Alumina Membranes Are Mask for Structures Used in Hydrogen Energy

The paper discusses the advantages of porous alumina membranes as templates for the technology of hydrogen energy elements and describes the features of membrane technology and characterization methods of their geometrical parameters. In order to determine surface porosity two methods (such as theoretical calculations and digital image processing) were used. It is shown that results are in good agreement with each other. 

1. Moshnikov V.A., Spivak Yu.M. Èlektrohimičeskie metody polučeniâ poristyh materialov dlâ toplivnyh èlementov. Osnovy vodorodnoj ènergetiki. SPb: izd-vo SPbGÈTU “LÈTI” Publ., 2011, pp. 103 (in Russ.).

2. Petuhov D.I., Buldakov D.A., Aziev R.V., Eliseev A.A. Vtoraâ vystavka innovacionnyh proektov, 24 November 2009. Sbornik tezisov. Moscow: MGU, 2009 (in Russ.).

3. Muratova E.N. Formirovanie poristyh sloev na osnove oksida alûminiâ dlâ celej mikrobiologii. Molodoj učenyj, 2012, no. 10, pp. 14–17 (in Russ.).

4. Koshcheev S.V. Optimizaciâ aktivnyh èlementov datčikov, ispol’zuûŝih èffekt gigantskogo kombinacionnogo rasseâniâ: Ph.D. (engineering) / SPbGÈTU. SPb, 2006 (in Russ.).

5. Eftekhari A. Nanostructured materials in electrochemistry. Weinheim, WILEY-VCH Verlag GmbH & Co. KGaA, 2008 (in Eng.).

6. Himičeskie metody polučeniâ keramičeskih i polimernyh nanomaterialov iz židkoj fazy: Učeb. posobie. SPb: SPbGÈTU “LÈTI” Publ., 2013 (in Russ.).

7. Kotenko A.A., Alekseeva O.K., Chelyak M.M., Shapir B.L., Nechaev Yu.S. Novye napravleniâ membrannoj tehnologii dlâ vydeleniâ i koncentrirovaniâ vodoroda v vodorodnoj ènergetike. 10-â mežd. konferenciya “Vodorodnoe materialovedenie i himiâ uglerodnyh materialov” ICHMS'2007, Sudak, Krym, Ukraina. 21–28.09.2007, pp.734–737 (in Russ.).

8. Zaglâdova S.V., Maslov I.A. Membrana dlâ otdeleniâ vodoroda. Patent # 2014152200/05 B01D 71/02 // 23.12.2014 (in Russ.).

9. Muratova E.N. Iskusstvenno i estestvenno uporâdočennye mikro- i nanorazmernye kapillârnye membrany na osnove anodnogo oksida alûminiâ: Ph.D. (engineering) / SPbGÈTU. SPb, 2014 (in Russ.).

10. Muratova E.N., Spivak Yu.M., Moshnikov V.A., Petrov D.V., Shemuhin A.A., Shimanova V.V. Vliânie tehnologičeskih parametrov polučeniâ sloev nanoporistogo Al2O3 na ih strukturnye harakteristiki. Fizika i himiâ stekla, 2013, vol. 39, pp. 473–480 (in Russ.).

11. Gracheva Ir. E., Spivak Yu. M., Moshnikov V. A. AFM techniques for nanostructures materials used in optoe-lectronic and gas sensors // Eurocon-2009. International IEEE Conference, May 18–23, 2009. Saint￾Petersburg, Rus-sia, 2009, pp. 1250–1253 (in Eng.).

12. Gavrilov S.A., Belov A.N. Èlektrohimičeskie processy v tehnologii mikro- i nanoèlektroniki. Moscow: Vysšee obrazovanie Publ., 2009, pp. 169–236 (in Russ.).

13. Spivak Yu.M., Sokolova E.N., Petenko O.S., Travkin P.G. Opredelenie parametrov poristoj struktury v por-Si i por-Al2O3 putem komp’ûternoj obrabotki dannyh rastrovoj i atomno-silovoj mikroskopii. Molodoj učenyj, 2012, no. 5, pp. 1–4 (in Russ.).