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Potassium nitrate -15N - isotopic purity:99atom%;purity:≥99.0%, high purity , CAS No.57654-83-8

11 Citations
  • ≥99 atom%,≥99%
Item Number
P117721
Grouped product items
SKUSizeAvailabilityPrice Qty
P117721-250mg
250mg
5
$59.90
P117721-1g
1g
3
$189.90
P117721-5g
5g
2
$659.90
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isotope (0) Salt (0)

Basic Description

SynonymsPotassium (~15~N)nitrate | Potassium nitrate-15N, 60 atom % 15N | POTASSIUM NITRATE-15N (99% ATOM) | MFCD00075049 | potassium;dioxido(oxo)(15N)azanium | Potassium nitrate-15N | Potassium nitrate-15N, 10 atom % 15N | DTXSID50447921 | Potassium nitrate-15N,
Specifications & Purity≥99 atom%,≥99%
Storage TempProtected from light,Room temperature,Argon charged
Shipped InNormal
Product Description

Potassium nitrate-15N is an inorganic compound enriched with 15N isotope.

AI Insight

Names and Identifiers

Pubchem Sid504765712
Pubchem Sid Urlhttps://pubchem.ncbi.nlm.nih.gov/substance/504765712
IUPAC Name potassium;dioxido(oxo)(15N)azanium
INCHI InChI=1S/K.NO3/c;2-1(3)4/q+1;-1/i;1+1
InChi Key FGIUAXJPYTZDNR-IEOVAKBOSA-N
Canonical SMILES [N+](=O)([O-])[O-].[K+]
Isomeric SMILES [15N+](=O)([O-])[O-].[K+]
WGK Germany 3
Alternate CAS 7757-79-1(Unlabeled)
PubChem CID 10909504
UN Number 1486
Molecular Weight 102.1

Certificates(CoA,COO,BSE/TSE and Analysis Chart)

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

Find and download the COA for your product by matching the lot number on the packaging.

28 results found

Lot NumberCertificate TypeDateItem
B2510645Certificate of AnalysisJan 20, 2025 P117721
B2510646Certificate of AnalysisJan 20, 2025 P117721
B2510647Certificate of AnalysisJan 20, 2025 P117721
K2415569Certificate of AnalysisNov 04, 2024 P117721
K2415546Certificate of AnalysisNov 04, 2024 P117721
K2415564Certificate of AnalysisNov 04, 2024 P117721
I2420676Certificate of AnalysisSep 13, 2024 P117721
I2420629Certificate of AnalysisSep 13, 2024 P117721
I2420628Certificate of AnalysisSep 13, 2024 P117721
F2417385Certificate of AnalysisJun 06, 2024 P117721
F2417386Certificate of AnalysisJun 06, 2024 P117721
F2417384Certificate of AnalysisJun 06, 2024 P117721
F2417383Certificate of AnalysisJun 06, 2024 P117721
D2423053Certificate of AnalysisNov 11, 2023 P117721
A2424017Certificate of AnalysisNov 11, 2023 P117721
K2317342Certificate of AnalysisNov 11, 2023 P117721
K2317411Certificate of AnalysisNov 11, 2023 P117721
K2317412Certificate of AnalysisNov 11, 2023 P117721
I2307456Certificate of AnalysisAug 24, 2023 P117721
I2307457Certificate of AnalysisAug 24, 2023 P117721
I2307458Certificate of AnalysisAug 24, 2023 P117721
F23171125Certificate of AnalysisJun 13, 2023 P117721
F23171119Certificate of AnalysisJun 13, 2023 P117721
F23171092Certificate of AnalysisJun 13, 2023 P117721
A2304499Certificate of AnalysisNov 26, 2022 P117721
A2304462Certificate of AnalysisNov 26, 2022 P117721
G2203377Certificate of AnalysisJun 21, 2022 P117721
G2203376Certificate of AnalysisJun 21, 2022 P117721

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Safety and Hazards(GHS)

Pictogram(s) GHS07,   GHS03
Hazard Statements

H315:Causes skin irritation

H319:Causes serious eye irritation

H335:May cause respiratory irritation

H302:Harmful if swallowed

H272:May intensify fire; oxidizer

Precautionary Statements

P261:Avoid breathing dust/fume/gas/mist/vapors/spray.

