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Articoli di riviste sul tema "Silicotitanates"

Autore: Grafiati
Pubblicato: 26 settembre 2023

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1

Su, Yali, Mari Lou Balmer e Bruce C. Bunker. "Raman Spectroscopic Studies of Silicotitanates". Journal of Physical Chemistry B 104, n. 34 (agosto 2000): 8160–69. http://dx.doi.org/10.1021/jp0018807.

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2

Xu, Hongwu, Alexandra Navrotsky, May D. Nyman e Tina M. Nenoff. "Thermochemistry of microporous silicotitanate phases in the Na2O–Cs2O–SiO2–TiO2–H2O system". Journal of Materials Research 15, n. 3 (marzo 2000): 815–23. http://dx.doi.org/10.1557/jmr.2000.0116.

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Abstract (sommario):
Microporous silicotitanates can potentially be used as ion exchangers for removal of Cs+ from radioactive waste solutions. The enthalpies of formation from constituent oxides for two series of silicotitanates at 298 K have been determined by drop-solution calorimetry into molten 2PbO · B2O3 at 974 K: the (Na1−xCsx)3Ti4Si3O15(OH) · nH2O (n = 4 to 5) phases with a cubic structure (P43m), and the (Na1−xCsx)3Ti4Si2O13(OH) · nH2O (n = 4 to 5) phases with a tetragonal structure (P42/mcm). The enthalpies of formation from the oxides for the cubic series become more exothermic as Cs/(Na + Cs) increases, whereas those for the tetragonal series become less exothermic. This result indicates that the incorporation of Cs in the cubic phase is somewhat thermodynamically favorable, whereas that in the tetragonal phase is thermodynamically unfavorable and kinetically driven. In addition, the cubic phases are more stable than the corresponding tetragonal phases with the same Cs/Na ratios. These disparities in the energetic behavior between the two series are attributed to their differences in both local bonding configuration and degree of hydration.
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3

Strelko, V. V., V. V. Milyutin, V. M. Gelis, T. S. Psareva, I. Z. Zhuravlev, T. A. Shaposhnikova, V. G. Mil’grandt e A. I. Bortun. "Sorption of cesium radionuclides onto semicrystalline alkali metal silicotitanates". Radiochemistry 57, n. 1 (gennaio 2015): 73–78. http://dx.doi.org/10.1134/s1066362215010117.

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Chitra, S., A. G. Shanmugamani, R. Sudha, S. Kalavathi e Biplob Paul. "Selective removal of cesium and strontium by crystalline silicotitanates". Journal of Radioanalytical and Nuclear Chemistry 312, n. 3 (22 aprile 2017): 507–15. http://dx.doi.org/10.1007/s10967-017-5249-3.

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Clearfield, A., A. Tripathi e D. Medvedev. "In situX-ray study of hydrothermally prepared titanates and silicotitanates". Acta Crystallographica Section A Foundations of Crystallography 61, a1 (23 agosto 2005): c3. http://dx.doi.org/10.1107/s0108767305099873.

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Zheng, Z., C. V. Philip, R. G. Anthony, J. L. Krumhansl, D. E. Trudell e J. E. Miller. "Ion Exchange of Group I Metals by Hydrous Crystalline Silicotitanates". Industrial & Engineering Chemistry Research 35, n. 11 (gennaio 1996): 4246–56. http://dx.doi.org/10.1021/ie960073k.

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Clearfield, A., A. Tripathi, D. Medvedev, A. J. Celestian e J. B. Parise. "In situ type study of hydrothermally prepared titanates and silicotitanates". Journal of Materials Science 41, n. 5 (marzo 2006): 1325–33. http://dx.doi.org/10.1007/s10853-006-7317-x.

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8

Anthony, Rayford G., Robert G. Dosch, Ding Gu e C. V. Philip. "Use of silicotitanates for removing cesium and strontium from defense waste". Industrial & Engineering Chemistry Research 33, n. 11 (novembre 1994): 2702–5. http://dx.doi.org/10.1021/ie00035a020.

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Kaminski, M. D., L. Nuñez, M. Pourfarzaneh e C. Negri. "Cesium separation from contaminated milk using magnetic particles containing crystalline silicotitanates". Separation and Purification Technology 21, n. 1-2 (novembre 2000): 1–8. http://dx.doi.org/10.1016/s1383-5866(99)00062-3.

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10

Chitra, S., S. Viswanathan, S. V. S. Rao e P. K. Sinha. "Uptake of cesium and strontium by crystalline silicotitanates from radioactive wastes". Journal of Radioanalytical and Nuclear Chemistry 287, n. 3 (17 ottobre 2010): 955–60. http://dx.doi.org/10.1007/s10967-010-0867-z.

