Zinc iodide - Ultra dry, 99.99% metals basis, high purity , CAS No.10139-47-6

Item Number
Z292279
Grouped product items
SKUSizeAvailabilityPrice Qty
Z292279-5g
5g
In stock
$264.90
Z292279-25g
25g
In stock
$1,167.90
Z292279-100g
100g
Available within 4-8 weeks(?)
Items will be manufactured post-order and can take 4-8 weeks. Thank you for your patience!
$3,199.90

Basic Description

SynonymsZinc iodide | 10139-47-6 | Diiodozinc | Zinc iodide (ZnI2) | UNII-762R7A0O0B | 762R7A0O0B | EINECS 233-396-0 | MFCD00011299 | NSC 39113 | NSC-39113 | Zinciodide | EpiphaniQ | EpiphaniQ Throat | Zinc Iodide Powder | Zinc diiodide,99% | Zinc iodide, ultra dry | Zinc iodide, >=98% | DTXSID50
Specifications & PurityUltra dry, 99.99% metals basis
Storage TempRoom temperature
Shipped InNormal
GradePrimorTrace™, Ultra dry
Product Description

Zinc iodide is used as an x-ray opaque penetrant in industrial radiography to enhance the contrast. It is used as electrode compartments and as a stain in electron microscopy in association with osmium tetroxide.

Names and Identifiers

Pubchem Sid488183767
Pubchem Sid Urlhttps://pubchem.ncbi.nlm.nih.gov/substance/488183767
IUPAC Name diiodozinc
INCHI InChI=1S/2HI.Zn/h2*1H;/q;;+2/p-2
InChi Key UAYWVJHJZHQCIE-UHFFFAOYSA-L
Canonical SMILES [Zn](I)I
Isomeric SMILES [Zn](I)I
WGK Germany 3
PubChem CID 66278
UN Number 3260
Molecular Weight 319.2

Certificates

Certificate of Analysis(COA)

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9 results found

Lot NumberCertificate TypeDateItem
G2311281Certificate of AnalysisMay 27, 2023 Z292279
G2311286Certificate of AnalysisMay 27, 2023 Z292279
G2311289Certificate of AnalysisMay 27, 2023 Z292279
G2311290Certificate of AnalysisMay 27, 2023 Z292279
F2306443Certificate of AnalysisMay 22, 2023 Z292279
F2306444Certificate of AnalysisMay 22, 2023 Z292279
F2306445Certificate of AnalysisMay 22, 2023 Z292279
F2306446Certificate of AnalysisMay 22, 2023 Z292279
F2306447Certificate of AnalysisMay 22, 2023 Z292279

Chemical and Physical Properties

SolubilitySoluble in water.
SensitivityHygroscopic
Boil Point(°C)625° dec.
Melt Point(°C)445°C

Safety and Hazards(GHS)

Pictogram(s) GHS09,   GHS07
Signal Danger
Hazard Statements

H314:Causes severe skin burns and eye damage

H400:Very toxic to aquatic life

Precautionary Statements

P273:Avoid release to the environment.

P280:Wear protective gloves/protective clothing/eye protection/face protection.

P321:Specific treatment (see ... on this label).

P405:Store locked up.

P501:Dispose of contents/container to ...

P264:Wash hands [and …] thoroughly after handling.

P260:Do not breathe dust/fume/gas/mist/vapors/spray.

P301+P330+P331:IF SWALLOWED: Rinse mouth. Do NOT induce vomiting.

P304+P340:IF INHALED: Remove person to fresh air and keep comfortable for breathing.

P363:Wash contaminated clothing before reuse.

P391:Collect spillage.

P305+P354+P338:IF IN EYES: Immediately rinse with water for several minutes. Remove contact lenses if present and easy to do. Continue rinsing.

P302+P361+P354:IF ON SKIN: Take off Immediately all contaminated clothing. Immediately rinse with water for several minutes.

P316:Get emergency medical help immediately.

