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Journal articles on the topic 'Silver bromate'

Author: Grafiati
Published: 4 June 2021
Last updated: 5 February 2022

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1

Ruoff, Peter, Margit Varga, and Endre Koros. "Silver bromate precipitation in bromate oscillators treated with excess silver ion. A comment." Journal of Physical Chemistry 91, no. 16 (1987): 4431–32. http://dx.doi.org/10.1021/j100300a047.

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2

Dash, Upendra Nath, Banka Behari Das, Uttam Kumar Biswal, and Tapodhan Panda. "Thermodynamics of silver-silver bromate, silver-silver iodate, silver-silver sulphate, silver-silver chromate and silver-silver dichromate electrodes i." Thermochimica Acta 91 (September 1985): 329–36. http://dx.doi.org/10.1016/0040-6031(85)85225-4.

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3

Himata, Katsuichi, Masaaki Noda, Susumu Ando, and Yuji Yamada. "Measurement of Bromate in Bread by Liquid Chromatography with Post-Column Flow Reactor Detection." Journal of AOAC INTERNATIONAL 83, no. 2 (2000): 347–55. http://dx.doi.org/10.1093/jaoac/83.2.347.

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Abstract This method is suitable for the determination of bromate residues in a variety of baked goods. The peer-verified method trial was performed on white bread, multigrain bread, and coffee cake spiked with known levels of potassium bromate. The analytical portion is extracted with deionized water to remove bromate from the bulk of the baked product. The aqueous extract is carried through a series of steps to remove co-extractives that would interfere with the liquid chromatography (LC) in the determinative step or hasten the deterioration of the LC column. The extract is filtered before p
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4

Choi, J. S., H. Lee, Y. K. Park, et al. "Application of Silver and Silver Oxide Nanoparticles Impregnated on Activated Carbon to the Degradation of Bromate." Journal of Nanoscience and Nanotechnology 16, no. 5 (2016): 4493–97. http://dx.doi.org/10.1166/jnn.2016.10986.

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5

Gong, Chenhao, Zhongguo Zhang, Qingli Qian, Dan Liu, Yanjun Cheng, and Guoqing Yuan. "Removal of bromide from water by adsorption on silver-loaded porous carbon spheres to prevent bromate formation." Chemical Engineering Journal 218 (February 2013): 333–40. http://dx.doi.org/10.1016/j.cej.2012.12.059.

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6

Treindl, Ludovit, and Marta Mrakavova. "Spectrophotometric study of bromate-driven oscillations in the presence of silver ions." Journal of Physical Chemistry 92, no. 5 (1988): 1138–40. http://dx.doi.org/10.1021/j100316a027.

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7

Ruoff, Peter, and Jostein Vestvik. "Potentiometric and spectrophotometric studies of the silver bromide reaction in 1 M sulfuric acid and its relevance to silver ion perturbed bromate-driven oscillators." Journal of Physical Chemistry 93, no. 23 (1989): 7798–801. http://dx.doi.org/10.1021/j100360a015.

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8

Cui, Yanfeng, Xiangfei Zhang, Yaping Dong та Wu Li. "Crystal structure of poly[1,2-bis(1,2,4-triazol-4-yl)ethane-κ2N:N′]silver(I) bromate monohydrate]silver(I), C6H10AgBrN6O4". Zeitschrift für Kristallographie - New Crystal Structures 232, № 4 (2017): 599–601. http://dx.doi.org/10.1515/ncrs-2016-0364.

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9

Varga, Margit, and Endre Koros. "Thorough study of bromide control in bromate oscillators. 4. A quantitative and comparative study on silver ion perturbed Belousov-Zhabotinsky systems." Journal of Physical Chemistry 90, no. 18 (1986): 4373–76. http://dx.doi.org/10.1021/j100409a032.

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10

Schwitters, Bengt, and Peter Ruoff. "Simulation of bromate-driven oscillations in the presence of excess silver ions using the Oregonator model." Journal of Physical Chemistry 90, no. 11 (1986): 2497–501. http://dx.doi.org/10.1021/j100402a046.

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11

Li, Qin, Qiu Zhang, Liang Ding, et al. "Synthesis of silver/multi-walled carbon nanotubes composite and its application for electrocatalytic reduction of bromate." Chemical Engineering Journal 217 (February 2013): 28–33. http://dx.doi.org/10.1016/j.cej.2012.12.005.