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11

Curi, Rodrigo F., e Vittorio Luca. "In-column immobilization of Cs-saturated crystalline silicotitanates using phenolic resins". Environmental Science and Pollution Research 25, n. 7 (21 dicembre 2017): 6850–58. http://dx.doi.org/10.1007/s11356-017-1019-6.

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12

Gu, Ding, Luan Nguyen, C. V. Philip, M. E. Huckman, Rayford G. Anthony, James E. Miller e Daniel E. Trudell. "Cs+Ion Exchange Kinetics in Complex Electrolyte Solutions Using Hydrous Crystalline Silicotitanates". Industrial & Engineering Chemistry Research 36, n. 12 (dicembre 1997): 5377–83. http://dx.doi.org/10.1021/ie960338v.

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13

Larentzos, James P., Abraham Clearfield, Akhilesh Tripathi e Edward J. Maginn. "A Molecular Modeling Investigation of Cation and Water Siting in Crystalline Silicotitanates". Journal of Physical Chemistry B 108, n. 45 (novembre 2004): 17560–70. http://dx.doi.org/10.1021/jp047041s.

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14

Chitra, S., R. Sudha, S. Kalavathi, A. G. S. Mani, S. V. S. Rao e P. K. Sinha. "Optimization of Nb-substitution and Cs+/Sr+2 ion exchange in crystalline silicotitanates (CST)". Journal of Radioanalytical and Nuclear Chemistry 295, n. 1 (12 maggio 2012): 607–13. http://dx.doi.org/10.1007/s10967-012-1812-0.

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15

Zheng, Zhixin, Ding Gu, Rayford G. Anthony e Elmer Klavetter. "Estimation of Cesium Ion Exchange Distribution Coefficients for Concentrated Electrolytic Solutions When Using Crystalline Silicotitanates". Industrial & Engineering Chemistry Research 34, n. 6 (giugno 1995): 2142–47. http://dx.doi.org/10.1021/ie00045a026.

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16

Zheng, Z., R. G. Anthony e J. E. Miller. "Modeling Multicomponent Ion Exchange Equilibrium Utilizing Hydrous Crystalline Silicotitanates by a Multiple Interactive Ion Exchange Site Model". Industrial & Engineering Chemistry Research 36, n. 6 (giugno 1997): 2427–34. http://dx.doi.org/10.1021/ie960546n.

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17

Milcent, Théo, Audrey Hertz, Yves Barré e Agnès Grandjean. "Influence of the Nb content and microstructure of sitinakite-type crystalline silicotitanates (CSTs) on their Sr2+ and Cs+ sorption properties". Chemical Engineering Journal 426 (dicembre 2021): 131425. http://dx.doi.org/10.1016/j.cej.2021.131425.

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18

Venkatesan, K. A., V. Sukumaran, M. P. Antony e T. G. Srinivasan. "Studies on the feasibility of using crystalline silicotitanates for the separation of cesium-137 from fast reactor high-level liquid waste". Journal of Radioanalytical and Nuclear Chemistry 280, n. 1 (18 marzo 2009): 129–36. http://dx.doi.org/10.1007/s10967-008-7422-1.

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19

Alahl, Amr A. Sayed, Hesham A. Ezzeldin, Abdullah A. Al-Kahtani, Sadanand Pandey e Yousra H. Kotp. "Synthesis of a Novel Photocatalyst Based on Silicotitanate Nanoparticles for the Removal of Some Organic Matter from Polluted Water". Catalysts 13, n. 6 (8 giugno 2023): 981. http://dx.doi.org/10.3390/catal13060981.

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Abstract (sommario):
The use of waste from various agricultural sectors has recently drawn increased interest from the scientific, technological, ecological, economic, and social fields. As such, in this study, a novel production of an affordable and environmentally friendly photocatalyst of silicotitanate (S1, S2, and S3) made from silica solution (extracted from rice husk ash) and various molar ratios of titanium (IV) 2-ethylhexyl-oxide is reported. Following that, chitosan/silicotitanate (CHMix) nanocomposite material was created through a crosslinking reaction between chitosan and fabricated silicotitanate (S2). Fourier transform infrared spectroscopy (FTIR), X-ray diffraction (XRD), scanning electron microscopy (SEM-EDX), as well as N2 adsorption-desorption isotherm and zeta potential measurements were used to characterize each of the fabricated samples. Additionally, in comparison to neat chitosan, the newly fabricated material’s (CHMix) photocatalytic reactivity was investigated using two synthetic anionic dyes, reactive blue and Congo red, with decolorization rates of up to 95.76% and 99.9%, respectively. The decolorization results showed that CHMix is the most efficient photocatalyst for the degradation of reactive blue and Congo red. Reactive blue and Congo red’s molecular structures were almost completely broken when equilibrium was reached using sunlight, and the decolorization rate for both dyes was close to 100%. As a result, the combination of chitosan and silicotitanate, or CHMix, has an effective photocatalytic capability for dye degradation in both natural and concentrated sunlight.
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20

