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Journal articles on the topic 'Silver iodide'

Author: Grafiati
Published: 4 June 2021
Last updated: 26 July 2025

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1

Sulistyarti, Hermin, Erwin Sulistyo, Sutrisno Sutrisno, and Zuri Rismiarti. "Metode Spektrofotometri Secara Tidak Langsung untuk Penentuan Merkuri(II) berdasarkan Pembentukan Kompleks Biru Iodium-Amilum." ALCHEMY Jurnal Penelitian Kimia 15, no. 1 (2019): 149. http://dx.doi.org/10.20961/alchemy.15.1.15036.149-164.

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<p>Metode spektrofotometri secara tidak langsung telah dikembangkan untuk analisis merkuri(II) berdasarkan perbedaan absorbansi kompleks biru amilum-iodium antara larutan sampel yang mengandung ion merkuri(II) dan larutan blanko yang tidak mengandung ion merkuri(II) dalam sistem pereaksi yang berisi iodida, iodat dan amilum. Pada larutan blanko, semua ion iodida (I<sup>-</sup>) dalam sistem pereaksi dioksidasi oleh iodat menjadi iodium yang dengan adanya amilum membentuk kompleks biru iodium-amilum dan terdeteksi secara spektrofotometri pada 618 nm. Namun, bila sampel mengand
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2

Kolesnikova, Tatiana S., Marina O. Gorbunova, and Igor E. Uflyand. "USE OF SILVER-CONTAINING NANOCOMPOSITES FOR THE DETERMINATION OF IODIDE IONS." Transactions of the Kоla Science Centre of RAS. Series: Engineering Sciences 3, no. 3/2023 (2023): 181–85. http://dx.doi.org/10.37614/2949-1215.2023.14.3.033.

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At present, the interest of analytical chemists in metal-containing nanocomposites has increased significantly. This is primarily due to the possibility of their application as optical sensors. The operation of such sensors is based on the phenomenon of surface plasmon resonance (SPR). The result of this study is the development of a new sensitive method for the determination of iodide ions based on the use of paper modified with silver nanoparticles (NPs). Iodides, oxidized under the action of special reagents, form molecular iodine, which is extracted by an air flow and transferred to a sens
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3

Markova, Ekaterina О., Dmitry A. Nekrasov, Michael Yu Dyakov, and Arkady A. Danilov. "Determination of the content of iodine, iodides and iodates in food products." Izvestiya of Saratov University. Chemistry. Biology. Ecology 22, no. 4 (2022): 373–81. http://dx.doi.org/10.18500/1816-9775-2022-22-4-373-381.

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Currently iodine deficiency diseases are one of the most important medical and social problems. In this regard, the purpose of the study is to determine the content of iodine, iodides, iodates in iodized salt, drinking and mineral water, seaweed, to determine the stability of the iodine content in salt. For the qualitative determination of iodides and iodates ions in salts and molecular iodine in seaweed, an iodine starch reaction has been carried out. The presence of iodide ions in iodized water has been determined by reaction with silver nitrate and chlorine water, the iodine released has be
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4

Anita, Singh, S. Tripathi V., and C. Chattopadhyaya M. "Atomic absorption spectrophotometric determination of tryptophan and cysteine." Journal of Indian Chemical Society Vol. 85, June 2008 (2008): 635–37. https://doi.org/10.5281/zenodo.5816821.

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Electrochemical Sensors Lab, Department of Chemistry, University of Allahabad, Allahabad-211 002, Uttar Pradesh, India E-mail : mcc46@rediffmail.com, anita.singh.01@gmail.com <em>Manuscript received 16 October 2007, revised 1 April 2008, accepted 3 April 2008</em> A novel method for determination of cysteine and tryptophan using atomic absorption spectrophotometry has been developed in which these substances are allowed to react with methanol solution of iodine there by iodide ions are released quantitatively and the released iodide ions are allowed to react with excess amount of silver nitrat
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5

Tseng, Kuo-Hsiung, Chaur-Yang Chang, Meng-Yun Chung, and Ya-Lan Tang. "Bacteriostatic Substrate by Conductivity Method and Electric Spark Discharge Method Combined with Electrospinning for Silver Dressing." International Journal of Polymer Science 2016 (2016): 1–10. http://dx.doi.org/10.1155/2016/9425358.