P305+P351+P338:IF IN EYES: Rinse cautiously with water for several minutes. Remove contact lenses if present and easy to do - continue rinsing.

P220:Keep away from clothing and other combustible materials.

WGK Germany 3

Related Documents

 SDS

 Specification Sheet

Alternative Products

  1. Potassium nitrate -15N - isotopic purity:10atom%;purity:≥99.0%, used for , CAS No. 57654-83-8, by Aladdin Scientific
    Potassium nitrate -15N
    • ≥10 atom%,≥99%

    Starting at $39.90

Reviews

Customer Reviews

Citations of This Product

How to Cite Aladdin Scientific Products?
1. Zuan Yu, Jiangwei Xie, Tianlun Ren, Hongjie Yu, Kai Deng, Ziqiang Wang, Hongjing Wang, Liang Wang, You Xu.  (2023)  Electrochemical Postmodification-Induced Surface Atom Rearrangement over Cu Nanodendrites for Enhanced Electrosynthesis of Ammonia from Nitrate.  INORGANIC CHEMISTRY,  62  (39): (16228–16235).  [PMID:37724563] [10.1021/acs.inorgchem.3c02886]
2. Yini Mao, Yong Jiang, Qiao Gou, Shengmei Lv, Zuyou Song, Yimin Jiang, Wenbin Wang, Ming Li, Lirong Zheng, Wei Su, Rongxing He.  (2024)  Indium-activated bismuth-based catalysts for efficient electrocatalytic synthesis of urea.  APPLIED CATALYSIS B-ENVIRONMENTAL,  340  (123189).  [PMID:] [10.1016/j.apcatb.2023.123189]
3. Fan Pan, Jianjun Zhou, Tian Wang, Yunqing Zhu, Hongrui Ma, Junfeng Niu, Chuanyi Wang.  (2023)  Revealing the activity origin of ultrathin nickel metal–organic framework nanosheet catalysts for selective electrochemical nitrate reduction to ammonia: Experimental and density functional theory investigations.  JOURNAL OF COLLOID AND INTERFACE SCIENCE,  638  (26).  [PMID:36731216] [10.1016/j.jcis.2023.01.121]
4. You Xu, Youwei Sheng, Mingzhen Wang, Tianlun Ren, Keke Shi, Ziqiang Wang, Xiaonian Li, Liang Wang, Hongjing Wang.  (2022)  Interface coupling induced built-in electric fields boost electrochemical nitrate reduction to ammonia over CuO@MnO2 core–shell hierarchical nanoarrays.  Journal of Materials Chemistry A,  10  (32): (16883-16890).  [PMID:] [10.1039/D2TA02006H]
5. Jiahao Cai, Shuaibo Qin, Muhammad Awais Akram, Xiangdie Hou, Peng Jin, Feng Wang, Botao Zhu, Xiaohong Li, Lai Feng.  (2022)  In situ reconstruction enhanced dual-site catalysis towards nitrate electroreduction to ammonia.  Journal of Materials Chemistry A,  10  (23): (12669-12678).  [PMID:] [10.1039/D2TA01772E]
