基本描述

别名	六水硝酸镨
英文别名	AKOS016008572 \| Praseodymium nitrate hexahydrate \| MFCD00149826 \| Praseodymium(III) nitrate hexahydrate \| DTXSID10166525 \| Praseodymium(III) nitrate hexahydrate (1:3:6) \| Praseodymium(III) nitrate hexahydrate, REacton? \| Praseodymium trinitrate hexahydrat
规格或纯度	≥99.9% metals basis
英文名称	Praseodymium nitrate hexahydrate
应用	用于三元催化剂，化学试剂等其它行业。
储存温度	避光,充氩
运输条件	常规运输
产品介绍	易溶于水和醇，在潮湿空气中易潮解。用于三元催化剂，化学试剂等其它行业。硝酸镨(III)六水合物常用于制作电子元件，包括陶瓷电容器、磁泡存储器和光致变色玻璃。具有独特的光学和电学性能，例如高介电常数和折射率，是电子工业的理想材料。它也用作镨源制备其他镨化合物应用硝酸镨(III)六水合物可用于：作为掺杂剂制造染料敏化太阳能电池。加入的稀土元素通过缩窄光阳极材料的带隙提高太阳能电池的能量转换效率；作为前体合成高熵硫氧化镧类化合物（宽带隙半导体）；合成功能化紫外发光纳米复合材料用于光动力肿瘤治疗；制造Pr掺杂MoO3薄膜用于气体传感 raseodymium(III) nitrate hexahydrate iscommonly used in the production of electronic components, including ceramiccapacitors, magnetic bubble memories, and photochromic glass. Its uniqueoptical and electrical properties, such as its high dielectric constant andrefractive index, make it a desirable material in the electronics industry. Itis also used as a praseodymium source for the preparation of other praseodymiumcompounds
纯度	≥99.9% metals basis

名称和识别符

EC号	233-796-5
分子类型	小分子
IIUPAC Name	praseodymium(3+);trinitrate;hexahydrate
INCHI	1S/3NO3.6H2O.Pr/c32-1(3)4;;;;;;;/h;;;61H2;/q3*-1;;;;;;;+3
InChi Key	LXXCECZPOWZKLC-UHFFFAOYSA-N
Smiles	[N+](=O)([O-])[O-].[N+](=O)([O-])[O-].[N+](=O)([O-])[O-].O.O.O.O.O.O.[Pr+3]
Isomeric SMILES	[N+](=O)([O-])[O-].[N+](=O)([O-])[O-].[N+](=O)([O-])[O-].O.O.O.O.O.O.[Pr+3]
UN Number	1477
分子量	435.01
Reaxy-Rn	16480487
Reaxys-RN link address	https://www.reaxys.com/reaxys/secured/hopinto.do?context=S&query=IDE.XRN=16480487&ln=

化学和物理性质

溶解性	易溶于无水胺、乙醇、乙醚及乙腈等级性溶剂中。
密度	2.233
敏感性	对湿度敏感;对光敏感
分子量	435.010 g/mol
XLogP3
氢键供体数Hydrogen Bond Donor Count	6
氢键受体数Hydrogen Bond Acceptor Count	15
可旋转键计数Rotatable Bond Count	0
精确质量Exact Mass	434.935 Da
单同位素质量Monoisotopic Mass	434.935 Da
拓扑极表面积Topological Polar Surface Area	195.000 Å²
重原子数Heavy Atom Count	19
形式电荷Formal Charge	0
复杂度Complexity	18.800
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	10

安全和危险性（GHS）

一般危化品	一般危化品
象形图	GHS03, GHS07
信号词	警告
危险声明	H272: 可能加剧火灾；氧化剂 H315: 引起皮肤刺激 H319: 引起严重眼睛刺激 H410: 对水生生物有剧毒并具有长期持续影响
预防措施声明	P210: 远离热源，热表面，火花，明火和其他点火源。 - 禁止抽烟。 P220: 远离衣物和其他可燃物。 P261: 避免吸入灰尘/烟雾/气体/雾/蒸汽/喷雾 P264: 处理后要彻底洗手。 P271: 仅在室外或通风良好的地方使用。 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...）。 P302+P352: 如皮肤沾染：用水充分清洗。 P304+P340: 如误吸入：将人转移到空气新鲜处，保持呼吸舒适体位。 P305+P351+P338: 如进入眼睛：用水小心冲洗几分钟。如戴隐形眼镜并可方便地取出，取出隐形眼镜。继续冲洗。 P362+P364: 脱掉沾污的衣服，清洗后方可重新使用。 P370+P378: 火灾时：使用干砂、干粉或抗醇泡沫灭火。 P405: 密闭存放 P403+P233: 存放在通风良好的地方。保持容器密闭。 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。 P337+P317: 如果眼睛刺激持续：寻求医疗帮助。 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	2
RTECS	TU1400000
个人防护装备	dust mask type N95 (US),Eyeshields,full-face particle respirator type N100 (US),Gloves,respirator cartridge type N100 (US),type P1 (EN143) respirator filter,type P3 (EN 143) respirator cartridges