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This study uses the conductivity method, Electric Spark Discharge Method, and the electrospinning technique to develop a better silver-based antibacterial agent. The preparation process is free of chemical substances and also conforms to the green energy-saving process. The silver iodide was prepared in an iodine agar medium by using the conductivity method. Multiple bacteriostasis experiments showed that the molds grew in the position with iodine of the culture medium after 6 days, as well as in the position with silver iodide after 10 days. The results prove that silver iodide has better bac
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6

Shim, Ha, Jung Yang, Sun-Wook Jeong, et al. "Silver Nanomaterial-Immobilized Desalination Systems for Efficient Removal of Radioactive Iodine Species in Water." Nanomaterials 8, no. 9 (2018): 660. http://dx.doi.org/10.3390/nano8090660.

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Increasing concerns regarding the adverse effects of radioactive iodine waste have inspired the development of a highly efficient and sustainable desalination process for the treatment of radioactive iodine-contaminated water. Because of the high affinity of silver towards iodine species, silver nanoparticles immobilized on a cellulose acetate membrane (Ag-CAM) and biogenic silver nanoparticles containing the radiation-resistant bacterium Deinococcus radiodurans (Ag-DR) were developed and investigated for desalination performance in removing radioactive iodines from water. A simple filtration
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7

Uflyand, Igor E., Marina O. Gorbunova, Vladimir A. Zhinzhilo, et al. "Preparation of Ag/C Nanocomposites Based on Silver Maleate and Their Use for the Analysis of Iodine Ions." Journal of Composites Science 6, no. 12 (2022): 384. http://dx.doi.org/10.3390/jcs6120384.

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In recent decades, metal-containing nanocomposites have attracted considerable attention from researchers. In the present study, a detailed analysis of the preparation of Ag/C nanocomposites through the thermolysis of silver maleate was carried out. Thermolysis products are nanocomposites containing silver nanoparticles (NPs) uniformly distributed in a stabilizing carbon matrix. The composition, structure, and properties of the obtained nanocomposites were studied using IR-spectroscopy, X-ray diffraction (XRD), atomic force microscopy (AFM), scanning electron microscopy (SEM), transmission ele
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8

Sorvin, M. I., A. A. Saveliev, I. I. Stoikov, S. V. Belyakova, and G. A. Evtugyn. "Solid-contact potentiometric sensors based on silver nanoparticles in the supramolecular matrix for the determination of halogenide ions." Аналитика и контроль 26, no. 3 (2022): 193–203. http://dx.doi.org/10.15826/analitika.2022.26.3.002.

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Determination of halogenide ions in pharmaceuticals and various waters is an actual task for the modern analytical chemistry. In the current work, solid-contact potentiometric sensor, based on the glassy carbon electrode covered with the layer of electropolymerized polyaniline and suspension of silver nanoparticles in the matrix of thiacalix[4]arene derivative bearing terminal catechol groups, has been described. The suspension was obtained by the chemical reduction of silver ions with the thiacalix[4]arene and drop casted on the polyaniline layer. The sensor showed potentiometric response to
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9

Karawia, Inas, and Osama Safwat Mohamed. "Impact of Potassium Iodide Solution on Silver Diamine Fluoride Black Staining - In Vitro Investigation." International Journal of Orofacial Research 8, no. 1 (2024): 1–6. http://dx.doi.org/10.56501/intjorofacres.v8i1.972.

