.2024.174395]
22. Jia Gao, Hainan Zhang, Xiangge Han, Shuhui Liang, Weiqi Zhou, Shuliang Dou, Jiazhi Wang, Yao Li. (2024) The excellent infrared radiation regulation ability of VO2 nanorods. SOLAR ENERGY MATERIALS AND SOLAR CELLS, 276 (113082). [10.1016/j.solmat.2024.113082]
23. Heng Zhang, Xiaoyu Gao, Xiaoyu Xu, Yuxuan Li, Rongfu Xu, Yisheng Feng, Liming Feng. (2025) The structure, corrosion resistance, and formation mechanism of a composite conversion film based on oxalate on steel substrates. Surfaces and Interfaces, 60 (106055). [10.1016/j.surfin.2025.106055]
24. Wenwu Fu, Gang Wang, Kai Zhang, Jiafan Zheng, Chengyu Zhang, Jieyuan Wang, Junwei Li, Jun Zheng, Ming Zhang, Zhongrong Shen. (2025) Thermally activated prussian blue analogues low-spin iron for enhanced sodium ion storage performance. JOURNAL OF POWER SOURCES, 641 (236866). [10.1016/j.jpowsour.2025.236866]
25. Wen Wang, Chuyuan Lin, Fenqiang Luo, Renpin Liu, Xiaochuan Chen, Wangyang Wu, Shiting Wei, Fuyu Xiao, Peixun Xiong, Qinghua Chen, Qingrong Qian, Lingxing Zeng. (2024) VO2/MoS2 heterostructure synergized oxygen vacancies as a cathode material for high-performance hybrid Mg/Li-ion batteries over a wide temperature range. JOURNAL OF ALLOYS AND COMPOUNDS, (178281). [10.1016/j.jallcom.2024.178281]

溶液计算器

摩尔浓度计算器

计算溶液所需的质量、体积或浓度。

质量

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浓度

x

体积

x

分子量

g/mol

稀释计算器

计算配制储备溶液所需的稀释度。

浓度1（C1）

x

体积 1 (V1)

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浓度 2 (C2)

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体积 2 (V2)

复溶计算器

复溶计算器允许您快速计算试剂的体积，以复溶小瓶。只需输入试剂的质量和目标浓度，计算器将确定其余部分。

体积（添加到小瓶中）

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质量（小瓶）

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所需的复溶浓度

货号 (SKU)	包装规格	是否现货	价格	数量
O755582-100g	100g	期货
O755582-500g	500g	期货

草酸二水合物

库存信息

库存信息

基本描述

产品属性

名称和识别符

化学和物理性质

安全和危险性（GHS）

质检证书（CoA,COO,BSE/TSE 和分析图谱)

此产品的引用文献

引用文献

溶液计算器

摩尔浓度计算器

稀释计算器

复溶计算器

草酸 二水合物

库存信息

库存信息

基本描述

产品属性

名称和识别符

化学和物理性质

安全和危险性（GHS）

质检证书（CoA,COO,BSE/TSE 和分析图谱)

此产品的引用文献

引用文献

溶液计算器

摩尔浓度计算器

稀释计算器

复溶计算器

草酸二水合物