LLC «Innovation company MEVODENA»
Bonch-Bryuevich Saint-Petersburg State University of Telecommunications

List of References

2015 - 2019

1. Alimov V.N., Bobylev I.V., Busnyuk A.O., Kolgatin S.N., Kuzenov S.R., Peredistov E.Yu., Livshits A.I., Extraction of ultrapure hydrogen with V-alloy membranes: from laboratory studies to practical applications, International Journal of Hydrogen Energy. 43 (2018) № 29 13318-13327.

2. Alimov V.N., Bobylev I.V., Busnyuk A.O., Notkin M.E., Peredistov E.Yu., Livshits A.I., Hydrogen transport through the tubular membranes of V-Pd alloys: permeation, diffusion, surface processes and WGS mixture test of membrane assembly, Journal of Membrane Science. 2018. Т. 549. С. 428-437.

3. A.I. Livshits, The effect of spatial variation in potential energy on the diffusion in heterogeneous media, Physics Letters A, 380 (2016) 1891–1894.

4. A.Livshits, A.Yuchimchuk, Short way separation of D/T from He with Superpermeable Membranes in the post-ITER Devices, 11th International Conference on Tririum Science & Technology, April 17-22, 2016, Charleston, USA (plenary presentation).

5. Livshits A.I., Superpermeability phenomenon: physics, state of the art аnd possible applications in fusion, Сolloquium Karlsruhe Institute of Technology, 25th October 2016, KIT, Karlsruhe, Germany.

6. V.N. Alimov, A.O. Busnyuk, A.I. Livshits, M.E. Notkin, E.Yu. Peredistov, Transcrystal transfer of hydrogen through vanadium and its alloys with palladium. The international scientific and methodical conference "Actual problems of infotelekommunikation in science and education", SPb, 2016, in Russian

7. V.N. Alimov, A.O. Busnyuk, A.I. Livshits, E.Yu. Peredistov, Hydrogen production from hydrocarbonic fuel for fuel elements by means of membranes from vanadium alloys. The international scientific and methodical conference "Actual problems of infotelekommunikation in science and education", SPb, 2016, in Russian

8. V.N. Alimov, A.O. Busnyuk, A.I. Livshits, M.E. Notkin, E.Yu. Peredistov, Transcrystal transfer of hydrogen through vanadium and its alloys with palladium. The XI International Kurdyumov School of young scientists and experts "Interaction of hydrogen isotopes with constructional materials: experiment and mathematical modeling" (IHISM’16 Junior) in Russian

9. V.N. Alimov, A.O. Busnyuk, M.E. Notkin, E.Yu. Peredistov, A.I. Livshits, Hydrogen transport through V–Pd    alloy membranes: Hydrogen solution, permeation and diffusion, Journal of Membrane Science 481 (2015) 54–62

10. V.N. Alimov, A.O. Busnyuk, M.E. Notkin, E.Yu. Peredistov, A.I. Livshits, «Composite membranes on the base of vanadium alloya for hydrogen separation from gas mixture». Oral presentation, The All-Russian conference with the international participation "Fuel Cells and power stations on their basis", June 29 – July 3, Chernogolovka,  in Russian

11. E.Yu. Peredistov, V.N. Alimov, A.O. Busnyuk, M.E Notkin, A.I. Livshits, Transport of hydrogen  through V-th groop metalls and their allows, Oral presentation. The X-th International Kurdyumov School of young scientists and experts (IHISM’15 Junior) , June 28 – July 4, 2015, Moscow, «SRC  «Kurchatov institute» in Russian

12. A.I. Livshits, V.N. Alimov, A.O. Busnyuk, M.E Notkin, E.Yu. Peredistov, Avakov V.B, Landgraf I.K, Kasatkin M.E, Methane steam reforming in the stepwise MR with the composite membranes based on V, oral presentation at the ICCMR12, June 22 - 25, 2015, Szczecin (Poland).