6. Chunhong Fu, Song Shu, Lin Hu, Zixun Liu, Zhouyang Yin, Xiaoshu Lv, Sen Zhang, Guangming Jiang.  (2022)  Electrocatalytic nitrate reduction on bimetallic Palladium-Copper Nanowires: Key surface structure for selective dinitrogen formation.  CHEMICAL ENGINEERING JOURNAL,  435  (134969).  [PMID:] [10.1016/j.cej.2022.134969]
7. You Xu, Kaili Ren, Tianlun Ren, Mingzhen Wang, Ziqiang Wang, Xiaonian Li, Liang Wang, Hongjing Wang.  (2022)  Ultralow-content Pd in-situ incorporation mediated hierarchical defects in corner-etched Cu2O octahedra for enhanced electrocatalytic nitrate reduction to ammonia.  APPLIED CATALYSIS B-ENVIRONMENTAL,  306  (121094).  [PMID:] [10.1016/j.apcatb.2022.121094]
8. Xiaohui Feng, Zhonghai Tang, Bingyao Chen, Shengnan Feng, Yu Liu, Qingshi Meng.  (2022)  A high-efficiency quantitation method for fatty aldehyde based on chemical isotope-tagged derivatisation.  JOURNAL OF FOOD COMPOSITION AND ANALYSIS,  107  (104381).  [PMID:] [10.1016/j.jfca.2021.104381]
9. Xue Zhao, Zhu Zhu, Yingnan He, Haibo Zhang, Xiaohai Zhou, Wanbiao Hu, Meng Li, Shusheng Zhang, Yemin Dong, Xun Hu, Artem V. Kuklin, Glib V. Baryshnikov, Hans Ågren, Thomas Wågberg, Guangzhi Hu.  (2022)  Simultaneous anchoring of Ni nanoparticles and single-atom Ni on BCN matrix promotes efficient conversion of nitrate in water into high-value-added ammonia.  CHEMICAL ENGINEERING JOURNAL,  433  (133190).  [PMID:] [10.1016/j.cej.2021.133190]
10. Hongjing Wang, Qiqi Mao, Tianlun Ren, Tongqing Zhou, Kai Deng, Ziqiang Wang, Xiaonian Li, You Xu, Liang Wang.  (2021)  Synergism of Interfaces and Defects: Cu/Oxygen Vacancy-Rich Cu-Mn3O4 Heterostructured Ultrathin Nanosheet Arrays for Selective Nitrate Electroreduction to Ammonia.  ACS Applied Materials & Interfaces,  13  (37): (44733–44741).  [PMID:34499470] [10.1021/acsami.1c11249]
11. Zhang Rong, Li Chuan, Cui Huilin, Wang Yanbo, Zhang Shaoce, Li Pei, Hou Yue, Guo Ying, Liang Guojin, Huang Zhaodong, Peng Chao, Zhi Chunyi.  (2023)  Electrochemical nitrate reduction in acid enables high-efficiency ammonia synthesis and high-voltage pollutes-based fuel cells.  Nature Communications,  14  (1): (1-11).  [PMID:38052852] [10.1038/s41467-023-43897-6]

