An overview of progress in Mg-based hydrogen storage films

doi:10.1088/1674-1056/ab33f0

Abstract

Mg-based hydrogen storage materials are considered to be one of the most promising solid-state hydrogen storage materials due to their large hydrogen storage capacity and low cost. However, slow hydrogen absorption/desorption rate and excessive hydrogen absorption/desorption temperature limit the application of Mg-based hydrogen storage materials. The present paper reviews the advances in the research of Mg-based hydrogen storage film in recent years, including the advantage of the film, the function theory of fabricating method and its functional theory, and the influencing factors in the technological process. The research status worldwide is introduced in detail. By comparing pure Mg, Pd-caped Mg, non-palladium capped Mg, and Mg alloy hydrogen storage films, an ideal tendency for producing Mg-based film is pointed out, for example, looking for a cheap metal element to replace the high-priced Pd, compositing Mg film with other hydrogen storage alloy of catalytic elements, and so on.

Keywords: Mg-based hydrogen storage film Pd-caped Mg film Mg alloy film interlayer intermetallic cooperative effect

Received: 03 June 2019
Revised: 28 June 2019
Accepted manuscript online:

PACS:	88.30.R-	(Hydrogen storage)
	68.37.-d	(Microscopy of surfaces, interfaces, and thin films)
	61.82.Bg	(Metals and alloys)

Fund:

Project supported by the Competitiveness Enhancement Program of National Research Tomsk Polytechnic University (Grant No. VIU-OEF-66/2019).

Corresponding Authors: Lyu Jinzhe
E-mail: czinchzhe1@tpu.ru

Cite this article:

Lyu Jinzhe, Andrey M Lider, Viktor N Kudiiarov An overview of progress in Mg-based hydrogen storage films 2019 Chin. Phys. B 28 098801

[42]	Danaie M, Fritzsche H, Peter Kalisvaart W, Tan X H, Mitlin D, Botton G A and Huot J 2015 Acta Mater. 90 259
[1]	Chen P and Zhu M 2008 Mater. Today 11 36
[43]	Guo Y, Bao S, Zheng J and Jin P 2014 Mater. Res. Innov. 18 S4-601
[2]	Wang Y and Wang Y 2017 Prog. Nat. Sci.-Mater. 27 41
[44]	Bao S, Yamada Y, Tajima K, Jin P, Okada M and Yoshimura K 2012 J. Alloy Compd. 513 495
[3]	Kan H M, Zhang N, Wang X Y and Sun H 2012 Appl. Mech. Mater. 174-177 1339
[45]	Mitsuo A and Aizawa T 2003 Mater. Sci. Forum 419-422 927
[4]	Zaluska A, Zaluski L and Ström-Olsen J O 1999 J. Alloy Compd. 288 217
[46]	Hieda J, Niinomi M, Nakai M and Cho K 2015 Mat. Sci. Eng. C 54 1
[5]	Li B, Li J, Zhao H, Yu X and Shao H 2019 Int. J. Hydrogen Energ. 44 6007
[47]	Hoche H, Groå S and Oechsner M 2014 Surf. Coat. Tech. 259 102
[6]	Sun Y, Shen C, Lai Q, Liu W, Wang D W and Aguey-Zinsou K F 2018 Energy Storage Mater. 10 168
[48]	Yamada Y, Miura M, Tajima K, Okada M and Yoshimura K 2013 Sol. Energ. Mat. Sol. C 117 396
[7]	Crivello J C, Dam B, Denys R V, Dornheim M, Grant D M, Huot J, Jensen T R, de Jongh P, Latroche M, Milanese C, Milčius D, Walker G S, Webb C J, Zlotea C and Yartys V A 2016 Appl. Phys. A-Mater. 122 97
[49]	Yamada Y, Miura M, Tajima K, Okada M and Yoshimura K 2014 Sol. Energ. Mat. Sol. C 126 237
[8]	Zhao D L and Zhang Y H 2014 Rare Met. 33 499
[50]	Platzer-Björkman C, Mongstad T, Mæhlen J P, Baldi A, Karazhanov S and Holt A 2011 Thin Solid Films 519 5949