13. A.I. Livshits, V.N. Alimov, A.O. Busnyuk, M.E Notkin, E.Yu. Peredistov, Optimization of group 5 metal alloys as a material for hydrogen separation membranes, poster presentation at the ICCMR12, June 22 - 25, 2015, Szczecin (Poland).

2010 - 2014

1. A.I. Livshits, A.O. Busnyuk, M.E. Notkin, E.Yu. Peredistov, V.N. Alimov, , «Composite membranes on the base of vanadium for hydrogen separation from gas mixture».  V-th Internatiional Conference IHISM-2014, Sarov,  Julay 7-11, 2014. Book of abstracts. In Russian

2. A.I. Livshits, A.O. Busnyuk, M.E Notkin, E.Yu. Peredistov, V.N. Alimov. “Substitutional V-Pd alloys for the membranes permeable to hydrogen: hydrogen solubility at 150–400 °С ”, International Journal of Hydrogen Energy, 39 (2014) 19682 – 19690. (new)

3. A.I. Livshits, A.A. Yukhimchuk, “Short Way Separation of D/T from He with Superpermeable Membranes in the Post-ITER Devices”. 25-th IAEA FUSION ENERGY CONFERENCE, St. Petersburg, October 7-13,  2014.(new)

4. A.I. Livshits, A.O. Busnyuk, M.E. Notkin, V.N. Alimov, «Transport of hydrogen by V-th group metals: achievement of the maximum flux density through vanadium membrane». Technical Physics Letters, 2014, Vol. 40, # 5, р. 117-124. In Russian. (new)

5. A.I. Livshits, E.Yu. Peredistov, A.O. Busnyuk, M.E. Notkin,V.N. Alimov, «Disordered V-Pd alloys for the membranes permeable to hydrogen: hydrogen solubility at 150-400 C». V-th International conference, IHISM-2014, Sarov, July 7-11, 2014. Book of abstracts. In Russian.

6. A.I. Livshits, A.O. Busnyuk, M.E Notkin, V.N. Alimov, « Pd–V–Pd composite membranes: Hydrogen transport in a wide pressure range and mechanical stability », Journal of Membrane Science 457 (2014) 103–112.

7. A.I. Livshits, A.A. Yuchimchuk «New membrane  technologies for fusion and hydrogen energy», XII All-Russian conference "MEMBRANE-2013", Vladimir, October 1-4, 2013. Book of abstract, p. 92-93. In Russion.

8. A.I. Livshits, A.O. Busnyuk, E.Yu. Peredistov, А.О. Paristov, M.E. Notkin, V.N. Alimov, «Composite membranes on the base of V-th group metals for hydrogen separation from gas mixture». XII All-Russian conference «MEMBRANE-2013»», Vladimir, October 1-4, 2013. Book of abstract, p. 143-144. In Russion.

9.  A.I. Livshits, A.O. Busnyuk, M.E. Notkin, Alimov V.N., «Transport of hydrogen through the metal membranes: theoretical limit of flux density and its achievement with vanadium membrane». XII All-Russian conference «MEMBRANE-2013», Vladimir, October 1-4, 2013. Book of abstract, p. 145-146. In Russion.

10. A.O. Busnyuk, V.N. Alimov, A.I. Livshits, «Composite membranes Pd-V-Pd for hydrogen separation», Proceedings of VIII International School for young scietists “IHISM 12”, Nizhnii Novgorod, September, 17-21, р. 10-31. In Russian

11. A.I. Livshits, A.O. Busnyuk, V.N. Alimov, M.E. Notkin. «Hydrogen separation from the gas mixtures with composite membranes based on group 5 metals», Boot of thesis's of 12th International Conference on Inorganic Membranes, Enschede, Netherlands,  9-13 July 2012,

12. Y. Hatano, A. I. Livshits, A. Busnyuk, V. Alimov and M. Matsyuama,"Sticking of H₂ on oxygen-covered surface of vanadium doped with oxygen to various bulk concentrations". Annual Report of Hydrogen Isotope Research Center, University of Toyama, Japan, V. 31, 2012, p. 33 - 48. 