References

1. Guangyu Guo,Ning Li.  (2011-02-15)  Relative and accurate measurement of protein abundance using 15N stable isotope labeling in Arabidopsis (SILIA)..  Phytochemistry,  72  ((10)): (1028-1039).  [PMID:21315391]
2. Mathieu Sebilo,Bernhard Mayer,Bernard Nicolardot,Gilles Pinay,André Mariotti.  (2013-10-23)  Long-term fate of nitrate fertilizer in agricultural soils..  Proceedings of the National Academy of Sciences of the United States of America,  110  ((45)): (18185-18189).  [PMID:24145428]
3. Alamin Alfatih,Jie Wu,Zi-Sheng Zhang,Jin-Qiu Xia,Sami Ullah Jan,Lin-Hui Yu,Cheng-Bin Xiang.  (2020-06-26)  Rice NIN-LIKE PROTEIN 1 rapidly responds to nitrogen deficiency and improves yield and nitrogen use efficiency..  Journal of experimental botany,  71  ((19)): (6032-6042).  [PMID:32585013]
4. Karzan Jalal Salih,Owen Duncan,Lei Li,Josua Trösch,A Harvey Millar.  (2020-08-04)  The composition and turnover of the Arabidopsis thaliana 80S cytosolic ribosome..  The Biochemical journal,  477  ((16)): (3019-3032).  [PMID:32744327]
5. Jie Wu,Zi-Sheng Zhang,Jin-Qiu Xia,Alamin Alfatih,Ying Song,Yi-Jie Huang,Guang-Yu Wan,Liang-Qi Sun,Hui Tang,Yang Liu,Shi-Mei Wang,Qi-Sheng Zhu,Peng Qin,Yu-Ping Wang,Shi-Gui Li,Chuan-Zao Mao,Gui-Quan Zhang,Chengcai Chu,Lin-Hui Yu,Cheng-Bin Xiang.  (2020-09-03)  Rice NIN-LIKE PROTEIN 4 plays a pivotal role in nitrogen use efficiency..  Plant biotechnology journal,  19  ((3)): (448-461).  [PMID:32876985]
6. Bin Hu,Zhimin Jiang,Wei Wang,Yahong Qiu,Zhihua Zhang,Yongqiang Liu,Aifu Li,Xiaokai Gao,Linchuan Liu,Yangwen Qian,Xiahe Huang,Feifei Yu,Sai Kang,Yiqin Wang,Junpeng Xie,Shouyun Cao,Lianhe Zhang,Yingchun Wang,Qi Xie,Stanislav Kopriva,Chengcai Chu.  (2019-03-27)  Nitrate-NRT1.1B-SPX4 cascade integrates nitrogen and phosphorus signalling networks in plants..  Nature plants,  ((4)): (401-413).  [PMID:30911122]
7. Sebastian Schramm,Maria Fe Angela Comia Boco,Sarah Manzer,Oliver König,Tong Zhang,Fatima Tuz Zohora Mony,Adebimpe Nafisat Adedeji-Badmus,Brigitte Poppenberger,Wilfried Rozhon.  (2019-04-21)  Determination of the [15N]-Nitrate/[14N]-Nitrate Ratio in Plant Feeding Studies by GC⁻MS..  Molecules (Basel, Switzerland),  24  ((8)):   [PMID:31003443]
8. Zuan Yu, Jiangwei Xie, Tianlun Ren, Hongjie Yu, Kai Deng, Ziqiang Wang, Hongjing Wang, Liang Wang, You Xu.  (2023)  Electrochemical Postmodification-Induced Surface Atom Rearrangement over Cu Nanodendrites for Enhanced Electrosynthesis of Ammonia from Nitrate.  INORGANIC CHEMISTRY,  62  (39): (16228–16235).  [PMID:37724563] [10.1021/acs.inorgchem.3c02886]
9. Yini Mao, Yong Jiang, Qiao Gou, Shengmei Lv, Zuyou Song, Yimin Jiang, Wenbin Wang, Ming Li, Lirong Zheng, Wei Su, Rongxing He.  (2024)  Indium-activated bismuth-based catalysts for efficient electrocatalytic synthesis of urea.  APPLIED CATALYSIS B-ENVIRONMENTAL,  340  (123189).  [PMID:] [10.1016/j.apcatb.2023.123189]
10. Fan Pan, Jianjun Zhou, Tian Wang, Yunqing Zhu, Hongrui Ma, Junfeng Niu, Chuanyi Wang.  (2023)  Revealing the activity origin of ultrathin nickel metal–organic framework nanosheet catalysts for selective electrochemical nitrate reduction to ammonia: Experimental and density functional theory investigations.  JOURNAL OF COLLOID AND INTERFACE SCIENCE,  638  (26).  [PMID:36731216] [10.1016/j.jcis.2023.01.121]