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Dental caries is a prevalent global oral health issue, necessitating effective preventive and treatment strategies. Silver diamine fluoride has emerged as a valuable tool for arresting carious lesions, but its drawback of causing permanent black staining raises concerns. This study explores the potential of potassium iodide to mitigate silver diamine fluoride -induced staining through repeated applications at different intervals. Sixty carious permanent teeth were divided into three groups: silver diamine fluoride alone, silver diamine fluoride with daily potassium iodide application, and silv
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10

Glaum, Marcus, Wolfgang Kläaui, Brian W. Skelton та Allan H. White. "Synthesis, X-Ray Crystal Structure and Reactivity of [(tmeda)(p-tolyl)Pd(μ2-I)AgL], an Unusual Silver Iodide Complex; Reversible CO Insertion into the Pd-C Bond of [Pd(PPh3)(p-tolyl)L] (L - = [(C5H5)Co{P(OR)2O}3] - , R = Me, Pri)". Australian Journal of Chemistry 50, № 11 (1997): 1047. http://dx.doi.org/10.1071/c97074.

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The palladium complexes [Pd(PPh3)(aryl)LOR] (aryl = Ph, p-tolyl; LOR¯ = [(C5H5)Co{P(OR)2O}3]¯, R = Me, Pri) have been prepared by reaction of [PdI(aryl)(tmeda)] (tmeda = N,N,N′,N′-tetramethyl-ethylenediamine) with the silver salts AgLOR in the presence of PPh3. The complexes [Pd(PPh3)(aryl)LOR] rapidly and reversibly insert carbon monoxide to yield the aroyl palladium complexes [Pd(PPh3)(C(O)- p-tolyl)LOR] (R = Me, Pri ). The palladium iodide complex [PdI(p-tolyl)(tmeda)] and the silver salt AgLOR in the absence of PPh3 form an unusual adduct [(p-tolyl)(tmeda)Pd(µ2-I)AgLOMe] that contains a sh
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11

Huo, Jian-Zhong, Zhi-Xiang Zhao, Men-Chao Shi, Hui-Long Li та Qing-Xiang Liu. "catena-Poly[3,3′-diethyl-1,1′-(propane-1,3-diyl)di(1H-imidazol-3-ium) [silver(I)-di-μ-iodido-silver(I)-di-μ-iodido]]". Acta Crystallographica Section E Structure Reports Online 68, № 6 (2012): m787. http://dx.doi.org/10.1107/s1600536812020715.

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The title compound, {(C13H22N4)[Ag2I4]} n , was prepared by reaction of 1,3-bis(N-ethylimidazolium-1-yl)propane iodide with silver (I) oxide. In the 3,3′-diethyl-1,1′-(propane-1,3-diyl)di(1H-imidazol-3-ium) cation, the dihedral angle between the imidazole rings is 49.3 (1)°. In the [Ag2I4]2− anion, each AgI atom is bonded to three iodide anions, the two AgI atoms and two of the iodides forming Ag2I2 square-planar (r.m.s. deviation = 0.01 Å) units·The remaining two iodides, which are placed on opposite sides of the square, together with their centrosymmetric counterparts, link the square-planar
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12

Peña Lara, Diego, Hernando Correa, and Jesús Evelio Diosa. "Molecular Dynamics Study of Structural and Transport Properties of Silver Iodide Using Effective Charges." Molecules 27, no. 18 (2022): 6132. http://dx.doi.org/10.3390/molecules27186132.

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The superionic conductor, solid state, and body-centered cubic structure, silver iodide at room temperature, has been studied via molecular dynamics simulations. The calculated results using pairwise Coulomb-Buckingham potential, zero pressure on the sample, a semi-rigid model system of 1000 Ag and 1000 I ions, (NVE) as a statistical ensemble, and an effective charge of Z=0.63 for the pairs Ag-Ag and I-I, were found to be consistent with experimental data and one study using Z=0.60, different potential, and simulation software. For the pair Ag-I, there is a discrepancy due to the high silver i
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13

Kalnina, Daina, Karlis Agris Gross, Pavels Onufrijevs, et al. "The Antimicrobial Action of Silver Halides in Calcium Phosphate." Key Engineering Materials 631 (November 2014): 384–89. http://dx.doi.org/10.4028/www.scientific.net/kem.631.384.