13. A.I. Livshits, V.B Avakov, A.O. Busnyuk, V.N. Alimov, M.E. Notkin, M.A, Kasatkin. «Membrane separation of hydrogen for direct convertion of organic fuel to electricity».  Proceedings of VII All-Russian Conference «Physical topics of hydrogen energetic», St. Petersburg, Ioffe Physico-Technical Institute, November 21 — 23, 2011 г.

14. V.F. Dmitrikov, A.I. Livshits, D.V. Shushpanov, М.E. Notkin, V.N. Alimov, Modern systems of power supply on the base of hydrogen fuel cells // Proceedings of the electrotechnical academy of science of RF. (2011) 1, p. 16 – 23 in Russian.

15. Vasily N. Alimov, Yuji Hatano, Andrei O. Busnyuk, Daniil A. Livshits, Mikhail E. Notkin, Alexander I. Livshits, Hydrogen permeation through the Pd–Nb–Pd composite membrane: Surface effects and thermal degradation, International Journal of Hydrogen Energy, 36 (2011)7737-7746.

16. V.F. Dmitrikov, A.I. Livshits, B.F. Dmitriev, D.V. Shushpanov, М.E. Notkin, V.N. Alimov, Development of power supply systems on the base of hydrogen fuel cells. Power electronics. (2011) 42, p. 16 – 22 in Russian.

17. V.F. Dmitrikov, A.I. Livshits, B.F. Dmitriev, D.V. Shushpanov, М.E. Notkin, V.N. Alimov, Current state of power supply systems on the base of membrane technologies of hydrogen energetic, Electric communication (2010) 9, V.1, in Russian.

18. V.F. Dmitrikov, A.I. Livshits, B.F. Dmitriev, D.V. Shushpanov, М.E. Notkin, V.N. Alimov, Present state and construction principles of power supply systems on the base of modern membrane technologies of hydrogen energetic, IX International conference «Physics and technical applications of wave processes ». Miass (2010), V.13, 3, p. 131-139. In Russian.

19. A. O. Busnyuk, V. N. Alimov, M. E. Notkin, I. P. Grigoriadi, A. I. Livshits, Thermal Degradation of a Palladium Coating on Hydrogen-Tight Niobium Membranes, Journal of Technical Physics, 2010, V. 80, No 1, pp. 117-124 in Russian.

20. A.O. Busnyuk, M.E. Notkin, I.P. Grigoriadi, V.N. Alimov, A.I. Lifshitz, Thermal Degradation of a Palladium Coating on Hydrogen_Tight Niobium Membranes, Technical Physics, Vol. 55 (2010) No. 1, pp. 117–124.

21. A. O. Busnyuk, M. E. Notkin, I. P. Grigoriadi, V. N. Alimov, and A. I. Livshits,Thermal Degradation of a Palladium Coating on Hydrogen-Tight Niobium Membranes, Technical Physics, 2010, Vol. 55, No. 1, pp. 117–124.

2005 – 2009

1. A.O. Busnyuk, V.N. Alimov, M. Notkin,, I.P. Grigoriadi, R.K. Astakhova, S.V. Yakovleva, A.I. Livshits, Group V metal membranes for hydrogen separation: development of protectively-catalytic coverings, tests of chemical and thermal resistance. Thesis of tte V-th All-Russian conference on "Physical topics of hydrogen energetic”, St.-Petersburg, November 2009, in Russian.

2. V.N. Alimov, A.O. Busnyuk, R.K. Astakhova, S.V. Yakovleva, A.I. Livshits, Non-palladium metal membrane for hydrogen separation of gas mixtures: specific productivity operation parameters. Thesis of the V-th All-Russian conference on "Physical topics of hydrogen energetic”, St.-Petersburg, November 2008, in Russian.