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12

Varghese, Antony V., and C. Kalidas. "Thermodynamics of Transfer and Solvent Transport of Silver(I) Sulphate, Bromate and Iodate in Ethanol-Pyridine Mixtures." Physics and Chemistry of Liquids 34, no. 4 (1997): 221–32. http://dx.doi.org/10.1080/00319109708030566.

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13

Liu, Ye, Pei Gu, and Yaling Liu. "Determination of four additives in cakes by large volume gradient ion chromatography." E3S Web of Conferences 300 (2021): 01024. http://dx.doi.org/10.1051/e3sconf/202130001024.

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This paper aims to establish a detection method for simultaneous determining four additives in flour products: one simultaneously determines the acesulfame, sodium cyclamate, bromate, and calcium propionate through the selection of ion chromatography pump flow rate, injection volume, eluent concentration, optimization of sample pretreatment and the influence of interfering ions. When using the pump flow rate of 0.8 ml/min, 200 µL large volume injection, 0-14 min, 14-25 min eluent concentration 30 mmol/L gradient elution, 25-26 min eluent concentration 6 mmol/L, flour product is pulverized afte
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14

Hu, Xiao Jian, Wen Chen, Li Li, Jin Ping Zhou, Bao Shou Guo, and Ming Zeng. "The Study on Organic Acid Detection Using Lon Chromatography." Advanced Materials Research 424-425 (January 2012): 923–26. http://dx.doi.org/10.4028/www.scientific.net/amr.424-425.923.

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A simple and convenient method for the determination of μ g/l level in the real drinking water bromate overcome traditional methods of defects. Argentina by electrolyzing the smallest electrode interference and then focus on extra chlorine use microwave technology foundation evaporation and concentration, the proposed method is very sensitive to the determination of trace level of the sales of the drinking water. And a microwave oven, drinking water ten times the sample can be concentrated in 10 minutes can get and good recovery. Treatment of the silver electrode, the method of interference, a
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15

Casella, Innocenzo G., and Mariagiovanna Ritorti. "Electrodeposition of silver particles from alkaline aqueous solutions and their electrocatalytic activity for the reduction of nitrate, bromate and chlorite ions." Electrochimica Acta 55, no. 22 (2010): 6462–68. http://dx.doi.org/10.1016/j.electacta.2010.06.038.

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16

Manivel, Arumugam, Radhakrishnan Sivakumar, Sambandam Anandan, and Muthupandian Ashokkumar. "Ultrasound-Assisted Synthesis of Hybrid Phosphomolybdate–Polybenzidine Containing Silver Nanoparticles for Electrocatalytic Detection of Chlorate, Bromate and Iodate Ions in Aqueous Solutions." Electrocatalysis 3, no. 1 (2011): 22–29. http://dx.doi.org/10.1007/s12678-011-0072-z.

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17

Försterling, H. D., and H. Schreiber. "Reaction of Bromous Acid with Bromide in the Presence of Silver Ions." Zeitschrift für Naturforschung A 43, no. 11 (1988): 956–60. http://dx.doi.org/10.1515/zna-1988-1107.

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Abstract The reaction HBrO2 + Br- + H + →2 HOBr, which is the most important control reaction in the Belousov-Zhabotinsky (BZ) system, is investigated in competition to the AgBr precipitation reaction Ag+ + Br- →AgBr. It turns out that the bromite-bromide reaction starts even in the presence of Ag+ in high concentration; the rate of consumption of bromite by bromide, however, is slowed down significantly if silver ions are present in the system. The experiments reveal that the AgBr precipita­ tion reaction proceeds in a series of several steps, starting with a fast equilibrium. This way differ
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18

Jahnke, Mareike C., and F. Ekkehardt Hahn. "Synthesis and coordination chemistry of silver(I), gold(I) and gold(III) complexes with picoline-functionalized benzimidazolin-2-ylidene ligands." Zeitschrift für Naturforschung B 76, no. 8 (2021): 463–73. http://dx.doi.org/10.1515/znb-2021-0087.