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Silver halides represent a yet unexplored avenue for imparting antimicrobial activity in calcium phosphates. Silver halide colloids were added to calcium phosphate. Concurrent melting of silver halides and crystallization of carbonated apatite was achieved by heating to increase the silver halide surface area available to bacteria.Pseudomonas aeruginosa were more sensitive to silver iodide and silver bromide than Staphylococcus aureus. Silver iodide demonstrated greater activity than silver bromide. Silver chloride did not produce an antibacterial response. Both amorphous calcium phosphate and
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14

Markov, Viktor, Talib Farziev, and Nikita Dybin. "Influence of Germanium Sulfide on the Structure, Ag-Ion Conductivity and Stability of Glasses in the GeS2-Sb2S3-AgI System." Solids 6, no. 2 (2025): 22. https://doi.org/10.3390/solids6020022.

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This article discusses the superionic glassy GeS2-Sb2S3-AgI system with mobile silver ions as a material for creating new energy-efficient solid-state ion emitters. The effect of replacing silver iodide with germanium sulfide on the structure of the electrolyte, activation energy of diffusion, and specific ionic conductivity was studied. Electrolytes (2.5 + x)GeS2-27.5Sb2S3-(70 − x)AgI, x = 0, 5, 10, 15 were synthesized using the melt-quenching technique in evacuated quartz ampoules. The temperature dependence of conductivity and glass stability parameters (Hruby’s, Weinberg’s and Lu–Liu’s) we
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15

Chapman, Karena W., Peter J. Chupas, and Tina M. Nenoff. "Radioactive Iodine Capture in Silver-Containing Mordenites through Nanoscale Silver Iodide Formation." Journal of the American Chemical Society 132, no. 26 (2010): 8897–99. http://dx.doi.org/10.1021/ja103110y.

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16

Rendl, J., S. Seybold, and W. Börner. "Urinary iodide determined by paired-ion reversed-phase HPLC with electrochemical detection." Clinical Chemistry 40, no. 6 (1994): 908–13. http://dx.doi.org/10.1093/clinchem/40.6.908.

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Abstract We propose an automated method for the routine analysis of urinary iodide, using paired-ion reversed-phase HPLC with electrochemical detection and a silver working electrode. Assay conditions include a flow rate of 1.0 mL/min and an operating potential of 0.10 V. The retention time for iodide is 5.4 min. Sample preparation can be semiautomated by use of a reduced-pressure manifold. The detection threshold (signal-to-noise ratio of 3) was 2 pmol, corresponding to 0.04 mumol/L. The within-run precision (CV) for a pooled urine sample was 3.9% at 452 nmol/L iodide. The average recovery of
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17

Khairallah, George N., Tom Waters, and Richard A. J. O'Hair. "Letter: Silver Mediated Ester Bond Formation in the Gas Phase: Substrate Structure is Important." European Journal of Mass Spectrometry 13, no. 5 (2007): 367–72. http://dx.doi.org/10.1255/ejms.888.

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The silver acetate cation CH3CO2Ag2+ reacted with allyl iodide via C–O bond coupling to produce Ag2I+ and allyl acetate, but only underwent adduct formation with methyl iodide, highlighting the importance of substrate on reactivity. DFT calculations predicted the reaction with allyl iodide to be exothermic by 0.48 eV and suggested that intermediates in the reaction benefit from multiple interactions between the allyl and iodide moieties of allyl iodide and the two silver atoms in CH3CO2Ag2+.
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18

Wang, Ning, Fenfen Wang, Yeting Liao, Huanhuan Liu, Yijun Li, and Xiwen He. "Potentiometric determination of urinary iodide using a nanoparticle modified carbon paste electrode." Analytical Methods 9, no. 21 (2017): 3159–65. http://dx.doi.org/10.1039/c7ay00358g.