3. M.E. Notkin, A.I. Livshits, V.N. Alimov, M. Bacal, Hydrogen permeation through carbidized niobium membrane, Metallovedenie, No 9, pp. 47-53 (2005) in Russian.

4. Yuji Hatano, Andrei Busnyuk, Vasily Alimov, Alexander Livshits, Yukio Nakamura, Masao Matsuyama, Influence of oxygen on permeation of hydrogen isotopes through group 5 metals. Fusion science and technology, 54, (2008) 526-529.

5. R.K.Musyaev, B.S. Lebedev, A.A. Yuchimchuk, A.O. Busnyuk, A.A. Samartsev, M.E. Notkin, A.I. Livshits, Study of phenomenon of superpermeability of hydrogen isotopes through vanadium membrane in "Prometheus” setup, Topics in Atomic Science and Technology, in Thermonuclear Fusion Series, (2008) No 2, pp. 26–31.

6. A.I. Livshits. Kinetics of boundary processes hydrogen atom and molecule absorption by metals. International conference on interaction of hydrogen isotopes with structural materials, Nizhnii Novgorod, Conference thesis’s, July 2008 in Russian.

7. M.E. Notkin, A.I. Livshits, I.P. Grigoriadi, M. Hron and J. Stockel, Investigation of CASTOR tokamac edge plasma with absorption probe. Topics in Atomic Science and Technology, in Thermonuclear Fusion Series, (2008) No. 2, pp. 97–101 in Plasma.

8. A. Livshits, Y. Hatano, V. Alimov and M. Matsuyama, Probability of absorption / implantation of low-energy H₂⁺ ions in O-covered vanadium, J.Nucl.Mater. 363–365 (2007) 801-805.

9. Yuji Hatano, Kuniaki Watanabe, Alexander Livshits, Andrei Busnyuk, Vasily Alimov, Effects of bulk impurity concentration on the reactivity of metal surface: Sticking of hydrogen molecules and atoms to polycrystalline Nb containing oxygen, Journal of Chem. Phys., 127 No. 20 (2007) 204707 1-13

10. A.I. Livshits, Y. Hatano, V. Alimov, M. Matsuyama, Probability of absorption/implantation of low-energy H₂⁺ ions in O-covered vanadium. Journal of Nuclear Materials, 363-365 (2007) 801-805

11. Y. Hatano, A. I. Livshits, Y. Nakamura, A. Busnyuk, V. Alimov, C. Hiromi, A. A. Yuchimchuk, R. K. Musyaev, N. Ohyabu and K. Watanabe, Durability of Nb and V membranes in exhaust gas containing impurities, to be published in Fusion Engineering and Design.

12. Yuji Hatano, Andrei Busnyuk, Alexander Livshits, Hirofumi Homma, Masao Matsuyama, Сorrelation between hydrogen isotope permeation through niobium and bulk oxygen concentration: possible influence of oxygen on tritium recovery from pb-li by vacuum permeator, Fusion science and technology, vol. 52 nov. 2007.

13. Yuji Hatano, Andrei Busnyuk, Alexander Livshits, Yukio Nakamura, Masao Matsuyama, Absorption of atomic hydrogen by vanadium, Fusion science and technology vol. 52 oct. 2007.

14. Y. Hatano, A. Livshits, Y. Nakamura, A. Busnyuk, V. Alimov, C. Hiromi, N. Ohyabu, K. Watanabe, Influence of oxygen and carbon on performance of superpermeable membranes, Journal: Fusion Engineering and Design, 81 (2006) 771-776

15. M.E. Notkin, A.I. Livshits, M. Hron and J. Stockel, Measurements of suprathermal hydrogen flux in CASTOR tokamak, Nucl.Instr. & Meth. B 251 (2006) 512.

