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J. Kleperis, P. Lesnicenoks, L. Grinberga, G. Chikvaidze and J. Klavins

. (2010). The Study of Adsorption of Hydrogen on Zeolites. Progress in Chemistry, 22 , 248-254. 8. Langmi H.W., & McGrady, G.S. (2007). Non-hydride systems of the main group elements as hydrogen storage materials. Coord. Chem. Rev., 251 , 925-935. 9. Broom, D.P. (2011). Hydrogen Storage Materials: The Characterisation of Their Storage Properties . London: Springer-Verlag. 10. Efstathiou, A.M., Borgstedt, E.R., Suib, S.L., & Bennett, C.O. (1992). Encapsulation of molecular hydrogen in ion-exchanged zeolites at 1 atm

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Piotr Decyk, Andrzej B. Więckowski, Lidia Najder-Kozdrowska and Iveta Bilkova

. H., Hou, Z. Y., Zhu, B., Lou, H., & Zheng, X. M. (2006). Synthesis of dimethyl ether (DME) on modified HY zeolite and modified HY zeolite-supported Cu-Mn-Zn catalysts. Appl. Catal. A-Gen ., 304 , 49–54. DOI: 10.1016/j.apcata.2006.02.019. 4. Padlyak, B. V., Wojtowicz, W., Adamiv, V. T., Burak, Ya. V., & Teslyuk, I. M. (2010). EPR spectroscopy of the Mn 2+ and Cu 2+ centres on lithium and potassium-lithium tetraborate glasses. Acta Phys. Pol. A , 117 (1), 122–125. 5. Guskos, N., Glenis, S., Typek, J., Żołnierkiewicz, G., Berczyński, P., Wardal, K

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P. Suskis, A. Andreiciks, I. Steiks, O. Krievs and J. Kleperis

.energy.gov/hydrogenandfuelcells 9. Grinberga, L., Kleperis, J., Bajars, G., et al. (2008). Estimation of hydrogen transfer mechanisms in composite materials. Solid State Ionics, 179, 42-45. 10. Lesnicenoks, P., Berzina, A., Grinberga, L., & Kleperis, J. (2012). Research of hydrogen storage possibility in natural zeolite. Intern. Sci. J. for Alternative Energy and Ecology (ISJAEE), 9, 16-20. 11. Kleperis, J., Lesnicenoks, P., Grinberga, L., Chikvaidze, G., & Klavins, J. (2013). Zeolite as material for hydrogen storage in transport applications. Latv. J. Phys. Tech

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P. Lesnicenoks, L. Grinberga and J. Kleperis

: State-of-the-Art and Future Perspective. The Netherlands, Institute for Energy - JRC IE. 6. Bogdanov, B., Georgiev, D., Angelova, K., & Yanevak (June 4-5, 2009). Proceedings Int. Sc.conf. on: Economics and Society development on the Base of Knowledge, Stara Zagora, Bulgaria. 7. Rocks in your Gas Tank. NASA Everyday News: http://www.nasa.gov 8. Tschernich, R.W. (1992). Zeolites of the World. Geoscience Press. 9. Lesnicenoks, P., Sivars, A., Grinberga, L., & Kleperis, J. (2012). IOP Conf. Ser.: Mater. Sci

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A. D. Galimbekov, M. A. Kadyrov, D. A. Drugov, G. I. Muratova and M. A. Baizharikova

State University, 1 (26), 141–146. 10. Coello-Fiallos, D.C., Espin-Lagos, S.M., Vacacela Gomez, C., Tavolaro, A., & Caputi, L.S. (2018). Comparison of pure membranes of 13X and 5A zeolite for removal of acridine orange dye from aqueous solutions. Periódico Tchê Química, 15 (29), 251–257. 11. Cavallari, R.V., De Lima, N.B., Silva, J.C.M., Bergamashi, V.S., & Ferreira, J.C. (2018). Preparation of catalyst support from bio carbon. Periódico Tchê Química, 15 (30), 115–122. 12. Vian, A., Davies, E., Gendraud, M., & Bonnet, P. (2016). Plant responses to