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19

Rajbhandari, Armila, Krishna Manandhar, and Raja Ram Pradhananga. "Preparation of halide sensors by means of co-precipitation of silver sulphide and silver halide." Journal of Nepal Chemical Society 30 (December 19, 2013): 168–73. http://dx.doi.org/10.3126/jncs.v30i0.9390.

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Halide sensors have been prepared in the laboratory by means of co-precipitation of silver sulphide and silver halide and is used for the determination of iodide, bromide and chlorides ions. The iodide sensors show a Nernstian response in the concentration range of 10-1 to 10-6M iodide ions, bromide sensors show a linear response in the concentration range of 10-1 to 10-5M bromide ions while chloride sensors show linear response upto the concentration range of 10-4M chloride ions. The response time of all the electrodes, is &lt; 1minute. The iodide sensors were found to be selective towards io
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20

Blumenstein, R., W. Finnegan, and L. Grant. "Ice Nucleation Silver Iodide-Sodium Iodide: A Reevaluation." Journal of Weather Modification 15, no. 1 (2012): 11–15. http://dx.doi.org/10.54782/jwm.v15i1.74.

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New, preliminary, laboratory studies of the 2Agl.Nal ice nucleus are being conducted in the CSU Isothermal Cloud Chamber. Rates and mechanisms of ice nucleation are investigated using chemical kinetic methodology. Interrelationships between ice nuclei effectiveness, rates and mechanisms of nucleation, and chemical composition are studied. The use of chemical kinetics in the study of ice nucleation is described by DeMott, et al. (1983). The 2Agl.Nal hygroscopic aerosol nucleates the ice phase by a condensation freezing process. This process is sensitive to supersaturation with respect to water.
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21

Kalnina, Daina, Kārlis Agris Gross, Artur Medvids, and Pavels Onufrijevs. "Formation of Negatively Charged AgI Colloid Nanoparticles by Condensation." Advanced Materials Research 1117 (July 2015): 159–63. http://dx.doi.org/10.4028/www.scientific.net/amr.1117.159.

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The stability of silver halide colloids is reported to be important for the toxicological outcome. This study shows a well-suited and cheap condensation reaction to obtain negatively charged silver iodide (AgI) nanoparticles without additional stabilization agents. Charged AgI colloids were synthesized from silver nitrate and potassium iodide solutions. An excess of potassium iodide not only imparted a negative charge, but provided a narrow particle size distribution (50 ± 10 nm). The change of optical properties in the colloid was investigated by UV-VIS spectroscopy. A silver iodide exciton a
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22

McNaughton, D. L. "Experimental Cloud Seeding Program 1976/1977." Journal of Weather Modification 10, no. 1 (2018): 16–20. http://dx.doi.org/10.54782/jwm.v10i1.582.

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Three seasons of single cloud experiments conducted in Rhodesia in 1968/69, 1973/74 and 1974/75 indicated that rainfall could be increased by seeding cumulus clouds with silver iodide, provided that the cloud-top temperatures were colder than about -10°C.... In 1974/75, trials conducted with clouds failing to attain -10°C indicated that silver iodide was nearly always ineffective at these warmer temperatures. It was decided to resume these experiments on warmer clouds in 1976/77, but increasing the quantity of silver iodide used for the seeding, to see whether this succeeded in stimulating rai
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23

Fagerquist, Clifton K., Dilip K. Sensharma, and Mostafa A. El-Sayed. ""Mixed" metallic-ionic clusters of silver/silver iodide." Journal of Physical Chemistry 95, no. 23 (1991): 9169–75. http://dx.doi.org/10.1021/j100176a026.

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24

Adams, St, K. Hariharan, and J. Maier. "Investigations on silver iodide silver oxysalt glass ceramics." Solid State Ionics 86-88 (July 1996): 503–9. http://dx.doi.org/10.1016/0167-2738(96)00184-1.

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25

Niklasson, G. A., K. Brantervik, and L. Börjesson. "Conductivity relaxation in silver iodide-silver borate glasses." Journal of Non-Crystalline Solids 131-133 (June 1991): 1096–98. http://dx.doi.org/10.1016/0022-3093(91)90732-l.