16. Y. Hatano, A. Livshits, Y. Nakamura, A. Busnyuk, V. Alimov, C. Hiromi, N. Ohyabu and K. Watanabe, Influence of oxygen and carbon on performance of superpermeable membranes, Fusion Eng. Design 81 (2006) 771-776.

17. R.K. Musyaev, B.S. Lebedev, S.K. Grishechkin, A.A. Yukhimchuk, A.A. Busnyuk, M.E. Notkin, A.A. Samartsev and A.I. Livshits, Tritium superpermeability: experimental investigation and simulation of tritium recirculation in "Prometheus” setup, Fusion Sci.Technol. 48 (2005) 35.

18. A.I. Livshits, V.N. Alimov, M.E. Notkin and M. Bacal, Hydrogen superpermeation resistant to ion sputtering, Appl.Phys. A 80 (2005) 1661.

19. Y. Nakamura, A.I. Livshits, Y. Nakahara, Y. Hatano, A. Busnyuk and N. Ohyabu, Hydrogen absorption capability of a niobium panel for pumping neutral atoms in divertor region, J.Nucl.Mater. 337–339 (2005) 461-465.

2000 – 2004

1. Yuji Hatano, Alexander Livshits, Andrei Busnyuk, Mamoru Nomura, Kenici Hashizume, Masayasu Sugisaki, Yukio Nakamura, Nobuyoshi Ohyabu and Kuniaki Watanabe, Kinetics of Dissociative Absorption of Hydrogen through Nb Surface Covered by Oxygen, Physica Scripta. Vol. T108, 14–18, 2004.

2. A.I. Livshits, M.E. Notkin, N. Ohyabu, Y. Nakamura, I.P. Grigoriadi and A.A. Samartsev, Hydrogen release through metallic surface: the role of sputtering and of the impurity dynamics, Physica Scripta T108 (2004) 23.

3. A.I. Livshits, M.E. Notkin, Y. Hatano, K. Watanabe, A.A. Yuchimchuk, R.K. Musyaev, , Y. Nakamura, N. Ohyabu, T. Loarer, M. Bacal, Short Way Separation of D/T and He by Superpermeable Membranes: Physicochemical and Technological Aspects, 7th International Conference on Tritium Science and Technology, September 12-17, 2004, Baden-Baden, Germany

4. M.E. Notkin, A.I. Livshits, V.N. Alimov, M. Bacal, Effect of карбидизации on hydrogen permeation through niobium membrane. Book of reports of The II-nd international seminar on interaction of hydrogen with structural materials, IHISM-2004, April 12-17, 2004, Sarov, 92-99 in Russian.

5. V.N. Alimov, A.I. Livshits, Y. Hatano, K. Watanabe, Hydrogen dissolution by niobium at the first stage of surface oxidation. Book of reports of The II-nd international seminar on interaction of hydrogen with structural materials, IHISM-2004, April 12-17, 2004, Sarov, 100-110 in Russian.

6. R.K. Musyaev, A.I. Livshits et al., Tritium superpermeability: experimental study and simulation of tritium recuperation in "Prometheus” setup, Book of reports of The II-nd international seminar on interaction of hydrogen with structural materials, IHISM-2004, April 12-17, 2004, Sarov, 84-91 in Russian.

7. A.I. Livshits et al., Hydrogen superpermeability of V-group metals – application for fuel pumping and recuperation in fusion reactors. Book of reports of The II-nd international seminar on interaction of hydrogen with structural materials, IHISM-2004, April 12-17, 2004, Sarov, 75-83 in Russian.

8. R. Hayakawa, A. Busnyuk, Y. Hatano, A. Livshits and K. Watanabe, Relation Between Recombination Rate Constant of Deuterium at Niobium Surface and Oxygen Concentration in Bulk. Physica Scripta. Vol. TXX, 1–4, 2003.