WGK Germany 3
Merck Index 14,10140
RIDADR UN 3260 8 / PGIII

Related Documents

Citations of This Product

1. Yijiang Chen, Shan Yu, Yunqian Zhong, Yi Wang, Jiale Ye, Ying Zhou.  (2023)  Study of Indium Phosphide Quantum Dots/Carbon Quantum Dots System for Enhanced Photocatalytic Hydrogen Production from Hydrogen Sulfide.  Processes,  11  (11): (3160).  [PMID:2511201]
2. Zizhao Fu, Hanxu Lu, Hong Liu, Yifeng Xing, Zhiyan Piao, Hanqing Dai, Wanlu Zhang, Ruiqian Guo.  (2023)  A facile synthesis of highly efficient and widely emission tunable quintuple CuZnGaSSe quantum dots.  Applied Materials Today,  34  (29): (101922).  [PMID:15355975]
3. Kaiwang Chen, Dengliang Zhang, Qing Du, Wei Hong, Yue Liang, Xingxing Duan, Shangwei Feng, Linfeng Lan, Lei Wang, Jiangshan Chen, Dongge Ma.  (2023)  Synergistic Halide- and Ligand-Exchanges of All-Inorganic Perovskite Nanocrystals for Near-Unity and Spectrally Stable Red Emission.  Nanomaterials,  13  (16): (2337).  [PMID:37630921]
4. Shihui He, Shiqiang Hao, Liubing Fan, Kunjie Liu, Chuxin Cai, Christopher Wolverton, Jing Zhao, Quanlin Liu.  (2023)  Efficient Solar Spectrum-Like White-Light Emission in Zinc-Based Zero-Dimensional Hybrid Metal Halides.  Advanced Optical Materials,  11  (15): (2300218).  [PMID:]
5. Hanxu Lu, Zhe Hu, Hong Liu, Zizhao Fu, Hanqing Dai, Wanlu Zhang, Ruiqian Guo.  (2023)  Single-Phase Cu,Mn-Codoped ZnGaS/ZnS Quantum Dots for Full-Spectrum White-Light-Emitting Diodes.  ACS Applied Nano Materials,  (9): (7375–7383).  [PMID:]
6. Min Ye, Fangyuan Lin, Lingou Yang, Jingwen Jin, Xuelian Liu, Yiru Wang, Xi Chen.  (2023)  Highly stable luminescence temperature sensing based on eco-friendly lead-free cesium copper iodine perovskites.  JOURNAL OF LUMINESCENCE,  260  (119880).  [PMID:]
7. Haobing Zhao, Hailong Hu, Jinping Zheng, Yuan Qie, Kuibao Yu, Yangbin Zhu, Zhiqi Luo, Lihua Lin, Kaiyu Yang, Tailiang Guo, Fushan Li.  (2023)  One-Pot Synthesis of InP Multishell Quantum Dots for Narrow-Bandwidth Light-Emitting Devices.  ACS Applied Nano Materials,  (5): (3797–3802).  [PMID:]
8. Hui-Ling Hu, Hao Hao, Xue Ren, Zhe-Yong Chen, Meng Liu, Yi Liu, Feng-Lei Jiang.  (2023)  Bright InP Quantum Dots by Mid-Synthetic Modification with Zinc Halides.  INORGANIC CHEMISTRY,  62  (6): (2877–2886).  [PMID:36723932]
9. Rongliang Deng, Xiaotong Fan, Guolong Chen, Changzhi Yu, Xiao Yang, Yue Lin, Hao-Chung Kuo, Tingzhu Wu, Zhong Chen.  (2023)  High temperature solid reaction synthesis of ultra-stable CsPbI3–Cs4PbI6 nano-composites sealed in SiO2 particles.  JOURNAL OF LUMINESCENCE,  257  (119701).  [PMID:]