Dyer, Alan, Jon Newton, Luke O’Brien e Scott Owens. "Studies on a synthetic sitinakite-type silicotitanate cation exchanger". Microporous and Mesoporous Materials 117, n. 1-2 (gennaio 2009): 304–8. http://dx.doi.org/10.1016/j.micromeso.2008.07.003.

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21

Taylor, P. A., e C. H. Mattus. "Thermal And Chemical Stability Of Baseline And Improved Crystalline Silicotitanate". Separation Science and Technology 38, n. 12-13 (8 gennaio 2003): 3031–48. http://dx.doi.org/10.1081/ss-120022585.

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22

Piret, Paul, Michel Deliens e Michèle Pinet. "La trimounsite-(Y), nouveau silicotitanate de terres rares de Trimouns, Ariège, France: (TR)2Ti2SiO9". European Journal of Mineralogy 2, n. 5 (4 ottobre 1990): 725–30. http://dx.doi.org/10.1127/ejm/2/5/0725.

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23

Celestian, Aaron J., James D. Kubicki, Jonathon Hanson, Abraham Clearfield e John B. Parise. "The Mechanism Responsible for Extraordinary Cs Ion Selectivity in Crystalline Silicotitanate". Journal of the American Chemical Society 130, n. 35 (3 settembre 2008): 11689–94. http://dx.doi.org/10.1021/ja801134a.

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24

Warta, Andrew M., William A. Arnold e Edward L. Cussler. "Permeable Membranes Containing Crystalline Silicotitanate As Model Barriers for Cesium Ion". Environmental Science & Technology 39, n. 24 (dicembre 2005): 9738–43. http://dx.doi.org/10.1021/es0509681.

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25

Hritzko, Benjamin J., D. Douglas Walker e N. H. Linda Wang. "Design of a carousel process for cesium removal using crystalline silicotitanate". AIChE Journal 46, n. 3 (marzo 2000): 552–64. http://dx.doi.org/10.1002/aic.690460314.

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26

Chen, Mengjun, Fu-Shen Zhang e Jianxin Zhu. "Effective utilization of waste cathode ray tube glass—Crystalline silicotitanate synthesis". Journal of Hazardous Materials 182, n. 1-3 (ottobre 2010): 45–49. http://dx.doi.org/10.1016/j.jhazmat.2010.05.135.

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27

Walker Jr., J., P. Taylor e D. Lee. "CESIUM REMOVAL FROM HIGH-pH, HIGH-SALT WASTEWATER USING CRYSTALLINE SILICOTITANATE SORBENT". Separation Science and Technology 34, n. 6&7 (1999): 1167–81. http://dx.doi.org/10.1081/ss-100100703.

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28

Latheef, I. M., M. E. Huckman e R. G. Anthony. "Modeling Cesium Ion Exchange on Fixed-Bed Columns of Crystalline Silicotitanate Granules". Industrial & Engineering Chemistry Research 39, n. 5 (maggio 2000): 1356–63. http://dx.doi.org/10.1021/ie990748u.

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29

Walker, J. F., P. A. Taylor e D. D. Lee. "CESIUM REMOVAL FROM HIGH-pH, HIGH-SALT WASTEWATER USING CRYSTALLINE SILICOTITANATE SORBENT". Separation Science and Technology 34, n. 6-7 (gennaio 1999): 1167–81. http://dx.doi.org/10.1080/01496399908951087.

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30

Young, J. S., Y. Su, L. Li e M. L. Balmer. "Characterization of Aluminosilicate Formation on the Surface of a Crystalline Silicotitanate Ion Exchanger". Microscopy and Microanalysis 7, S2 (agosto 2001): 498–99. http://dx.doi.org/10.1017/s1431927600028567.