9. M. Bacal, A.‑M. Bruneteau, A. Livshits, V. Alimov and M. Notkin, Plasma driven superpermeation and its applications for particle control, Proceedings of 30th EPS Conference on Controlled Fusion and Plasma Physics, Ioffe Physico‑Technical Institute, St. Petersburg, 2003.

10. M. Bacal, A.M. Bruneteau, A. Livshits, V. Alimov, M. Notkin, Hydrogen superpermeable membrane operation under plasma conditions, Fusion Engineering and Desigh, 65 (2003) 423 – 427.

11. A. I. Livshits, M. E. Notkin, N. Ohyabu, Y. Nakamura, I. P. Grigoriadi and A. A. Samartsev. Hydrogen Release Through Metallic Surface: The Role of Sputtering and of the Impurity Dynamics, Physica Scripta. Vol. TXX, (2003) 1–5.

12. A.I. Livshits, V. Alimov, A. Busnyuk, I. Grigoriadi, M. Notkin, A, A. Samartsev, M. Bacal, N. Ohyabu, M. Yamawaki, Hydrogen Superpermeation in the V group metals – applications for fuel mixture pumping and recycling in nuclear fusion machines, IHISM-2004, April 12-17, 2004, Sarov, Russia.

13. M. Bruneteau, A. Livshits, M. Notkin, M. Bacal, Correlation between Balmer a emission and hydrogen flux through a superpermeable niobium membrane in a low-pressure multicasp plasma source, NIM B 187 (2002) 393-400.

14. A.I. Livshits, V.N. Alimov, M.E. Notkin and M. Bacal, Hydrogen superpermeation resistant to ion sputtering, Appl.Phys.Lett. 81 (2002) 2656.

15. A.I. Livshits, Y. Hatano and K. Watanabe, Superpermeability in fusion technology: tritium accumulation and compression. Fusion Science and Technology, 41 (2002) 882-886.

16. A.A. Yukhimchuk, S.K. Grishechkin, M.E. Notkin, R.K. Musiaev, B.S. Lebedev, A.O. Busnyuk, Yu.I. Vinogradov, V.N. Alimov, A.I. Livshits, "Prometeus” setup for study of tritium superpermeation, Fusion Sci.Technol. 41 (2002) 929.

17. A.I. Livshits, M.E. Notkin and M. Bacal, Anomalous isotope effect in the permeation, retention and reemission at interaction of energetic hydrogen with niobium, J.Appl.Phys. 91 (2002) 4105.

18. Y. Nakamura, A. Busnyuk, H. Suzuki, Y. Nakahara, N. Ohyabu and A. Livshits, Nb interaction with hydrogen plasma, J.Appl.Phys. 89 (2001) 760.

19. A. Busnyuk, Y. Nakamura, Y. Nakahara, H. Suzuki, N. Ohyabu and A. Livshits, Membrane bias effects on plasma-driven permeation of hydrogen through niobium membrane, J.Nucl.Mater. 290–293 (2001) 57.

20. N. Ohyabu, Y. Nakamura, Y. Nakahara, A. Livshits, V. Alimov, A. Busnyuk, M. Notkin, A. Samartsev and A. Doroshin, Effect of thin films on inventory, permeation and reemission of energetic hydrogen, J.Nucl.Mater. 283–287 (2000) 1297.

21. Y. Nakamura, S. Sengoku, Y. Nakahara, N. Suzuki, H. Suzuki, N. Ohyabu, A. Busnyuk, M. Notkin and A. Livshits, Deuterium pumping experiment with superpermeable Nb membrane in JFT–2M tokamak, J.Nucl.Mater. 278 (2000) 312.

22. Y. Nakahara, Y. Nakamura, N. Ohyabu, H. Suzuki, A. Busnyuk and V. Alimov, Superpermeable membrane for particle control in divertor: the effect of impurity deposition, Fusion Eng. Design 51–52 (2000) 243.