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26

Cha, Ji-Hyun, and Duk-Young Jung. "Air-Stable Transparent Silver Iodide–Copper Iodide Heterojunction Diode." ACS Applied Materials & Interfaces 9, no. 50 (2017): 43807–13. http://dx.doi.org/10.1021/acsami.7b14378.

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27

Patnaik, J. R. G., and C. S. Sunandana. "Studies on gamma silver iodide." Journal of Physics and Chemistry of Solids 59, no. 6-7 (1998): 1059–69. http://dx.doi.org/10.1016/s0022-3697(97)00243-6.

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28

Scrosati, B. "Silver rubidium iodide solid electrolyte." Journal of Applied Chemistry and Biotechnology 21, no. 8 (2007): 223–28. http://dx.doi.org/10.1002/jctb.5020210802.

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29

Zhang, Aiping, Xiaoyun Tie, Jinzhi Zhang, Yanwei An, and Lingjie Li. "Adsorption of iodide and iodate on colloidal silver surface." Applied Surface Science 255, no. 5 (2008): 3184–87. http://dx.doi.org/10.1016/j.apsusc.2008.09.016.

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30

Nyachhyon, A., A. P. Yadav, Krishna Manandhar, and Raja Ram Pradhananga. "Iodide Ion Sensor for Indirect Determination of As (III) in Water." Advanced Materials Research 117 (June 2010): 93–98. http://dx.doi.org/10.4028/www.scientific.net/amr.117.93.

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A simple, low cost and portable iodide sensor for the indirect determination of As(III) has been developed from the polycrystalline material obtained by co-precipitation of silver sulphide and silver iodide from aqueous solution. The Ag2S-AgI sensor was found to behave well up to the iodide concentration of 1×10-6 M with a Nernstian slope 57.5 mV per decade change in concentration. The selectivity coefficient of sensor containing iodide ion in the presence of Br- and Cl- ions was found to be 1.77 × 10-2 and 7.94 × 10-3, respectively indicating that these ions do not interfere in the response o
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31

Inglezakis, Vassilis J., Aliya Satayeva, Almira Yagofarova, et al. "Surface Interactions and Mechanisms Study on the Removal of Iodide from Water by Use of Natural Zeolite-Based Silver Nanocomposites." Nanomaterials 10, no. 6 (2020): 1156. http://dx.doi.org/10.3390/nano10061156.

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In this work a natural zeolite was modified with silver following two different methods to derive Ag2O and Ag0 nanocomposites. The materials were fully characterized and the results showed that both materials were decorated with nanoparticles of size of 5–25 nm. The natural and modified zeolites were used for the removal of iodide from aqueous solutions of initial concentration of 30–1400 ppm. Natural zeolite showed no affinity for iodide while silver forms were very efficient reaching a capacity of up to 132 mg/g. Post-adsorption characterizations showed that AgI was formed on the surface of
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32

Jaya, S., T. Prasada Rao, and G. Prabhakara Rao. "Mono- and multilayer formation studies of silver iodide on silver electrode from iodide-containing solutions." Journal of Applied Electrochemistry 17, no. 5 (1987): 997–1001. http://dx.doi.org/10.1007/bf01024366.

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33

Kato, Yuichi, Luis K. Ono, Michael V. Lee, Shenghao Wang, Sonia R. Raga, and Yabing Qi. "Silver Iodide Formation in Methyl Ammonium Lead Iodide Perovskite Solar Cells with Silver Top Electrodes." Advanced Materials Interfaces 2, no. 13 (2015): 1500195. http://dx.doi.org/10.1002/admi.201500195.

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34

Nicholas, Aaron D., Francis H. Barnes, Daniel R. Adams, et al. "Understanding the vapochromic response of mixed copper(i) iodide/silver(i) Iodide nanoparticles toward dimethyl sulfide." Physical Chemistry Chemical Physics 22, no. 20 (2020): 11296–306. http://dx.doi.org/10.1039/d0cp00504e.