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Abstract The reactions of N-alkyl-N′-picolyl-benzimidazolium bromides or N,N′-dipicolyl-benzimidazolium bromide with silver oxide yielded the silver dicarbene complexes of the type [Ag(NHC)2][AgBr2] 1–4 (NHC = picoline-functionalized benzimidazolin-2-ylidene). The silver complexes 1–4 have been used in carbene transfer reactions to yield the gold(I) complexes of the type [AuCl(NHC)] 5–8 in good yields. A halide exchange at the metal center of complexes 5–8 with lithium bromide yielded the gold bromide complexes 9–12. Finally, the oxidation of the gold(I) centers in complexes 9–12 with elementa
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19

Jiaming, Liu, Lin Xuan, Wu Aihong та ін. "Determination of trace silver by solid substrate-room temperature phosphorescence quenching method based on double catalytic system of meta-nitrophenyfluorone-polyoxyethylene-chromium-potassium bromate-β-cyclodextrin". Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy 65, № 1 (2006): 106–12. http://dx.doi.org/10.1016/j.saa.2005.09.041.

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20

Xu, Zhixiang, Jianyuan Zhang, Haiqin Liu, Pengpeng Kuang, Shuang Wang, and Xiaoqi Fu. "Preparation of silver/silver bromide/titanium dioxide/graphene oxide nanocomposite for photocatalytic degradation of 4-chlorophenol." Nanomaterials and Nanotechnology 7 (January 1, 2017): 184798041772404. http://dx.doi.org/10.1177/1847980417724046.

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A ultaviolet–visible light responded photocatalytic nanocomposite, silver/silver bromide/titanium dioxide, supported on graphene oxide (GO; silver/silver bromide/titanium dioxide/GO) was fabricated via a layer intercalation method using n-butylamine, cetyltrimethyl ammonium bromide, titanium dioxide and silver/silver bromide-intercalated GO successively. The resultant silver/silver bromide/titanium dioxide/GO exhibited much stronger visible light absorption and enhanced photocatalytic efficiency than titanium dioxide/GO and titanium dioxide. Furthermore, the degradation efficiency of silver/si
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21

Cui, Hao, and Corby Anderson. "Hydrometallurgical Treatment of Waste Printed Circuit Boards: Bromine Leaching." Metals 10, no. 4 (2020): 462. http://dx.doi.org/10.3390/met10040462.

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This paper demonstrates the recovery of valuable metals from shredded Waste Printed Circuit Boards (WPCBs) by bromine leaching. Effects of sodium bromide concentration, bromine concentration, leaching time and inorganic acids were investigated. The most critical factors are sodium concentration and bromine concentration. It was found that more than 95% of copper, silver, lead, gold and nickel could be dissolved simultaneously under the optimal conditions: 50 g/L solid/liquid ratio, 1.17 M NaBr, 0.77 M Br2, 2 M HCl, 400 RPM agitation speed and 23.5 °C for 10 hours. The study shows that the diss
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22

Li, Ya Ling, Jia Ning Ning, Yuan Mei Chen, Guang Fei Liu, and Guo Qing Zhang. "Preparation and Characterization of Silver Myristate/AgBr Composite Particles." Materials Science Forum 663-665 (November 2010): 1089–92. http://dx.doi.org/10.4028/www.scientific.net/msf.663-665.1089.

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Silver myristate/AgBr composite particles were prepared by using silver nitrate, sodium hydroxide, myristic acid, and sodium bromide as raw materials and PVP as surfactant in water-alcohol system and characterized by scanning electron microscopy (SEM), X-ray powder diffraction (XRD), ultraviolet-visible spectroscopy (UV) and differential scanning calorimetry (DSC). The results showed that silver myristate/AgBr composite particles are composed of rod-like silver myristate grains with a layer structure and small silver bromide particles formed on the surface of silver myristate. Silver bromide c
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23

Cingolani, Augusto, Effendy, John V. Hanna, et al. "Crystal Structures and Vibrational and Solution and Solid-State (CPMAS) NMR Spectroscopic Studies in Triphenyl Phosphine, Arsine, and Stibine Silver(I) Bromate Systems, (R3E)xAgBrO3(E = P, As, Sb;x= 1−4)." Inorganic Chemistry 42, no. 16 (2003): 4938–48. http://dx.doi.org/10.1021/ic034243e.

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24

Kogan, V. S., and I. V. Berkovich. "Silver, gold and palladium leaching from electronic scrap using bromine- bromide solution." Kompleksnoe Ispolʹzovanie Mineralʹnogo syrʹâ/Complex Use of Mineral Resources/Mineraldik Shikisattardy Keshendi Paidalanu 4, no. 311 (2019): 35–47. http://dx.doi.org/10.31643/2019/6445.36.