10. Xiaopeng Zhou, Jiejun Ren, Wenlei Cao, Andries Meijerink, Yuhua Wang.  (2023)  Narrow-Band Blue-Emitting Indium Phosphide Quantum Dots Induced by Highly Active Zn Precursor.  Advanced Optical Materials,  11  (6): (2202128).  [PMID:]
11. Shuo Wang, Simiao Li, Qian Zhao.  (2023)  A Low-Cost Synthetic Route of FAPbI3 Quantum Dots in Air at Atmospheric Pressure: The Role of Zinc Iodide Additives.  Nanomaterials,  13  (2): (226).  [PMID:36677978]
12. Zhimeng Hao, Yufeng Zhang, Zhenkun Hao, Geng Li, Yong Lu, Song Jin, Gaojing Yang, Sihan Zhang, Zhenhua Yan, Qing Zhao, Jun Chen.  (2023)  Metal Anodes with Ultrahigh Reversibility Enabled by the Closest Packing Crystallography for Sustainable Batteries.  ADVANCED MATERIALS,  35  (9): (2209985).  [PMID:36534438]
13. Liping Sun, Wenqing Li, Zhuhan Liu, Zijue Zhou, Yi Feng.  (2023)  Iodine-doped single-atom cobalt catalysts with boosted antioxidant enzyme-like activity for colitis therapy.  CHEMICAL ENGINEERING JOURNAL,  453  (139870).  [PMID:]
14. Yu Yan, Qi Zhang, Zhijian Wang, Qifeng Du, Ruitao Tang, Xiaoyu Wang.  (2022)  High-Efficiency Tandem White Perovskite Light-Emitting Diodes by Using an Organic/Inorganic Intermediate Connector.  Crystals,  12  (9): (1286).  [PMID:]
15. Xiaobo Hu, Yanqiao Xu, Jiancheng Wang, Jiaxin Ma, Lianjun Wang, Wan Jiang.  (2022)  Scalable synthesis of efficiently luminescent and color-tunable CsPbX3 (X=Cl, Br, I) nanocrystals by regulating the reaction parameters.  JOURNAL OF LUMINESCENCE,  251  (119191).  [PMID:]
16. Yingling Zhong, Yuandong Wu, Dajiang Mei, Shaoguo Wen, Thomas Doert.  (2022)  Synthesis, crystal structures and luminescent properties of three layered zinc complexes: Zn(1,10-phen)mI2 (m = 1, 2) and Zn2(1,10-phen)2C2O4Br2 (phen = phenanthroline).  JOURNAL OF MOLECULAR STRUCTURE,  1265  (133489).  [PMID:]
17. Chen Pohua, Liu Yang, Zhang Chaochao, Huang Fei, Liu Leifeng, Sun Junliang.  (2022)  Crystalline Sponge Method by Three-Dimensional Electron Diffraction.  Frontiers in Molecular Biosciences,    [PMID:35198600]
18. Xiao-Yi Cai, Yi Yu, Yong-Chun Ye, Yang Shen, Ming-Lei Guo, Jing-Kun Wang, Kong-Chao Shen, Yan-Qing Li, Jian-Xin Tang.  (2021)  Improving the efficiency and stability of inorganic red perovskite light-emitting diodes using traces of zinc ions.  Journal of Materials Chemistry C,  (46): (16682-16692).  [PMID:]