[9]	Webb C J 2015 J. Phys. Chem. Solids 84 96
[51]	Lee S G, Ahn J R, Kim Y, Moon S H, Lee K W, Kim I S and Park Y K 2003 Supercond. Sci. Tech. 16 1550
[10]	Hanada N, Ichikawa T, Hino S and Fujii H 2006 J. Alloy Compd. 420 46
[52]	Rogers M, Barcelo S, Chen X, Richardson T J, Berube V, Chen G, Dresselhaus M S, Grigoropoulos C P and Mao S S 2009 Appl. Phys. A-Mater. 96 349
[11]	Jin S A, Shim J H, Cho Y W and Yi K W 2007 J. Power Sources 172 859
[53]	Wioniewski Z, Bystrzycki J, Mróz W and Jastrząbski C 2009 J. Phys.:Conf. Ser. 146 012018
[12]	Oelerich W, Klassen T and Bormann R 2001 Adv. Eng. Mater. 3 487
[54]	Milcius D, Grbović-Novaković J, Zostautienė R, Lelis M, Girdzevicius D and Urbonavicius M 2015 J. Alloy Compd. 647 790
[13]	Liu Z and Lei Z 2007 J. Alloy Compd. 443 121
[55]	Iliescu I, Skryabina N, Fruchart D, Bes A, Rivoirard S, de Rango P and Lacoste A 2018 J. Alloy Compd. 768 157
[14]	Song M, Bobet J L and Darriet B 2002 J. Alloy Compd. 340 256
[56]	Sakaguchi H, Taniguchi N, Seri H, Shiokawa J and Adachi G 1988 J. Appl. Phys. 64 888
[15]	Varin R A, Czujko T and Wronski Z 2006 Nanotechnology 17 3856
[57]	Ares J R, Leardini F, Díaz-Chao P, Ferrer I J, Fernández J F and Sánchez C 2014 Int. J. Hydrogen Energ. 39 2587
[16]	Malka I E, Czujko T and Bystrzycki J 2010 Int. J. Hydrogen Energ. 35 1706
[58]	Jia Z, Ma G, Li Y and Wang Y 2005 Titanium Ind. Prog. 22 28(in Chinese)
[17]	Chen D, Chen L, Liu S, Ma C X, Chen D M and Wang L B 2004 J. Alloy Compd. 372 231
[59]	Anders A 2010 Thin Solid Films 518 4087
[18]	Molinas B, Ghilarducci A A, Melnichuk M, Corso H L, Peretti H A, Agresti F, Bianchin A, Lo Russo S, Maddalena A and Principi G 2009 Int. J. Hydrogen. Energ. 34 4597
[60]	Léon A, Knystautas E, Huot J and Schulz R 2002 J. Alloy Compd. 345 158
[19]	de Jongh P E, Wagemans R W P, Eggenhuisen T M, Dauvillier B S, Radstake P B, Meeldijk J D, Geus J W and de Jong K P 2007 Chem. Mater. 19 6052
[61]	Leon A, Knystautas E J, Huot J and Schulz R 2001 Proc. SPIE 4468 105
[20]	Au Y S, Ponthieu M, van Zwienen R, Zlotea C, Cuevas F, de Jong K P and de Jongh P E 2013 J. Mater. Chem. A 1 9983
[62]	Le-Quoc H, Lacoste A, Miraglia S, Béchu S, Bés A and Laversenne L 2014 Int. J. Hydrogen Energ. 39 17718
[21]	Zhao-Karger Z, Hu J, Roth A, Wang D, Kübel C, Lohstroh W and Fichtner M 2010 Chem. Commun. 46 8353
[63]	Ham B, Junkaew A, Arróyave R, Park J, Zhou H C, Foley D, Rios S, Wang H and Zhang X 2014 Int. J. Hydrogen Energ. 39 2597
[22]	Zlotea C, Chevalier-César C, Léonel E, Leroy E, Cuevas F, Dibandjo P, Vix-Guterl C, Martens T and Latroche M 2011 Faraday Discuss. 151 117
[64]	Léon A, Knystautas E J, Huot J and Schulz R 2006 Thin Solid Films 496 683
[23]	Liu Y, Zou J, Zeng X, Wu X, Tian H, Ding W, Wang J and Walter A 2013 Int. J. Hydrogen Energ. 38 5302
[65]	He Y P and Zhao Y P 2009 J. Alloy Compd. 482 173
[24]	Xia G, Tan Y, Chen X, Sun D, Guo Z, Liu H, Ouyang L, Zhu M and Yu X 2015 Adv. Mater. 27 5981
[66]	Lelis M, Milcius D and Zostautiene R 2013 Int. J. Hydrogen Energ. 38 12172
[25]	Cui J, Wang H, Sun D L, Zhang Q A and Zhu M 2016 Rare Met. 35 401
[67]	Stander C M 1977 Z. Phys. Chem. 104 229