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25

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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26

Deýlová, Dana, Jiří Barek, and Vlastimil Vyskočil. "Voltammetric determination of 6-nitrobenzimidazole in the presence of surfactants." Collection of Czechoslovak Chemical Communications 76, no. 11 (2011): 1317–25. http://dx.doi.org/10.1135/cccc2011040.

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Determination of 6-nitrobenzimidazole by differential pulse voltammetry at a hanging mercury drop electrode, a polished silver solid amalgam electrode and a mercury meniscus modified silver solid amalgam electrode was studied in the presence of the surfactants Triton X-100, cetyltrimethylammonium bromide and sodium dodecyl sulfate. It was found that only cetyltrimethylammonium bromide at polished silver solid amalgam electrode increases the voltammetric signal. This fact was used for the determination of 6-nitrobenzimidazole in the concentration range from 1 × 10–7 to 1 × 10–4 mol l–1 by diffe
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27

Krijt, J., and P. S. Hofman. "Preparation of silver sulfate from silver bromide." Recueil des Travaux Chimiques des Pays-Bas 84, no. 6 (2010): 681–82. http://dx.doi.org/10.1002/recl.19650840602.

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28

HALFORD, BETHANY. "SILVER BROMIDE BACTERIA FIGHTER." Chemical & Engineering News 84, no. 29 (2006): 8. http://dx.doi.org/10.1021/cen-v084n029.p008a.

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29

Król-Gracz, Agnieszka, Ewa Michalak, Piotr Nowak, and Agnieszka Dyonizy. "Photo-induced chemical reduction of silver bromide to silver nanoparticles." Open Chemistry 9, no. 6 (2011): 982–89. http://dx.doi.org/10.2478/s11532-011-0085-8.

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AbstractThis paper discusses the experimental results of the production of nanocolloidal silver using photoreduction method. Ultrafine crystalline gelatine-stabilised aqueous suspensions of silver bromide were used as a substrate for the synthesis of silver nanoparticles (Ag NPs). The influences of the reductant to substrate molar ratio, the medium’s pH, the type of the source of actinic radiation and the time of exposure to the efficient production of the Ag NPs were studied. A typical reaction was suggested, which involves the photo-induced reduction of silver bromide nanocrystals in the pre
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30

Kogan, V. S., and I. V. Berkovich. "Silver, gold and palladium leaching from pre-prepared electronic scrap using bromine-bromide solution." Kompleksnoe Ispolʹzovanie Mineralʹnogo syrʹâ/Complex Use of Mineral Resources/Mineraldik Shikisattardy Keshendi Paidalanu 3, no. 310 (2019): 55–63. http://dx.doi.org/10.31643/2019/6445.29.

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31

Baetzold, R. C. "Properties of Silver Clusters Adsorbed to Silver Bromide." Journal of Physical Chemistry B 105, no. 17 (2001): 3577–86. http://dx.doi.org/10.1021/jp003860a.

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32

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 < 1minute. The iodide sensors were found to be selective towards io
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33

Smirnov, Alexander P., and Mikhail A. Goryaev. "Dye-sensitized photoprocesses in “silver stearate – silver bromide” system." Physics of Complex Systems 1, no. 1 (2020): 10–14. http://dx.doi.org/10.33910/2687-153x-2020-1-1-10-14.

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34

PEPPLER, K., and J. JANEK. "Cathodic deposition of silver on silver bromide at microelectrodes." Solid State Ionics 177, no. 19-25 (2006): 1643–48. http://dx.doi.org/10.1016/j.ssi.2005.12.012.

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35

Król-Gracz, A., P. Nowak, E. Michalak, and A. Dyonizy. "Hydroquinone Synthesis of Silver Nanoparticles from Silver Bromide Suspensions." Acta Physica Polonica A 121, no. 1 (2012): 196–99. http://dx.doi.org/10.12693/aphyspola.121.196.