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2. Yun Shi, Tingman Zhao, Jiada Du, Bo Feng, Qiuqi Tang, Shengdao Shan, Min Zhang, Qun Wang, Jingkai Zhao. (2024) Low temperature NH3 selective catalytic reduction of NOx over CeOx-biochar catalyst prepared by air oxidation. JOURNAL OF THE ENERGY INSTITUTE, 112 (101484). [10.1016/j.joei.2023.101484]
3. Cheng Yu, Cai Tianpei, Feng Jing, Yu Wei, Yu Dongping, Zhou Yongzheng, Su Dongping, Gan Quan, Liang Banghong, Guo Zhimou. (2023) Efficient separation of uranium and lanthanides based on high-performance ion exchange chromatography. JOURNAL OF RADIOANALYTICAL AND NUCLEAR CHEMISTRY, (1-8). [10.1007/s10967-023-09249-w]
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10. Shan Peng, Ranran Yang, Binglong Lei, Renhua Chen, Yun Gao, Xiaohong Xia, Kevin P. Homewood. (2023) New insight into the coloration mechanism and synthesis of ultrafine Pr-ZrSiO4 yellow pigments. JOURNAL OF THE AMERICAN CERAMIC SOCIETY, 106 (9): (5476-5486). [10.1111/jace.19150]
11. Ziyun Zhong, Hao Fu, Siyuan Wang, Yingnan Duan, Qinglun Wang, Chun-Hua Yan, Yaping Du. (2023) A Universal Synthesis Strategy for Lanthanide Sulfide Nanocrystals with Efficient Photocatalytic Hydrogen Production. Small, 19 (33): (2301392). [PMID:37086136] [10.1002/smll.202301392]
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17. Jianan Zhang, Min Zhao, Zhi-wen Yin, Zhi-yi Hu, Yanan Liu, Yufei He, Dianqing Li. (2023) Modification of Al2O3-based catalyst by rare earth elements for steam reforming of methane. AICHE JOURNAL, 69 (7): (e18070). [10.1002/aic.18070]
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19. Ping Li, Pu Yang, Fei Liu, Wanxiong Xiao, Fei Yan, Tian Gan, Kun Zhao, Dong Fu. (2023) Enhancing catalytic activity of CO2 electrolysis via B-site cation doped perovskite cathode in solid oxide electrolysis cell. CERAMICS INTERNATIONAL, 49 (12980). [10.1016/j.ceramint.2022.12.171]
20. Liming Zhao, Carl Redshaw, Kuixing Ding, Pengyue Zhang, Bin Chen, Zhirong Chen, Jiugang Hu, Haohong Li. (2023) Host-guest synergy of CH3NH3PbBr3@Ln-MOFs enabling tunable green luminescence and switchable memory. APPLIED SURFACE SCIENCE, 614 (156082). [10.1016/j.apsusc.2022.156082]
21. Jinghe Bai, Zhiying Han, Defeng Zhou, Xiaofei Zhu, Ning Wang, Ruyi Chen, Jing He, Wenfu Yan. (2023) Preparation of Pr2NiO4+δ-La0.6Sr0.4CoO3-δ as a high-performance cathode material for SOFC by an impregnation method. INTERNATIONAL JOURNAL OF HYDROGEN ENERGY, 48 (6076). [10.1016/j.ijhydene.2022.11.123]
22. Yi Zhang, Weidong Guo, Donghao Liu, Yigang Ding. (2023) Tailoring abundant active-oxygen sites of Prussian blue analogues-derived adsorbents for highly efficient Yb(III) capture. JOURNAL OF HAZARDOUS MATERIALS, 445 (130457). [PMID:36444809] [10.1016/j.jhazmat.2022.130457]
23. Dandan Jiang, Minghao Zheng, Xiaoyang Yan, Bin Huang, Hui Huang, Tianhao Gong, Kunming Liu, Jinbiao Liu. (2022) A “turn-on” ESIPT fluorescence probe of 2-(aminocarbonyl)phenylboronic acid for the selective detection of Cu(II). RSC Advances, 12 (48): (31186-31191). [PMID:36349016] [10.1039/D2RA04348C]
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25. Shen Jingxiang, Fan Zhefeng. (2023) Ce3+-induced Fluorescence Amplification of Copper Nanoclusters Based on Aggregation-induced Emission for Specific Sensing 2,6-pyridine Dicarboxylic Acid. JOURNAL OF FLUORESCENCE, 33 (1): (135-144). [PMID:36301441] [10.1007/s10895-022-03044-8]