[26]	Zaluska A, Zaluski L and Ström-Olsen J O 2001 Appl. Phys. A-Mater. 72 157
[68]	Ross D K 2006 Vacuum 80 1084
[27]	Zhu M, Peng C H, Ouyang L Z and Tong Y Q 2006 J. Alloy Compd. 426 316
[69]	Barawi M, Granero C, Díaz-Chao P, Manzano C V, Martin-Gonzalez M, Jimenez-Rey D, Ferrer I J, Ares J R, Fernandez J F and Sánchez C 2014 Int. J. Hydrogen Energ. 39 9865
[28]	Sakintuna B, Lamaridarkrim F and Hirscher M 2007 Int. J. Hydrogen Energ. 32 1121
[70]	Ares J R, Leardini F, Díaz-Chao P, Bodega J, Koon D W, Ferrer I J, Fernándeza J F and Sánchez C 2010 J. Alloy Compd. 495 650
[29]	Shao H, Xin G, Zheng J, Li X and Akiba E 2012 Nano Energy 1 590
[71]	Ingason A S and Olafsson S 2005 J. Alloy Compd. 404-406 469
[30]	Wang C S, Wang X H, Lei Y Q, Chen C P and Wang Q D 1996 Int. J. Hydrogen Energ. 21 471
[72]	Gautam Y K, Chawla A K, Khan S A, Agrawal R D and Chandra R 2012 Int. J. Hydrogen Energ. 37 3772
[31]	Liang G, Huot J, Boily S, Van Neste A and Schulz R 1999 J. Alloy Compd. 292 247
[73]	Kumar S, Reddy G L N and Raju V S 2009 J. Alloy Compd. 476 500
[32]	Jung K S, Lee E Y and Lee K S 2006 J. Alloy Compd. 421 179
[74]	Higuchi K, Kajioka H, Toiyama K, Fujii H, Orimo S and Kikuchi Y 1999 J. Alloy Compd. 293-295 484
[33]	Oelerich W, Klassen T and Bormann R 2001 J. Alloy Compd. 315 237
[75]	Uchida H T, Kirchheim R and Pundt A 2011 Scr. Mater. 64 935
[34]	Lillo-Ródenas M A, Guo Z X, Aguey-Zinsou K F, Cazorla-Amorós D and Linares-Solano A 2008 Carbon 46 126
[76]	Qu J, Wang Y, Xie L, Zheng J and Liu Y Li X 2009 J. Power Sources 186 515
[35]	Kan H M, Zhang N and Wang X Y 2013 Adv. Mater. Res. 634-638 2588
[77]	Reddy G L N, Kumar S, Sunitha Y, Kalavathi S and Raju V S 2009 J. Alloy Compd. 481 714
[36]	Révész Á, Fátay D and Spassov T 2007 J. Alloy Compd. 434-435 725
[78]	Sunitha Y, Reddy G L N, Kumar S and Raju V S 2009 Appl. Surf. Sci. 256 1553
[37]	Charlas B, Gillia O, Doremus P and Imbault D 2012 Int. J. Hydrogen Energ. 37 16031
[79]	Siviero G, Bello V, Mattei G, Mazzoldi P, Battaglin G, Bazzanella N, Checchettoc R and Miotello A 2009 Int. J. Hydrogen Energ. 34 4817
[38]	Zou J, Sun H, Zeng X, Ding W and Chang J 2011 Chin. J. Power Sources 35 469(in Chinese)
[80]	Callini E, Pasquini L, Rude L H, Nielsen T K, Jensen T R and Bonetti E 2010 J. Appl. Phys. 108 073513
[39]	Wang H, Ouyang L Z, Peng C H, Zeng M Q, Chung C Y and Zhu M 2004 J. Alloy Compd. 370 L4
[81]	Tang F, Yuan W, Lu T M and Wang G C 2008 J. Appl. Phys. 104 033534
[40]	Singh S, Eijt S W H, Zandbergen M W, Legerstee W J and Svetchnikov V L 2007 J. Alloy Compd. 441 344
[82]	Gharavi A G, Akyıldız H and Öztürk T 2013 J. Alloy Compd. 580 S175
[41]	Gautam Y K, Sanger A, Kumar A and Chandra R 2015 Int. J. Hydrogen Energ. 40 15549
[83]	Higuchi K, Yamamoto K, Kajioka H, Toiyama K, Honda M, Orimo S and Fujii H 2002 J. Alloy Compd. 330-332 526
[42]	Danaie M, Fritzsche H, Peter Kalisvaart W, Tan X H, Mitlin D, Botton G A and Huot J 2015 Acta Mater. 90 259
[84]	Bouhtiyya S and Roué L 2010 J. Mater. Sci. 45 946
[43]	Guo Y, Bao S, Zheng J and Jin P 2014 Mater. Res. Innov. 18 S4-601
[85]	Qu J, Liu Y, Xin G, Zheng J and Li X 2014 Dalton Trans. 43 5908
[44]	Bao S, Yamada Y, Tajima K, Jin P, Okada M and Yoshimura K 2012 J. Alloy Compd. 513 495