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36

Whitfield, Dennis M., Caroline J. Ruzicka, Jeremy P. Carver та Jiri J. Krepinsky. "Syntheses of model oligosaccharides of biological significance. 9. Syntheses of trideuteriomethyl di-3,6-O-(2-acetamido-2-deoxy-β-D-glucopyranosyl)-β-D-galactopyranoside: the I antigen branch-point trisaccharide and related disaccharides". Canadian Journal of Chemistry 65, № 4 (1987): 693–703. http://dx.doi.org/10.1139/v87-118.

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The title trisaccharide, 13c, was synthesized, as well as its two component disaccharides, 10c and 11c. Four disaccharides, 3c, 4c, 5c, and 7c, were also prepared to serve as model compounds for the investigation of the 3-dimensional structure of more complex oligosaccharides. The β-1,3 linkage was formed in 75% yield by coupling 3,4,6-tri-O-acetyl-2-deoxy-2-phthalimido-β-D-glucopyranosyl bromide (9) with trideuteriomethyl 2-O-benzoyl-4,6-benzylidene-β-D-galactopyranoside (2a), using silver trifluoromethanesulphonate as a promoter in the presence of the base 2,6-di-tert-butyl-4-methylpyridine.
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37

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 < 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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38

Grishina, E. P., and L. M. Ramenskaya. "Silver cementation on copper in 1-butyl-3-methylimidazolium bromide–silver bromide ionic liquid medium." Journal of Molecular Liquids 248 (December 2017): 963–71. http://dx.doi.org/10.1016/j.molliq.2017.10.118.

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39

Näther, Christian, and Andreas Beck. "Synthesis, Crystal Structure and Thermal Properties of Silver(I) Bromide Ethylenediamine Coordination Polymers." Zeitschrift für Naturforschung B 59, no. 9 (2004): 992–98. http://dx.doi.org/10.1515/znb-2004-0908.

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Reaction of silver(I) bromide with ethylenediamine (en) leads to the formation of the 1:1 compound poly[AgBr(μ2-en-N,N’)] (I). In the crystal structure the silver atoms of AgBr dimers are connected to two bridging bromine atoms and two nitrogen atoms of different en ligands. The dimers are thus connected by the ligands into layers via μ-N,N’ coordination. In the 2:1 coordination polymer poly[(AgBr)2(μ2-en-N,N’)] (II) a three-dimensional AgBr substructure occur which consists of helical AgBr chains that are connected via peripheral Ag-Br contacts into a three-dimensional network that contains l
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40

Nakahara, Hideomi, Ikumi Yonekura, Akio Sato, et al. "Plasmid-Determined Resistance to Silver in Enterobacter cloacae Isolated from Sewage." Water Science and Technology 21, no. 3 (1989): 275–78. http://dx.doi.org/10.2166/wst.1989.0117.

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Microbial silver toxicity is found in situations of industrial pollution, especially those associated with the use of photographic film. In hospitals, silver salts are the preferred antimicrobial agents for burns. It is well known that silver-resistant bacteria with plasmids (extrachromosomal DNA molecules) encoded for silver resistance can be isolated from polluted industrial sites and hospitals. The silver resistance of five strains of Enterobactercloacae isolated from contaminated sewage was investigated. In one of these strains, a high frequency of inactivation of silver resistance was ach
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41

Yang, Xiao Hong, Jiang Jie Wang, Jun Yan Ge, Jin Sheng Wang, and Feng Qiang Dong. "Controlled Synthesis of Water Soluble Silver Nanoparticles and the Molluscicidal Effect." Advanced Materials Research 399-401 (November 2011): 527–31. http://dx.doi.org/10.4028/www.scientific.net/amr.399-401.527.

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The silver nanoparticles with 42 nm in diameter were synthesized under control of cetyltrimethyl ammonium bromide (CTAB). CTAB acted not only as reactant but also as dispersing agent. The efficient molluscicidal effect of the silver nanoparticles showed that a new way of the schistosomiasis prevention has been explored.
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42

Williams, Neil A., Mahboub Merzouk, and Peter B. Hitchcock. "Synthesis of Silver (I) Complexes of Iminoalkyl Functionalised -Heterocyclic Carbenes." International Journal of Inorganic Chemistry 2010 (June 10, 2010): 1–5. http://dx.doi.org/10.1155/2010/628639.