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35

Rajbandari, A., K. Manandhar, and RR Pradhananga. "A study on the surface deterioration of home made halide sensors." BIBECHANA 9 (December 5, 2012): 1–6. http://dx.doi.org/10.3126/bibechana.v9i0.7143.

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Home made halide sensors based on silver sulphide-silver halide have been prepared and successfully employed for the determination of iodide, bromide and chlorides ions in solutions. These ion sensors showed a Nernstian response in the concentration range of 10-1 to 10-7 M for iodide ions, 10-6 M for bromide ions, and 10-5 M for chloride ions. The response time of these sensors was &lt; 1 min. We have found that the iodide ion sensor can selectively detect iodide ions in presence of chloride and bromide ions. However, sensing performance of the bromide and chloride sensors are largely interfer
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36

KONDO, Tetsuya, Seishi MASAKI, Hiroyuki INOUE, and Koji YAMAKAWA. "Silver plating from silver methane sulfonate-potassium iodide baths." Journal of the Surface Finishing Society of Japan 42, no. 2 (1991): 241–45. http://dx.doi.org/10.4139/sfj.42.241.

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37

Gratzl, Miklós, Erno Pungor, and Richard P. Buck. "Impedance measurements for pressed-pellet electrode membranes based on silver iodide and silver iodide/silver sulfide with solution contacts." Analytica Chimica Acta 189 (1986): 217–28. http://dx.doi.org/10.1016/s0003-2670(00)83724-1.

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38

Ullah Khan, Misbah. "Silver Iodide Nanostructures in Aquaculture and Fisheries." Aquaculture & Fisheries 8, no. 3 (2024): 1–8. https://doi.org/10.24966/aaf-5523/100096.

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39

Averkina, Anastasiia S. "PROSPECTS FOR APPLICATION OF HYBRID POWDER MATERIAL AgI-SiO2 CONTAINING ANTI-HAIL ROCKET FUEL." Bulletin of the Saint Petersburg State Institute of Technology (Technical University) 67 (2023): 15–19. http://dx.doi.org/10.36807/1998-9849-2023-67-93-15-19.

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The work proposes new hybrid powder materials as sediment-converting reagents used in geoengineering technologies (technologies for artificial precipitation management). Hybrid powder materials AgI-SiO2 are mesophase mesoporous silicon dioxide with silver iodide. They were obtained through the “Paste Formation” process, which involves constant mixing of an aqueous condensed suspension of silicon dioxide of various types with the sequential addition of silver nitrate and potassium iodide. The characteristic features of the synthesized AgI-SiO2 hybrids were studied using instrumental methods of
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Kuo, E. Y., D. J. Gregg, E. R. Vance, E. R. Maddrell, and G. R. Lumpkin. "Radioactive Iodine-129 Capture in Mixed Cation Sodalites: ab initio Modelling." MRS Advances 3, no. 20 (2018): 1105–10. http://dx.doi.org/10.1557/adv.2018.249.

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Abstract:Sodalites have been investigated experimentally for the capture and long-term containment of 129I, a significant and hazardous waste product of the nuclear fuel cycle. Sodalites are zeolite-type structures commonly occurring in nature in alkaline igneous rocks and having the prototype formula Na8(AlSiO4)6Cl2. The crystal structure is based around β-cages consisting of corner-sharing SiO4 and AlO4 tetrahedra. In the centre of the β-cage is an anion X. Iodine captured by sodalites sits in the centre of the β-cages as iodide anions. Silver iodide (AgI) plays an important role in the capt
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Gasparyan, M. D., V. N. Grunskii, Yu S. Mochalov, et al. "Localization of Vapors of Cesium Iodide on Ceramic Block-Cellular Contact Elements in an Oxidizing Environment." Теоретические основы химической технологии 57, no. 6 (2023): 720–30. http://dx.doi.org/10.31857/s0040357123060064.