[86]	Barcelo S, Rogers M, Grigoropoulos C P and Mao S S 2010 Int. J. Hydrogen Energ. 35 7232
[45]	Mitsuo A and Aizawa T 2003 Mater. Sci. Forum 419-422 927
[87]	Fujii H, Higuchi K, Yamamoto K, Kajioka H, Orimo S and Toiyama K 2002 Mater. Trans. 43 2721
[46]	Hieda J, Niinomi M, Nakai M and Cho K 2015 Mat. Sci. Eng. C 54 1
[88]	Yoshimura K, Yamada Y and Okada M 2004 Surf. Sci. 566-568 751
[47]	Hoche H, Groå S and Oechsner M 2014 Surf. Coat. Tech. 259 102
[89]	Checchetto R, Brusa R S, Bazzanella N, Karwasz G P, Spagolla M, Miotello A, Mengucci P and Di Cristoforo A 2004 Thin Solid Films 469-470 350
[48]	Yamada Y, Miura M, Tajima K, Okada M and Yoshimura K 2013 Sol. Energ. Mat. Sol. C 117 396
[90]	Paillier J and Roue L 2005 J. Alloy Compd. 404-406 473
[49]	Yamada Y, Miura M, Tajima K, Okada M and Yoshimura K 2014 Sol. Energ. Mat. Sol. C 126 237
[91]	Paillier J, Bouhtiyya S, Ross G G and Roué L 2006 Thin Solid Films 500 117
[50]	Platzer-Björkman C, Mongstad T, Mæhlen J P, Baldi A, Karazhanov S and Holt A 2011 Thin Solid Films 519 5949
[92]	Bouhtiyya S and Roué L 2009 Int. J. Hydrogen Energ. 34 5778
[51]	Lee S G, Ahn J R, Kim Y, Moon S H, Lee K W, Kim I S and Park Y K 2003 Supercond. Sci. Tech. 16 1550
[93]	Qu J, Sun B, Liu Y, Yang R, Li Y and Li X 2010 Int. J. Hydrogen Energ. 35 8331
[52]	Rogers M, Barcelo S, Chen X, Richardson T J, Berube V, Chen G, Dresselhaus M S, Grigoropoulos C P and Mao S S 2009 Appl. Phys. A-Mater. 96 349
[94]	Qu J, Sun B, Zheng J, Yang R, Wang Y and Li X 2010 J. Power Sources 195 1190
[53]	Wioniewski Z, Bystrzycki J, Mróz W and Jastrząbski C 2009 J. Phys.:Conf. Ser. 146 012018
[95]	Xin G, Yang J, Fu H, Li W, Zheng J and Li X 2013 RSC Adv. 3 4167
[54]	Milcius D, Grbović-Novaković J, Zostautienė R, Lelis M, Girdzevicius D and Urbonavicius M 2015 J. Alloy Compd. 647 790
[96]	Kalisvaart W P, Luber E J, Poirier E, Harrower C T, Teichert A, Wallacher D, Grimm N, Steitz R, Fritzsche H and Mitlin D 2012 J. Phys. Chem. C 116 5868
[55]	Iliescu I, Skryabina N, Fruchart D, Bes A, Rivoirard S, de Rango P and Lacoste A 2018 J. Alloy Compd. 768 157
[97]	Jung H, Cho S and Lee W 2015 Appl. Phys. Lett. 106 193902
[56]	Sakaguchi H, Taniguchi N, Seri H, Shiokawa J and Adachi G 1988 J. Appl. Phys. 64 888
[98]	Xin G, Yang J, Wang C, Zheng J and Li X 2012 Dalton Trans. 41 6783
[57]	Ares J R, Leardini F, Díaz-Chao P, Ferrer I J, Fernández J F and Sánchez C 2014 Int. J. Hydrogen Energ. 39 2587
[99]	Song Y, Guo Z X and Yang R 2004 Phys. Rev. B 69 094205
[58]	Jia Z, Ma G, Li Y and Wang Y 2005 Titanium Ind. Prog. 22 28(in Chinese)
[100]	Jain P, Jain A, Vyas D, Kabiraj D, Khan S A and Jain I P 2012 Int. J. Hydrogen Energ. 37 3779
[59]	Anders A 2010 Thin Solid Films 518 4087
[101]	Doménech-Ferrer R, Gurusamy Sridharan M, Garcia G, Pi F and Rodríguez-Viejo J 2007 J. Power Sources 169 117
[60]	Léon A, Knystautas E, Huot J and Schulz R 2002 J. Alloy Compd. 345 158
[102]	Jain P, Jain A, Vyas D, Verma R, Khan S A and Jain I P 2011 J. Alloy Compd. 509 2105
[61]	Leon A, Knystautas E J, Huot J and Schulz R 2001 Proc. SPIE 4468 105
[103]	Tan X, Harrower C T, Amirkhiz B S and Mitlin D 2009 Int. J. Hydrogen Energ. 34 7741