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A range of silver iminoalkyl imidazol-2-ylidene complexes have been isolated in good yield (50%–85%) and characterised by and NMR spectroscopy. A single crystal X-ray diffraction structure determination of 1--(benzylhydrylidene-amino)-ethyl-benzyl imidazol-2-ylidene silver bromide indicated monodentate coordination of the ligand.
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43

Wonnell, S. K., and L. M. Slifkin. "Subsurface ionic space charges in silver chloride and silver bromide." Solid State Ionics 75 (January 1995): 101–6. http://dx.doi.org/10.1016/0167-2738(94)00149-m.

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44

Su, Zhe, Sisi Huang, Meng He, et al. "Synthesis and Antibacterial Performance of Silver Bromide and Silver Nanoparticles." Journal of Nanoengineering and Nanomanufacturing 4, no. 4 (2014): 330–35. http://dx.doi.org/10.1166/jnan.2014.1207.

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45

Mason, M. G., Y. T. Tan, T. J. Miller, G. N. Kwawer, F. C. Brown, and A. B. Kunz. "Partial densities of states for silver bromide and silver iodobromide." Physical Review B 42, no. 5 (1990): 2996–3003. http://dx.doi.org/10.1103/physrevb.42.2996.

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46

Greening, Giorgio G. W. "UV-VIS Absorption Spectra of Molten AgCl and AgBr and of their Mixtures with Group I and II Halide Salts." Zeitschrift für Naturforschung A 70, no. 10 (2015): 787–90. http://dx.doi.org/10.1515/zna-2015-0197.

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AbstractThe UV-VIS absorption spectra of (Ag1-X[Li-Cs, Ba]X)Cl and of (Ag1-X[Na, K, Cs]X)Br at 823 K at the concentrations X=0.0, 0.1, 0.2 have been measured. The findings show that on adding the respective halides to molten silver chloride and silver bromide, shifts of the fundamental absorption edge to shorter wavelengths result. A correlation between the observed shifts and the expansion of the silver sub-lattice is found, which is valid for both silver halide systems studied in this work.
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47

Hackenberg, Frauke, Anthony Deally, Grainne Lally, et al. "Novel Nonsymmetrically p-Benzyl-Substituted (Benz)imidazole N-Heterocyclic Carbene-Silver(I) Acetate Complexes: Synthesis and Biological Evaluation." International Journal of Inorganic Chemistry 2012 (March 1, 2012): 1–13. http://dx.doi.org/10.1155/2012/121540.

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Nonsymmetrically substituted N-heterocyclic carbene (NHC) precursors 1a–d and 3a–d were synthesised by first reacting 1H-(benz)imidazole with p-cyanobenzyl bromide to give 4-(1H-imidazole-1-ylmethyl)benzonitrile (1) and 4-(1H-benzimidazole-1-ylmethyl)benzonitrile (3) and afterwards introducing benzyl bromide, 1-(bromomethyl)-4-methylbenzene, 1-(bromomethyl)-4-methoxybenzene, and methyl 4-(bromomethyl)benzoate. The NHC-silver(I) acetate complexes (1-benzyl-3-(4-cyanobenzyl)-2,3-dihydro-1H-imidazole-2-ylidene) silver(I) acetate (2a), (1-(4-cyanobenzyl)-3-(4-methylbenzyl)-2,3-dihydro-1H-imidazole
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48

Blachnik, Roger, Kerstin Hackmann, and Hans-Peter Baldus. "Neue Phosphorchalkogenahalogenide / New Phosphorus Chalcogena Halides." Zeitschrift für Naturforschung B 46, no. 9 (1991): 1165–68. http://dx.doi.org/10.1515/znb-1991-0905.

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α-P4Se3Br2 and α-P4Se3CL2 were prepared from α-P4Se3I2 by reaction with silver bromide resp. silver chloride in CS2-solution. Using bismuth or mercury halides it was also possible to obtain β-P4X3Br2 and β-P4X3Cl2 from β-P4X3I2 (X = S, Se). The 31P NMR data of these compounds are given.
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49

Aduev, B. P., É. D. Aluker, V. M. Fomchenko, and V. N. Shvaiko. "Anomalous pulsed conductivity of silver bromide." Technical Physics Letters 27, no. 4 (2001): 292–94. http://dx.doi.org/10.1134/1.1370204.

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50

Maier, Joachim. "Heterogeneous doping of silver bromide (AgBr:Al2O3)." Materials Research Bulletin 20, no. 4 (1985): 383–92. http://dx.doi.org/10.1016/0025-5408(85)90005-4.

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