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The efficiency of separate trapping of cesium oxide and molecular iodine formed during oxidative thermolysis of cesium iodide in the process of chemisorption on ceramic highly porous block-cellular contact elements is investigated. The dynamic sorption capacity of contact elements with an applied aluminosilicate sorption-active layer and with an active layer of silver nitrate for cesium and iodine, respectively, is determined. The developed contact elements are recommended for use in systems of local gas purification of hightemperature processing stages of recycling of spent nuclear fuel.
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Fisher, James M., Marion L. Lytle, Melvin L. Kunkel, et al. "Assessment of Ground-Based and Aerial Cloud Seeding Using Trace Chemistry." Advances in Meteorology 2018 (2018): 1–15. http://dx.doi.org/10.1155/2018/7293987.

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Targeting seedable clouds with silver iodide in complex terrain adds considerable uncertainty in weather modification studies. This study explores the geographic and temporal distribution of silver iodide associated with an active cloud seeding program in central Idaho snowpack using trace chemistry. Over 4,000 snow samples were analyzed for the presence of a cloud seeding silver iodide (AgI) signature over two winter seasons. The results indicate the following. (1) At sites within 70 km of AgI sources, silver enrichments were detected at 88% of cases involving seeding efforts from ground gene
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Martin, Steve W., and Alberto Schiraldi. "Glass formation and high conductivity in the ternary system silver iodide + silver arsenate (Ag3AsO4) + silver metaphosphate (AgPO3): host to glassy .alpha.-silver iodide?" Journal of Physical Chemistry 89, no. 10 (1985): 2070–76. http://dx.doi.org/10.1021/j100256a054.

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Nield, V. M., and W. Hayes. "Fast-Ion Conduction in Silver Iodide." Defect and Diffusion Forum 125-126 (March 1995): 37–64. http://dx.doi.org/10.4028/www.scientific.net/ddf.125-126.37.

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Araki, Hideaki, Takahiro Koishi, and Shigeru Tamaki. "Transport Properties in Molten Silver Iodide." Journal of the Physical Society of Japan 68, no. 1 (1999): 134–39. http://dx.doi.org/10.1143/jpsj.68.134.

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Vance, E. R., D. J. Gregg, C. Grant, A. Stopic, and E. R. Maddrell. "Silver iodide sodalite for 129I immobilisation." Journal of Nuclear Materials 480 (November 2016): 177–81. http://dx.doi.org/10.1016/j.jnucmat.2016.08.013.

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Vargas, R. "Anomalous specific heat of silver iodide." Solid State Ionics 37, no. 2-3 (1990): 209–12. http://dx.doi.org/10.1016/0167-2738(90)90245-m.

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Ahmad, Sohail, M. Ajmal Khan, and M. A. Wahab. "Molecular Dynamics Study of Silver Iodide." Materials Focus 2, no. 4 (2013): 293–97. http://dx.doi.org/10.1166/mat.2013.1092.

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Mochizuki, Shosuke, and Fumito Fujishiro. "Excitons in pristine silver iodide crystals." physica status solidi (c) 3, no. 10 (2006): 3586–91. http://dx.doi.org/10.1002/pssc.200672144.

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Ghareep, Sara Mohamed Ezz Eldeen, Fatma Abd Almoniem Elhendawy, Arafa Mohamed Khatab, and Wessam Hatem Saad Amer. "Nano silver fluoride versus silver diamine fluoride with potassium iodide on carious dentine of primary teeth." Tanta Dental Journal 20, no. 4 (2023): 365–70. http://dx.doi.org/10.4103/tdj.tdj_31_23.

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Background Dental caries is one of the most prevalent diseases, and treating carious lesions remains a major concern, especially in pediatric dentistry. Minimally invasive interventions have been proposed as a promising treatment modality for caries control. Aim This study evaluated nano silver fluoride versus silver diamine fluoride with potassium iodide for the treatment of carious dentine in primary teeth. Material and methods This in vivo study was performed on 30 children presented with 60 primary molars with soft dentinal lesions. Carious teeth were assigned into two equal groups: group
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