[62]	Le-Quoc H, Lacoste A, Miraglia S, Béchu S, Bés A and Laversenne L 2014 Int. J. Hydrogen Energ. 39 17718
[104]	Jung H, Cho S and Lee W 2015 J. Alloy Compd. 635 203
[63]	Ham B, Junkaew A, Arróyave R, Park J, Zhou H C, Foley D, Rios S, Wang H and Zhang X 2014 Int. J. Hydrogen Energ. 39 2597
[105]	Jung H, Yuh J, Cho S and Lee W 2014 J. Alloy Compd. 601 63
[64]	Léon A, Knystautas E J, Huot J and Schulz R 2006 Thin Solid Films 496 683
[106]	Reddy G L N and Kumar S 2018 Int. J. Hydrogen Energ. 43 2840
[65]	He Y P and Zhao Y P 2009 J. Alloy Compd. 482 173
[107]	Fry C M P, Grant D M and Walker G S 2014 Int. J. Hydrogen Energ. 39 1173
[66]	Lelis M, Milcius D and Zostautiene R 2013 Int. J. Hydrogen Energ. 38 12172
[108]	Fry C M P, Grant D M and Walker G S 2013 Int. J. Hydrogen Energ. 38 982
[67]	Stander C M 1977 Z. Phys. Chem. 104 229
[109]	Mooij L, Perkisas T, Pálsson G, Schreuders H, Wolff M, Hjörvarsson B, Bals S and Dam B 2014 Int. J. Hydrogen Energ. 39 17092
[68]	Ross D K 2006 Vacuum 80 1084
[110]	Ham B, Junkaew A, Arroyave R, Chen J, Wang H, Wang P, Majewski J, Park J, Zhou H C, Arvapally R K, Kaipa U, Omary M A, Zhang X Y, Ren Y and Zhang X 2013 Int. J. Hydrogen Energ. 38 8328
[69]	Barawi M, Granero C, Díaz-Chao P, Manzano C V, Martin-Gonzalez M, Jimenez-Rey D, Ferrer I J, Ares J R, Fernandez J F and Sánchez C 2014 Int. J. Hydrogen Energ. 39 9865
[111]	Wang H, Ouyang L Z, Zeng M Q and Zhu M 2004 J. Alloy Compd. 375 313
[70]	Ares J R, Leardini F, Díaz-Chao P, Bodega J, Koon D W, Ferrer I J, Fernándeza J F and Sánchez C 2010 J. Alloy Compd. 495 650
[112]	Ouyang L Z, Wang H, Zhu M, Zou J and Chung C Y 2005 J. Alloy Compd. 404-406 485
[71]	Ingason A S and Olafsson S 2005 J. Alloy Compd. 404-406 469
[113]	Ouyang L Z, Wang H, Zou J and Zhu M J 2006 Wuhan Univ. Technol. 28 325(in Chinese)
[72]	Gautam Y K, Chawla A K, Khan S A, Agrawal R D and Chandra R 2012 Int. J. Hydrogen Energ. 37 3772
[114]	Zhu M, Gao Y, Che X Z, Yang Y Q and Chung C Y 2002 J. Alloy Compd. 330-332 708
[73]	Kumar S, Reddy G L N and Raju V S 2009 J. Alloy Compd. 476 500
[115]	Orimo S and Fujii H 2001 Appl. Phys. A 72 167
[74]	Higuchi K, Kajioka H, Toiyama K, Fujii H, Orimo S and Kikuchi Y 1999 J. Alloy Compd. 293-295 484
[116]	Jangid M K and Singh M 2012 Int. J. Hydrogen Energ. 37 3786
[75]	Uchida H T, Kirchheim R and Pundt A 2011 Scr. Mater. 64 935
[117]	Ostenfeld C W, Johansson M and Chorkendorff I 2007 Surf. Sci. 601 1862
[76]	Qu J, Wang Y, Xie L, Zheng J and Liu Y Li X 2009 J. Power Sources 186 515
[118]	Akyildiz H, Ozenbas M and Ozturk T 2006 Int. J. Hydrogen Energ. 31 1379
[77]	Reddy G L N, Kumar S, Sunitha Y, Kalavathi S and Raju V S 2009 J. Alloy Compd. 481 714
[119]	Shen C and Aguey-Zinsou K F 2018 Int. J. Hydrogen Energ. 43 22385
[78]	Sunitha Y, Reddy G L N, Kumar S and Raju V S 2009 Appl. Surf. Sci. 256 1553
[120]	Setijadi E J, Boyer C and Aguey-Zinsou K F 2014 RSC Adv. 4 39934
[79]	Siviero G, Bello V, Mattei G, Mazzoldi P, Battaglin G, Bazzanella N, Checchettoc R and Miotello A 2009 Int. J. Hydrogen Energ. 34 4817
[121]	Hashimoto T and Notomi M 2016 Mech. Eng. J. 3 16-00228
[80]	Callini E, Pasquini L, Rude L H, Nielsen T K, Jensen T R and Bonetti E 2010 J. Appl. Phys. 108 073513