References

1. Yijiang Chen, Shan Yu, Yunqian Zhong, Yi Wang, Jiale Ye, Ying Zhou.  (2023)  Study of Indium Phosphide Quantum Dots/Carbon Quantum Dots System for Enhanced Photocatalytic Hydrogen Production from Hydrogen Sulfide.  Processes,  11  (11): (3160).  [PMID:2511201]
2. Zizhao Fu, Hanxu Lu, Hong Liu, Yifeng Xing, Zhiyan Piao, Hanqing Dai, Wanlu Zhang, Ruiqian Guo.  (2023)  A facile synthesis of highly efficient and widely emission tunable quintuple CuZnGaSSe quantum dots.  Applied Materials Today,  34  (29): (101922).  [PMID:15355975]
3. Kaiwang Chen, Dengliang Zhang, Qing Du, Wei Hong, Yue Liang, Xingxing Duan, Shangwei Feng, Linfeng Lan, Lei Wang, Jiangshan Chen, Dongge Ma.  (2023)  Synergistic Halide- and Ligand-Exchanges of All-Inorganic Perovskite Nanocrystals for Near-Unity and Spectrally Stable Red Emission.  Nanomaterials,  13  (16): (2337).  [PMID:37630921]
4. Shihui He, Shiqiang Hao, Liubing Fan, Kunjie Liu, Chuxin Cai, Christopher Wolverton, Jing Zhao, Quanlin Liu.  (2023)  Efficient Solar Spectrum-Like White-Light Emission in Zinc-Based Zero-Dimensional Hybrid Metal Halides.  Advanced Optical Materials,  11  (15): (2300218).  [PMID:]
5. Hanxu Lu, Zhe Hu, Hong Liu, Zizhao Fu, Hanqing Dai, Wanlu Zhang, Ruiqian Guo.  (2023)  Single-Phase Cu,Mn-Codoped ZnGaS/ZnS Quantum Dots for Full-Spectrum White-Light-Emitting Diodes.  ACS Applied Nano Materials,  (9): (7375–7383).  [PMID:]
6. Min Ye, Fangyuan Lin, Lingou Yang, Jingwen Jin, Xuelian Liu, Yiru Wang, Xi Chen.  (2023)  Highly stable luminescence temperature sensing based on eco-friendly lead-free cesium copper iodine perovskites.  JOURNAL OF LUMINESCENCE,  260  (119880).  [PMID:]
7. Haobing Zhao, Hailong Hu, Jinping Zheng, Yuan Qie, Kuibao Yu, Yangbin Zhu, Zhiqi Luo, Lihua Lin, Kaiyu Yang, Tailiang Guo, Fushan Li.  (2023)  One-Pot Synthesis of InP Multishell Quantum Dots for Narrow-Bandwidth Light-Emitting Devices.  ACS Applied Nano Materials,  (5): (3797–3802).  [PMID:]
8. Hui-Ling Hu, Hao Hao, Xue Ren, Zhe-Yong Chen, Meng Liu, Yi Liu, Feng-Lei Jiang.  (2023)  Bright InP Quantum Dots by Mid-Synthetic Modification with Zinc Halides.  INORGANIC CHEMISTRY,  62  (6): (2877–2886).  [PMID:36723932]
9. Rongliang Deng, Xiaotong Fan, Guolong Chen, Changzhi Yu, Xiao Yang, Yue Lin, Hao-Chung Kuo, Tingzhu Wu, Zhong Chen.  (2023)  High temperature solid reaction synthesis of ultra-stable CsPbI3–Cs4PbI6 nano-composites sealed in SiO2 particles.  JOURNAL OF LUMINESCENCE,  257  (119701).  [PMID:]
10. Xiaopeng Zhou, Jiejun Ren, Wenlei Cao, Andries Meijerink, Yuhua Wang.  (2023)  Narrow-Band Blue-Emitting Indium Phosphide Quantum Dots Induced by Highly Active Zn Precursor.  Advanced Optical Materials,  11  (6): (2202128).  [PMID:]
11. Shuo Wang, Simiao Li, Qian Zhao.  (2023)  A Low-Cost Synthetic Route of FAPbI3 Quantum Dots in Air at Atmospheric Pressure: The Role of Zinc Iodide Additives.  Nanomaterials,  13  (2): (226).  [PMID:36677978]
12. Zhimeng Hao, Yufeng Zhang, Zhenkun Hao, Geng Li, Yong Lu, Song Jin, Gaojing Yang, Sihan Zhang, Zhenhua Yan, Qing Zhao, Jun Chen.  (2023)  Metal Anodes with Ultrahigh Reversibility Enabled by the Closest Packing Crystallography for Sustainable Batteries.  ADVANCED MATERIALS,  35  (9): (2209985).  [PMID:36534438]
13. Liping Sun, Wenqing Li, Zhuhan Liu, Zijue Zhou, Yi Feng.  (2023)  Iodine-doped single-atom cobalt catalysts with boosted antioxidant enzyme-like activity for colitis therapy.  CHEMICAL ENGINEERING JOURNAL,  453  (139870).  [PMID:]
14. Yu Yan, Qi Zhang, Zhijian Wang, Qifeng Du, Ruitao Tang, Xiaoyu Wang.  (2022)  High-Efficiency Tandem White Perovskite Light-Emitting Diodes by Using an Organic/Inorganic Intermediate Connector.  Crystals,  12  (9): (1286).  [PMID:]
15. Xiaobo Hu, Yanqiao Xu, Jiancheng Wang, Jiaxin Ma, Lianjun Wang, Wan Jiang.  (2022)  Scalable synthesis of efficiently luminescent and color-tunable CsPbX3 (X=Cl, Br, I) nanocrystals by regulating the reaction parameters.  JOURNAL OF LUMINESCENCE,  251  (119191).  [PMID:]
16. Yingling Zhong, Yuandong Wu, Dajiang Mei, Shaoguo Wen, Thomas Doert.  (2022)  Synthesis, crystal structures and luminescent properties of three layered zinc complexes: Zn(1,10-phen)mI2 (m = 1, 2) and Zn2(1,10-phen)2C2O4Br2 (phen = phenanthroline).  JOURNAL OF MOLECULAR STRUCTURE,  1265  (133489).  [PMID:]
17. Chen Pohua, Liu Yang, Zhang Chaochao, Huang Fei, Liu Leifeng, Sun Junliang.  (2022)  Crystalline Sponge Method by Three-Dimensional Electron Diffraction.  Frontiers in Molecular Biosciences,    [PMID:35198600]
18. Xiao-Yi Cai, Yi Yu, Yong-Chun Ye, Yang Shen, Ming-Lei Guo, Jing-Kun Wang, Kong-Chao Shen, Yan-Qing Li, Jian-Xin Tang.  (2021)  Improving the efficiency and stability of inorganic red perovskite light-emitting diodes using traces of zinc ions.  Journal of Materials Chemistry C,  (46): (16682-16692).  [PMID:]

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