26. Qingyun He, Xingqiang Liu, Feng Li, Fang Li, Leiming Tao, Changlin Yu. (2022) Effect of Light and Heavy Rare Earth Doping on the Physical Structure of Bi2O2CO3 and Their Performance in Photocatalytic Degradation of Dimethyl Phthalate. Catalysts, 12 (11): (1295). [10.3390/catal12111295]
27. Yaohui Xu, Pingkeng Wu, Mingjin Wu, Yuehe Gu, Hongguang Yu, Zhao Ding. (2022) Solvothermal Synthesis, Structural Characterization and Optical Properties of Pr-Doped CeO2 and Their Degradation for Acid Orange 7. Materials, 15 (19): (6953). [PMID:36234294] [10.3390/ma15196953]
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29. Wei Shi, Zefei Peng, Song Chen, Xueling Yan, Hua Xu, Lan Liu. (2022) Low-temperature fabrication of Pr-doped In2O3 electrospun nanofibers for flexible field-effect transistors. Journal of Materials Chemistry C, 10 (42): (15996-16003). [10.1039/D2TC03564B]
30. Xueyu Wang, Lianjun Song, Long Li, Zhuang Wang, Qiuju Li, Lanlan He, Xuanhao Huang, Songdong Ding. (2022) Extraction and Complexation Investigation of Palladium(II) by a Nitrilotriacetate-Derived Triamide Ligand. INORGANIC CHEMISTRY, 61 (34): (13293–13305). [PMID:35977422] [10.1021/acs.inorgchem.2c00675]
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38. Zhiyi Sun, Jun Ma, Yijun Liu, Hui Wang, Weihua Cao, Nanwen Zhu, Ziyang Lou. (2021) Mineralization of refractory organics in oil refinery wastewater by the catalytic ozonation with magnetic praseodymium-catalysts: Catalytic performances and mechanisms. SEPARATION AND PURIFICATION TECHNOLOGY, 277 (119506). [10.1016/j.seppur.2021.119506]
39. Meng Yu, Zhang Qing, Chen Zhijian, Chen Xu, Zhou Jing, Zhu Xiaofei, Wang Ning, Zhou Defeng. (2021) Novel cobalt and strontium-free perovskite Pr0.5Ba0.5Fe1-xNixO3-δ (x=0 and 0.2) as cathode for intermediate-temperature solid oxide fuel cells. IONICS, 27 (9): (3951-3965). [10.1007/s11581-021-04148-0]
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41. Ye Zhang, Yong Gao, Peng Wang, Yichen Xu, Zhenming Yang, Jinsong Zhang. (2021) SiC foam with a hollow skeleton and microporous strut wall used as a membrane contactor for the liquid-liquid extraction of Ce3+ and Pr3+. JOURNAL OF MEMBRANE SCIENCE, 637 (119640). [10.1016/j.memsci.2021.119640]
42. Zhang Xilun, Liu Lin, Feng Ji, Ju Xiaohua, Wang Jiemin, He Teng, Chen Ping. (2022) Ru Nanoparticles on Pr2O3 as an Efficient Catalyst for Hydrogen Production from Ammonia Decomposition. CATALYSIS LETTERS, 152 (4): (1170-1181). [10.1007/s10562-021-03709-2]
43. Yong-he Liu, Shun-kang Pan, Li-chun Cheng, Hua-yuan Yao, Yu-hang Zhai, Yu-cheng Chen. (2021) Electromagnetic wave absorption properties of Pr1-xBaxMnO3 ceramics prepared by a sol–gel combustion method. CERAMICS INTERNATIONAL, 47 (27639). [10.1016/j.ceramint.2021.06.188]
44. Zipeng Yin, Ling Zhu, Zijian Lv, Meijin Li, Dianping Tang. (2021) Persistent luminescence nanorods-based autofluorescence-free biosensor for prostate-specific antigen detection. TALANTA, 233 (122563). [PMID:34215059] [10.1016/j.talanta.2021.122563]
45. Shao Yan, Yanjie Liang, Yafei Chen, Jingwei Liu, Dongxun Chen, Zhengwei Pan. (2021) Ultraviolet-C persistent luminescence from the Lu2SiO5:Pr3+ persistent phosphor for solar-blind optical tagging. DALTON TRANSACTIONS, 50 (24): (8457-8466). [PMID:34047327] [10.1039/D1DT00791B]
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