[122]	Lohstroh W, Westerwaal R J, van Mechelen J L M, Schreuders H, Dam B and Griessen R 2007 J. Alloy Compd. 430 13
[81]	Tang F, Yuan W, Lu T M and Wang G C 2008 J. Appl. Phys. 104 033534
[123]	Tan X, Danaie M, Kalisvaart W P and Mitlin D 2011 Int. J. Hydrogen Energ. 36 2154
[82]	Gharavi A G, Akyıldız H and Öztürk T 2013 J. Alloy Compd. 580 S175
[124]	Ouyang L Z, Ye S Y, Dong H W and Zhu M 2007 Appl. Phys. Lett. 90 021917
[83]	Higuchi K, Yamamoto K, Kajioka H, Toiyama K, Honda M, Orimo S and Fujii H 2002 J. Alloy Compd. 330-332 526
[125]	Chen J, Yang H B, Xia Y Y, Kuriyama N, Xu Q and Sakai T 2002 Chem. Mater. 14 2834
[126]	Richardson T J, Slack J L, Armitage R D, Kostecki R, Farangis B and Rubin M D 2001 Appl. Phys. Lett. 78 3047
[84]	Bouhtiyya S and Roué L 2010 J. Mater. Sci. 45 946
[127]	Ouyang L Z, Wang H, Chung C Y, Ahn J H and Zhu M 2006 J. Alloy Compd. 422 58
[85]	Qu J, Liu Y, Xin G, Zheng J and Li X 2014 Dalton Trans. 43 5908
[128]	Wang H, Ouyang L, Zeng M and Zhu M 2004 Int. J. Hydrogen Energ. 29 1389
[86]	Barcelo S, Rogers M, Grigoropoulos C P and Mao S S 2010 Int. J. Hydrogen Energ. 35 7232
[129]	Ouyang L Z Chung C Y, Wang H and Zhu M 2003 J. Vac. Sci. Technol. A 21 1905
[87]	Fujii H, Higuchi K, Yamamoto K, Kajioka H, Orimo S and Toiyama K 2002 Mater. Trans. 43 2721
[130]	Wirth E, Munnik F, Pranevičius L L and Milcius D 2009 J. Alloy Compd. 475 917
[88]	Yoshimura K, Yamada Y and Okada M 2004 Surf. Sci. 566-568 751
[131]	Pranevicius L, Wirth E, Milcius D, Lelis M, Pranevicius L L and Bacianskas A 2009 Appl. Surf. Sci. 255 5971
[89]	Checchetto R, Brusa R S, Bazzanella N, Karwasz G P, Spagolla M, Miotello A, Mengucci P and Di Cristoforo A 2004 Thin Solid Films 469-470 350
[132]	Pranevicius L, Milcius D and Templier C 2009 Int. J. Hydrogen Energ. 34 5131
[90]	Paillier J and Roue L 2005 J. Alloy Compd. 404-406 473
[133]	Mosaner P, Bazzanella N, Bonelli M, Checchetto R and Miotello A 2004 Mat. Sci. Eng.:B 108 33
[91]	Paillier J, Bouhtiyya S, Ross G G and Roué L 2006 Thin Solid Films 500 117
[134]	Huang W C, Yuan J, Zhang J G, Liu J W, Wang H, Ouyang L Z, Zeng M Q and Zhu M 2017 Rare Met. 36 574
[92]	Bouhtiyya S and Roué L 2009 Int. J. Hydrogen Energ. 34 5778
[135]	Checchetto R, Bazzanella N, Miotello A and Mengucci P 2008 J. Phys. Chem. Solids 69 2160
[93]	Qu J, Sun B, Liu Y, Yang R, Li Y and Li X 2010 Int. J. Hydrogen Energ. 35 8331
[136]	Mengucci P, Barucca G, Majni G, Bazzanella N, Checchetto R and Miotello A 2011 J. Alloy Compd. 509 S572
[94]	Qu J, Sun B, Zheng J, Yang R, Wang Y and Li X 2010 J. Power Sources 195 1190
[137]	Pranevicius L, Milcius D, Pranevicius L L and Thomas G 2004 J. Alloy Compd. 373 9
[95]	Xin G, Yang J, Fu H, Li W, Zheng J and Li X 2013 RSC Adv. 3 4167
[138]	Niessen R A H and Notten P H L 2005 Electrochem. Solid-State Lett. 8 A534
[96]	Kalisvaart W P, Luber E J, Poirier E, Harrower C T, Teichert A, Wallacher D, Grimm N, Steitz R, Fritzsche H and Mitlin D 2012 J. Phys. Chem. C 116 5868
[139]	Niessen R A H and Notten P H L 2005 J. Alloy Compd. 404-406 457
[97]	Jung H, Cho S and Lee W 2015 Appl. Phys. Lett. 106 193902
[140]	Kalisvaart W P, Niessen R A H and Notten P H L 2006 J. Alloy Compd. 417 280
[98]	Xin G, Yang J, Wang C, Zheng J and Li X 2012 Dalton Trans. 41 6783