23. Y. Nakamura, N. Ohyabu, H. Suzuki, Y. Nakahara, A. Livshits, M. Notkin, V. Alimov and A. Busnyuk, Development of divertor pumping system with superpermeable membrane, Fusion Eng. Design 49–50 (2000) 899.

1985 – 1999

1. A. Livshits, N. Ohyabu, M. Bacal, Y. Nakamura, A. Busnyuk, M. Notkin, V. Alimov, A. Samartsev H. Suzuki and F. Sube, Fuel recycling and edge plasma control with membrane techniques: plasma–membrane simulation experiments, J.Nucl.Mater. 266–269 (1999) 1267.

2. N. Ohyabu, Yu. Nakamura, Y. Nakahara, A.I. Livshits, V. Alimov, A. Busnyuk, M.E. Notkin, A. Samartsev and A. Yu. Doroshin {1999} Active control of hydrogen recycling by the permeation and absorption techniques, in C.H. Wu (ed.) Hydrogen Recycle at Plasma Facing Materials, NATO Science Series II, vol.1, Kluwer Academic Publishers, Dordrecht, pp. 25-33.

3. K. Okhoshi, V. Alimov, K/ Yamaguchi, M. Yamawaki, A. Livshits, The ion- and atom-driven transport of deuterium in Nb under the influence of surface impurities, Journal of nuclear materials, 266-269 (1999) 1167-1171.

4. A. Livshits, F. Sube, M. Notkin, M. Soloviev and M. Bacal, Plasma driven suprerpermeation of hydrogen through group Va metals, J.Appl.Phys. 84 (1998) 2558.

5. M. Bacal, El. Balghiti, A.I. Livshits, M.E. Notkin, D. Riz, M.N. Soloviev, Plasma driven superpermeation and its applications to ion sources and neutral beam injectors, Review of Scientific Instruments, 69 (1998) No2, 935-937.

6. A. Livshits, N. Ohyabu, M. Notkin, V. Alimov, H. Suzuki, A. Samartsev, M. Solovyev, I. Grigoriadi, A. Glebovsky, A. Busnyuk, A. Doroshin and K. Komatsu, Application of superpermeable membranes in fusion: the flux density problem and experimental progress, J.Nucl.Mater. 241–243 (1997) 1203.

7. A.I. Livshits, M.E. Notkin, A.A. Samartsev and M.N. Solovyov, Interactions of low energy hydrogen ions with niobium: effects of nonmetallic overlayers on reemission, retention and permeation, J.Nucl.Mater. 233–237 (1996) 1113.

8. A.I. Livshits, M.E. Notkin, V.I. Pistunovich, M. Bacal and A.O. Busnyuk, Superpermeability: critical points for applications in fusion, J.Nucl.Mater. 220–222 (1995) 259.

9. V.I. Pistunovich et al., Membrane pumping technology for helium and hydrogen isotope separation in the fusion reactor, Fusion Engineering and Design 28 (1995) 336 – 340.

10. N. Ohyabu et al., Innovative divertor concerts for LHD, Jornal of Nuclear Naterials, 220-222 (1995) 298-301.

11. A.I. Livshits, M.E. Notkin, V.I. Pistunovich, A.A. Samartsev, A.O. Busnyuk, A.Yu. Doroshin. Superpermeability to fast and thermal hydrogen particles and its possible application in fusion, Izvestiya RAN. Seriya fizicheskaya, V.58 (1994) #3, с. 162-167

12. A.I. Livshits, M.E. Notkin, A.A. Samartsev, A.O. Busnyuk, A.Yu. Doroshin and V.I. Pistunovich, Superpermeability to fast and thermal hydrogen particles: applications to the pumping and recycling of hydrogen isotopes, J.Nucl.Mater. 196–198 (1992) 159.

13. A.I. Livshits, M.E. Notkin, A.A. Samartsev and I.P. Grigoriadi, Large-scale effects of H₂O and O₂ on the absorption and permeation in Nb of energetic hydrogen particles, J.Nucl.Mater. 178 (1991) 1.