11. You Xu, Youwei Sheng, Mingzhen Wang, Tianlun Ren, Keke Shi, Ziqiang Wang, Xiaonian Li, Liang Wang, Hongjing Wang.  (2022)  Interface coupling induced built-in electric fields boost electrochemical nitrate reduction to ammonia over CuO@MnO2 core–shell hierarchical nanoarrays.  Journal of Materials Chemistry A,  10  (32): (16883-16890).  [PMID:] [10.1039/D2TA02006H]
12. Jiahao Cai, Shuaibo Qin, Muhammad Awais Akram, Xiangdie Hou, Peng Jin, Feng Wang, Botao Zhu, Xiaohong Li, Lai Feng.  (2022)  In situ reconstruction enhanced dual-site catalysis towards nitrate electroreduction to ammonia.  Journal of Materials Chemistry A,  10  (23): (12669-12678).  [PMID:] [10.1039/D2TA01772E]
13. Chunhong Fu, Song Shu, Lin Hu, Zixun Liu, Zhouyang Yin, Xiaoshu Lv, Sen Zhang, Guangming Jiang.  (2022)  Electrocatalytic nitrate reduction on bimetallic Palladium-Copper Nanowires: Key surface structure for selective dinitrogen formation.  CHEMICAL ENGINEERING JOURNAL,  435  (134969).  [PMID:] [10.1016/j.cej.2022.134969]
14. You Xu, Kaili Ren, Tianlun Ren, Mingzhen Wang, Ziqiang Wang, Xiaonian Li, Liang Wang, Hongjing Wang.  (2022)  Ultralow-content Pd in-situ incorporation mediated hierarchical defects in corner-etched Cu2O octahedra for enhanced electrocatalytic nitrate reduction to ammonia.  APPLIED CATALYSIS B-ENVIRONMENTAL,  306  (121094).  [PMID:] [10.1016/j.apcatb.2022.121094]
15. Xiaohui Feng, Zhonghai Tang, Bingyao Chen, Shengnan Feng, Yu Liu, Qingshi Meng.  (2022)  A high-efficiency quantitation method for fatty aldehyde based on chemical isotope-tagged derivatisation.  JOURNAL OF FOOD COMPOSITION AND ANALYSIS,  107  (104381).  [PMID:] [10.1016/j.jfca.2021.104381]
16. Xue Zhao, Zhu Zhu, Yingnan He, Haibo Zhang, Xiaohai Zhou, Wanbiao Hu, Meng Li, Shusheng Zhang, Yemin Dong, Xun Hu, Artem V. Kuklin, Glib V. Baryshnikov, Hans Ågren, Thomas Wågberg, Guangzhi Hu.  (2022)  Simultaneous anchoring of Ni nanoparticles and single-atom Ni on BCN matrix promotes efficient conversion of nitrate in water into high-value-added ammonia.  CHEMICAL ENGINEERING JOURNAL,  433  (133190).  [PMID:] [10.1016/j.cej.2021.133190]
17. Hongjing Wang, Qiqi Mao, Tianlun Ren, Tongqing Zhou, Kai Deng, Ziqiang Wang, Xiaonian Li, You Xu, Liang Wang.  (2021)  Synergism of Interfaces and Defects: Cu/Oxygen Vacancy-Rich Cu-Mn3O4 Heterostructured Ultrathin Nanosheet Arrays for Selective Nitrate Electroreduction to Ammonia.  ACS Applied Materials & Interfaces,  13  (37): (44733–44741).  [PMID:34499470] [10.1021/acsami.1c11249]
18. Zhang Rong, Li Chuan, Cui Huilin, Wang Yanbo, Zhang Shaoce, Li Pei, Hou Yue, Guo Ying, Liang Guojin, Huang Zhaodong, Peng Chao, Zhi Chunyi.  (2023)  Electrochemical nitrate reduction in acid enables high-efficiency ammonia synthesis and high-voltage pollutes-based fuel cells.  Nature Communications,  14  (1): (1-11).  [PMID:38052852] [10.1038/s41467-023-43897-6]

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