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Abstract (sommario):
Millions of gallons of high-level radioactive waste are contained in underground tanks at U. S. Department of Energy sites such as Hanford and Savannah River. Most of the radioactivity is due to 137Cs and 90Sr, which must be extracted in order to concentrate the waste. An ion exchanger, crystalline silicotitanate IONSIV® IE911, is being considered for separation of Cs at the Savannah River Site (SRS). While the performance of this ion exchanger has been well characterized under normal operating conditions, Cs removal at slightly elevated temperatures, such as those that may occur in a process upset, is not clear. Our recent study indicates that during exposure to SRS simulant at 55°C and 80°C, an aluminosilicate coating formed on the exchanger surface. There was concern that the coating would affect its ion exchange properties. A LEO 982 field emission scanning electron microscope (FESEM) and an Oxford ISIS energy dispersive x-ray spectrometer (EDS) were used to characterize the coating.
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31

Nyman, M., B. X. Gu, L. M. Wang, R. C. Ewing e T. M. Nenoff. "Synthesis and characterization of a new microporous cesium silicotitanate (SNL-B) molecular sieve". Microporous and Mesoporous Materials 40, n. 1-3 (novembre 2000): 115–25. http://dx.doi.org/10.1016/s1387-1811(00)00247-x.

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32

Lee, Eil-Hee, Keun-Young Lee, Kwang-Wook Kim, Ik-Soo Kim, Dong-Yong Chung e Jei-Kwon Moon. "Removal of Cs by Adsorption with IE911 (Crystalline Silicotitanate) from High-Radioactive Seawater Waste". Journal of Nuclear Fuel Cycle and Waste Technology 13, n. 3 (30 settembre 2015): 171–80. http://dx.doi.org/10.7733/jnfcwt.2015.13.3.171.

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33

Huckman, M., I. Latheef e R. Anthony. "ION EXCHANGE OF SEVERAL RADIONUCLIDES ON THE HYDROUS CRYSTALLINE SILICOTITANATE, UOP IONSIV IE-911". Separation Science and Technology 34, n. 6&7 (1999): 1145–66. http://dx.doi.org/10.1081/ss-100100702.

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34

Rovira, A. M., S. K. Fiskum, H. A. Colburn, J. R. Allred, M. R. Smoot, R. A. Peterson e K. M. Colisi. "Cesium ion exchange testing using crystalline silicotitanate with Hanford tank waste 241-AP-107". Separation Science and Technology 54, n. 12 (22 febbraio 2019): 1942–51. http://dx.doi.org/10.1080/01496395.2019.1577895.

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35

Westesen, Amy M., Sandra K. Fiskum, Truc T. Trang-Le, Andrew M. Carney, Reid A. Peterson, Matthew R. Landon e Kristin A. Colosi. "Small to Full-Height Scale Comparisons of Cesium Ion Exchange Performance with Crystalline Silicotitanate". Solvent Extraction and Ion Exchange 39, n. 1 (12 ottobre 2020): 104–22. http://dx.doi.org/10.1080/07366299.2020.1831142.

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36

Huckman, M. E., I. M. Latheef e R. G. Anthony. "ION EXCHANGE OF SEVERAL RADIONUCLIDES ON THE HYDROUS CRYSTALLINE SILICOTITANATE, UOP IONSIV IE-911". Separation Science and Technology 34, n. 6-7 (gennaio 1999): 1145–66. http://dx.doi.org/10.1080/01496399908951086.

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37

Wang, Rong, Zhenggang Luo, Qiuxia Tan, Rui Wang, Shuyuan Chen, Jiancheng Shu, Mengjun Chen e Zhengxue Xiao. "Sol-gel hydrothermal synthesis of nano crystalline silicotitanate and its strontium and cesium adsorption". Environmental Science and Pollution Research 27, n. 4 (12 dicembre 2019): 4404–13. http://dx.doi.org/10.1007/s11356-019-06907-z.

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38

Attallah, Mohamed F., Amira H. Elgazzar, Emad H. Borai e Abdou S. El-Tabl. "Preparation and characterization of aluminum silicotitanate: ion exchange behavior for some lanthanides and iron". Journal of Chemical Technology & Biotechnology 91, n. 8 (30 settembre 2015): 2243–52. http://dx.doi.org/10.1002/jctb.4810.

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39

El-Naggar, I. M., E. S. Sheneshen e E. A. Abdel-Galil. "Diffusion mechanism of Co2+, Cu2+, Cd2+, Cs+, and Pb2+ions in the particles of polyaniline silicotitanate". Particulate Science and Technology 34, n. 3 (30 luglio 2015): 373–79. http://dx.doi.org/10.1080/02726351.2015.1063099.