14. A.I. Livshits, M.E. Notkin and A.A. Samartsev, Physico-chemical origin of superpermeability — large-scale effects of surface chemistry on "hot” hydrogen permeation and absorption in metals, J.Nucl.Mater. 170 (1990) 70 – 94.

15. A.Yu. Doroshin, A.I. Livshits and A.A. Samartsev, Effects of carbon layers upon the interaction of palladium with atomic and molecular hydrogen, Poverkhnost: Fiz.Khim.Mekh. ("The Surface: Physics, Chemistry and Mechanics”, in Russian) 4 (1987) 37.

16. A.Yu. Doroshin, A.I. Livshits and A.A. Samartsev, A remarkable feature in hydrogen atoms interaction with palladium surface passivated by sulphur, Phys.Chem.Mech.Surf. (translated from journal "Poverkhnost: Fizika, Khimiya, Mekhanika”, printed in Russian in 1985) 4 (1987) 2321.

17. A.Yu. Doroshin, A.I. Livshits and A.A. Samartsev,Effects of carbon overlayers on the interactions of hydrogen molecules and atoms with a surface of palladium and on the permeation of hydrogen through palladium membranes, Sov.J.Chem.Phys. (translated from journal "Khimicheskaya Fizika”, printed in Russian in 1985) 4 (1987) 1824.

18. Before 1985

19. A.I. Livshits and M.E. Notkin, Superpermeability of a niobium membrane with respect to hydrogen atoms and ions, Sov.Tech.Phys.Lett. (translated from Russian journal "Pis’ma v ZhTF”) 7 (1981) 605.

20. A.I. Livshits, Superpermeability of solid membranes and gas evacuation. Part I. Theory, Vacuum 29 (1979) 103.

21. A.I. Livshits, M.E. Notkin, Yu.M. Pustovoit and A.A. Samartsev, Superpermeability of solid membranes and gas evacuation. Part II. Permeation of hydrogen through a palladium membrane under different gas and membrane boundary conditions, Vacuum 29 (1979) 113.

22. A.I. Livshits and A.A. Samartsev, Attaining of the extreme values of the adhesion and permeation probabilities in the system of hydrogen and a palladium membrane, Sov.Phys.Tech.Phys (translated from Russian journal "Zhurnal Tekhnicheskoi Fiziki”) 49 (1979) 1365

23. A.I. Livshits, M.E. Notkin and S.V. Yakovlev, Superpermeability of atomic hydrogen in Armco iron, Sov.Tech.Phys.Lett. (translated from Russian journal "Pis’ma v ZhTF”) 4 (1978) 192.

24. A.I. Livshits, Superpermeability in the atomic hydrogen – nickel system, Sov.Tech.Phys.Lett. (translated from Russian journal "Pis’ma v ZhTF”) 3 (1977) 236.

25. A.I. Livshits, I.M. Metter and A.A. Samartsev, Interaction of a deuterium atomic beam with a palladium membrane, Sov.Phys.Tech.Phys (translated from Russian journal "Zhurnal Tekhnicheskoi Fiziki”) 21 (1976) 848.

26. V.R. Kapitansky, A.I. Livshits, I.M. Metter and M.E. Notkin, Interaction of quasi-equilibrium atomic hydrogen with a metal membrane, Sov.Phys.Tech.Phys (translated from Russian journal "Zhurnal Tekhnicheskoi Fiziki”) 21 (1976) 602.

27. A.I. Livshits, Interaction of membranes with nonequilibrium gases in the case of dissociative absorption, Sov.Phys.Tech.Phys. (translated from Russian journal "Zhurnal Tekhnicheskoi Fiziki”) 21 (1976) 187.

28. A.I. Livshits, Interaction of membranes with nonequilibrium gases, Sov.Phys.Tech.Phys. (translated from Russian journal "Zhurnal Tekhnicheskoi Fiziki”) 20 (1975) 1207.