[141]	Ingason Á S, Eriksson A K and Ólafsson S 2007 J. Alloy Compd. 446-447 530
[99]	Song Y, Guo Z X and Yang R 2004 Phys. Rev. B 69 094205
[142]	Darok X, Rougier A, Bhat V, Aymard L, Dupont L, Laffont L and Tarascon J M 2006 Thin Solid Films 515 1299
[100]	Jain P, Jain A, Vyas D, Kabiraj D, Khan S A and Jain I P 2012 Int. J. Hydrogen Energ. 37 3779
[143]	Tan Z, Chiu C, Heilweil E J and Bendersky L A 2011 Int. J. Hydrogen Energ. 36 9702
[101]	Doménech-Ferrer R, Gurusamy Sridharan M, Garcia G, Pi F and Rodríguez-Viejo J 2007 J. Power Sources 169 117
[144]	Zheng S, Wang K, Oleshko V P and Bendersky L A 2012 J. Phys. Chem. C 116 21277
[102]	Jain P, Jain A, Vyas D, Verma R, Khan S A and Jain I P 2011 J. Alloy Compd. 509 2105
[145]	Baldi A, Mooij L, Palmisano V, Schreuders H, Krishnan G, Kooi B J, Dam B and Griessen R 2018 Phys. Rev. Lett. 121 255503
[103]	Tan X, Harrower C T, Amirkhiz B S and Mitlin D 2009 Int. J. Hydrogen Energ. 34 7741
[146]	Borsa D M, Baldi A, Pasturel M, Schreuders H, Dam B, Griessen R, Vermeulen P and Notten P H L 2006 Appl. Phys. Lett. 88 241910
[104]	Jung H, Cho S and Lee W 2015 J. Alloy Compd. 635 203
[147]	Iliescu I, Skryabina N, Fruchart D, Bes A and Lacoste A 2017 J. Alloy Compd. 708 489
[105]	Jung H, Yuh J, Cho S and Lee W 2014 J. Alloy Compd. 601 63
[148]	Jensen I J T, Thogersen A, Lovvik O M, Schreuders H, Dam B and Diplas S 2013 Int. J. Hydrogen Energ. 38 10704
[106]	Reddy G L N and Kumar S 2018 Int. J. Hydrogen Energ. 43 2840
[149]	Richardson T J, Farangis B, Slack J L, Nachimuthu P, Perera R, Tamura N and Rubin M 2003 J. Alloy Compd. 356-357 204
[107]	Fry C M P, Grant D M and Walker G S 2014 Int. J. Hydrogen Energ. 39 1173
[150]	Olk C H and Haddad D 2006 J. Alloy Compd. 417 235
[108]	Fry C M P, Grant D M and Walker G S 2013 Int. J. Hydrogen Energ. 38 982
[151]	Fritzsche H, Kalisvaart W P, Zahiri B, Flacau R and Mitlin D 2012 Int. J. Hydrogen Energ. 37 3540
[109]	Mooij L, Perkisas T, Pálsson G, Schreuders H, Wolff M, Hjörvarsson B, Bals S and Dam B 2014 Int. J. Hydrogen Energ. 39 17092
[152]	Zahiri B, Danaie M, Tan X, Amirkhiz B S, Botton G A and Mitlin D 2012 J. Phys. Chem. C 116 3188
[110]	Ham B, Junkaew A, Arroyave R, Chen J, Wang H, Wang P, Majewski J, Park J, Zhou H C, Arvapally R K, Kaipa U, Omary M A, Zhang X Y, Ren Y and Zhang X 2013 Int. J. Hydrogen Energ. 38 8328
[153]	Paillier J, Dolbec R, Ali El Khakani M and Roué L 2003 J. Alloy Compd. 358 126
[111]	Wang H, Ouyang L Z, Zeng M Q and Zhu M 2004 J. Alloy Compd. 375 313
[112]	Ouyang L Z, Wang H, Zhu M, Zou J and Chung C Y 2005 J. Alloy Compd. 404-406 485
[113]	Ouyang L Z, Wang H, Zou J and Zhu M J 2006 Wuhan Univ. Technol. 28 325(in Chinese)
[114]	Zhu M, Gao Y, Che X Z, Yang Y Q and Chung C Y 2002 J. Alloy Compd. 330-332 708
[115]	Orimo S and Fujii H 2001 Appl. Phys. A 72 167
[116]	Jangid M K and Singh M 2012 Int. J. Hydrogen Energ. 37 3786
[117]	Ostenfeld C W, Johansson M and Chorkendorff I 2007 Surf. Sci. 601 1862
[118]	Akyildiz H, Ozenbas M and Ozturk T 2006 Int. J. Hydrogen Energ. 31 1379
[119]	Shen C and Aguey-Zinsou K F 2018 Int. J. Hydrogen Energ. 43 22385
[120]	Setijadi E J, Boyer C and Aguey-Zinsou K F 2014 RSC Adv. 4 39934