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40

Smith, Frank G., Si Young Lee, William D. King e Daniel J. McCabe. "Comparisons of Crystalline Silicotitanate and Resorcinol Formaldehyde Media for Cesium Removal by In-tank Column Processing". Separation Science and Technology 43, n. 9-10 (18 luglio 2008): 2929–42. http://dx.doi.org/10.1080/01496390802119382.

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41

Kamble, Priyanka, Prithwish Sinha Roy, Dayamoy Banerjee, Arvind Ananthanarayanan, Jayesh G. Shah, Gopalakrishnan Sugilal e Kailash Agarwal. "A new composite of crystalline silicotitanate for sequestration of 137Cs and 90Sr from low-level aqueous waste solution". Separation Science and Technology 55, n. 9 (21 aprile 2019): 1603–10. http://dx.doi.org/10.1080/01496395.2019.1605382.

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42

Campbell, Emily L., Sandra K. Fiskum, Truc T. Trang-Le e Reid A. Peterson. "Ion Exchange of Selected Group II Metals and Lead by Crystalline Silicotitanate and Competition for Cs Exchange Sites". Solvent Extraction and Ion Exchange 39, n. 1 (16 ottobre 2020): 90–103. http://dx.doi.org/10.1080/07366299.2020.1830481.

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43

Park, Younjin, Won Sik Shin, G. Sankara Reddy, Soo-Jeong Shin e Sang-June Choi. "Use of Nano Crystalline Silicotitanate for the Removal of Cs, Co and Sr from Low-Level Liquid Radioactive Waste". Journal of Nanoelectronics and Optoelectronics 5, n. 2 (1 agosto 2010): 238–42. http://dx.doi.org/10.1166/jno.2010.1101.

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Mostafa, M., M. A. Tawfic, M. A. El-Absy, H. E. Ramadan e S. A. Sadeek. "Preparation of 137Cs-Loaded Silicotitanate Sealed Source and Standardization of Its Activity by DETEFF Code and Efficiency Transfer Concept". Radiochemistry 61, n. 6 (novembre 2019): 741–47. http://dx.doi.org/10.1134/s1066362219060171.

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45

Todd, T. A., e V. N. Romanovskiy. "A Comparison of Crystalline Silicotitanate and Ammonium Molybdophosphate-Polyacrylonitrile Composite Sorbent for the Separation of Cesium from Acidic Waste". Radiochemistry 47, n. 4 (luglio 2005): 398–402. http://dx.doi.org/10.1007/s11137-005-0109-3.

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46

Cherry, Brian R., May Nyman e Todd M. Alam. "Investigation of cation environment and framework changes in silicotitanate exchange materials using solid-state 23Na, 29Si, and 133Cs MAS NMR". Journal of Solid State Chemistry 177, n. 6 (giugno 2004): 2079–93. http://dx.doi.org/10.1016/j.jssc.2004.02.020.

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47

Zhao, Xudong, Qinghui Meng, Geng Chen, Zhihao Wu, Guangai Sun, Guobing Yu, Liusi Sheng, Hanqin Weng e Mingzhang Lin. "An acid-resistant magnetic Nb-substituted crystalline silicotitanate for selective separation of strontium and/or cesium ions from aqueous solution". Chemical Engineering Journal 352 (novembre 2018): 133–42. http://dx.doi.org/10.1016/j.cej.2018.06.175.

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48

El-Naggar, I. M., E. S. Sheneshen e E. A. Abdel-Galil. "Retention behavior studies for the removal of some hazardous metal ions from waste solutions using polyaniline silicotitanate as composite cation exchanger". Desalination and Water Treatment 56, n. 7 (26 agosto 2014): 1820–28. http://dx.doi.org/10.1080/19443994.2014.952672.

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49

Nyman, M., F. Bonhomme, D. M. Teter, R. S. Maxwell, B. X. Gu, L. M. Wang, R. C. Ewing e T. M. Nenoff. "Integrated Experimental and Computational Methods for Structure Determination and Characterization of a New, Highly Stable Cesium Silicotitanate Phase, Cs2TiSi6O15(SNL-A)". Chemistry of Materials 12, n. 11 (novembre 2000): 3449–58. http://dx.doi.org/10.1021/cm000259g.

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Grandjean, Agnès, Yves Barré, Audrey Hertz, Virginie Fremy, Jérémy Mascarade, Eric Louradour e Thierry Prevost. "Comparing hexacyanoferrate loaded onto silica, silicotitanate and chabazite sorbents for Cs extraction with a continuous-flow fixed-bed setup: Methods and pitfalls". Process Safety and Environmental Protection 134 (febbraio 2020): 371–80. http://dx.doi.org/10.1016/j.psep.2019.12.024.

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