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Sławomir Wąsik, Michał Arabski, Karolina Maciejec, Grażyna Suchanek and Anna Świercz

-369. Jamil T. S., Gad-Allah T. A., Ibrahim H. S. & Saleh T. S. (2011). Adsorption and isothermal models of atrazine by zeolite prepared from Egyptian kaolin. Solid State Sciences , 13 (1), 198-203. Lerche D. (1976). Temporal and local concentration change in diffusion layers at cellulose membranes due to concentration difference between the solutions on both sides of the membrane. J. Membr. Biol. , 27 , 193-205 Liou R., Zhang B., Mei D., Zhang H., Liu J. (2011). Adsorption of methyl violet from aqueous solution by nanotubes. Desalination , 268 , 111

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N Cvetkovic, B Adnadjevic and M Nikolic

. Yu and M. Mizuno: Influence of sulphur dioxide on catalytic removal of nitric oxide over copper ion-exchanged ZSM-5 zeolite; Appl. Catal. 69 (1991) 15-19. 9. Sazonova, N.N., O.V. Kumova, E.V. Rebrov, N.A. Simakov, V.A. Kulikovskaja, V.A. Rogov, R.V. Olkhov and G.B. Barannik: Catalytic and adsorptive properties of a Cu-ZSM-5 catalyst synthetized by solid-phase method; React. Kinet. Catal. Lett. 60 (1997) 313-321. 10. Adnadjevic, B.: New challenges in catalysis. Review of basic achievements in the development of

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Wioleta Olszewska, Agnieszka Miśkiewicz, Grażyna Zakrzewska-Kołtuniewicz, Leszek Lankof and Leszek Pająk

desalination of geothermal waters containing boron using the BWRO system. Desalination, 309, 284-290. 7. Wdowin, M., Franus, M., Panek, R., Bandura, L., & Franus, W. (2014). The conversion technology of fl y ash into zeolites. Clean Technologies and Environmental Policy, 16, 1217-1223. DOI: 10.1007/ s10098-014-0719-6, http://wbia.pollub.pl/files/102/attachment/2382_clean.pdf. 8. IAEA. (2001). Performance of engineered barrier materials in near surface disposal facilities for radioactive waste, results of a coordinated research project. Vienna

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AJ Dyakonov and EA Robinson

–368. 112. Radkevich, V.Z., A.A. Ivko, and Y.G. Egiazarov: Effect of the acid-base properties on the activity of Pd-zeolite catalysts for CO oxidation; Kinet. Catal. 42 (2001) 520–524. 113. Goguet, A., M. Aouine, F.J. Cadete Santos Aires, A. De Mallmann, D. Schweich, and J.P. Candy: Prepa-ration of a Pt/SiO 2 catalyst. I. Interaction between platinum tetrammine hydroxide and the silica surface; J. Catal. 209 (2002) 135–144. 114. Yang, C., M. Kalwei, F. Schuth, and K. Chao: Gold nanoparticles in SBA-15 showing catalytic

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Evgeni Eltzov, Abri Lavena De Cesarea, ‘Yuen Kei Adarina Low and Robert S. Marks

, Hu HL, Liu XL, He ST, Pan Y, Zhang CH,Dong C, Development of a Room Temperature SAW Methane Gas Sensor Incorporating a Supramolecular Cryptophane A Coating. Sensors, 2016; 16(1). 81. Thomas S, Cole M, Villa-López FH,Gardner JW, High frequency surface acoustic wave resonator-based sensor for particulate matter detection. Sensors and Actuators A: Physical, 2016; 244: p. 138-145. 82. Zhou J, Li P, Zhang S, Long YC, Zhou F, Huang YP, Yang PY,Bao MH, Zeolite-modified microcantilever gas sensor for indoor air quality control. Sensors and Actuators B