[121]	Hashimoto T and Notomi M 2016 Mech. Eng. J. 3 16-00228
[122]	Lohstroh W, Westerwaal R J, van Mechelen J L M, Schreuders H, Dam B and Griessen R 2007 J. Alloy Compd. 430 13
[123]	Tan X, Danaie M, Kalisvaart W P and Mitlin D 2011 Int. J. Hydrogen Energ. 36 2154
[124]	Ouyang L Z, Ye S Y, Dong H W and Zhu M 2007 Appl. Phys. Lett. 90 021917
[125]	Chen J, Yang H B, Xia Y Y, Kuriyama N, Xu Q and Sakai T 2002 Chem. Mater. 14 2834
[126]	Richardson T J, Slack J L, Armitage R D, Kostecki R, Farangis B and Rubin M D 2001 Appl. Phys. Lett. 78 3047
[127]	Ouyang L Z, Wang H, Chung C Y, Ahn J H and Zhu M 2006 J. Alloy Compd. 422 58
[128]	Wang H, Ouyang L, Zeng M and Zhu M 2004 Int. J. Hydrogen Energ. 29 1389
[129]	Ouyang L Z Chung C Y, Wang H and Zhu M 2003 J. Vac. Sci. Technol. A 21 1905
[130]	Wirth E, Munnik F, Pranevičius L L and Milcius D 2009 J. Alloy Compd. 475 917
[131]	Pranevicius L, Wirth E, Milcius D, Lelis M, Pranevicius L L and Bacianskas A 2009 Appl. Surf. Sci. 255 5971
[132]	Pranevicius L, Milcius D and Templier C 2009 Int. J. Hydrogen Energ. 34 5131
[133]	Mosaner P, Bazzanella N, Bonelli M, Checchetto R and Miotello A 2004 Mat. Sci. Eng.:B 108 33
[134]	Huang W C, Yuan J, Zhang J G, Liu J W, Wang H, Ouyang L Z, Zeng M Q and Zhu M 2017 Rare Met. 36 574
[135]	Checchetto R, Bazzanella N, Miotello A and Mengucci P 2008 J. Phys. Chem. Solids 69 2160
[136]	Mengucci P, Barucca G, Majni G, Bazzanella N, Checchetto R and Miotello A 2011 J. Alloy Compd. 509 S572
[137]	Pranevicius L, Milcius D, Pranevicius L L and Thomas G 2004 J. Alloy Compd. 373 9
[138]	Niessen R A H and Notten P H L 2005 Electrochem. Solid-State Lett. 8 A534
[139]	Niessen R A H and Notten P H L 2005 J. Alloy Compd. 404-406 457
[140]	Kalisvaart W P, Niessen R A H and Notten P H L 2006 J. Alloy Compd. 417 280
[141]	Ingason Á S, Eriksson A K and Ólafsson S 2007 J. Alloy Compd. 446-447 530
[142]	Darok X, Rougier A, Bhat V, Aymard L, Dupont L, Laffont L and Tarascon J M 2006 Thin Solid Films 515 1299
[143]	Tan Z, Chiu C, Heilweil E J and Bendersky L A 2011 Int. J. Hydrogen Energ. 36 9702
[144]	Zheng S, Wang K, Oleshko V P and Bendersky L A 2012 J. Phys. Chem. C 116 21277
[145]	Baldi A, Mooij L, Palmisano V, Schreuders H, Krishnan G, Kooi B J, Dam B and Griessen R 2018 Phys. Rev. Lett. 121 255503
[146]	Borsa D M, Baldi A, Pasturel M, Schreuders H, Dam B, Griessen R, Vermeulen P and Notten P H L 2006 Appl. Phys. Lett. 88 241910
[147]	Iliescu I, Skryabina N, Fruchart D, Bes A and Lacoste A 2017 J. Alloy Compd. 708 489
[148]	Jensen I J T, Thogersen A, Lovvik O M, Schreuders H, Dam B and Diplas S 2013 Int. J. Hydrogen Energ. 38 10704
[149]	Richardson T J, Farangis B, Slack J L, Nachimuthu P, Perera R, Tamura N and Rubin M 2003 J. Alloy Compd. 356-357 204
[150]	Olk C H and Haddad D 2006 J. Alloy Compd. 417 235
[151]	Fritzsche H, Kalisvaart W P, Zahiri B, Flacau R and Mitlin D 2012 Int. J. Hydrogen Energ. 37 3540
[152]	Zahiri B, Danaie M, Tan X, Amirkhiz B S, Botton G A and Mitlin D 2012 J. Phys. Chem. C 116 3188
[153]	Paillier J, Dolbec R, Ali El Khakani M and Roué L 2003 J. Alloy Compd. 358 126

[1]	Ru thickness-dependent interlayer coupling and ultrahigh FMR frequency in FeCoB/Ru/FeCoB sandwich trilayers Le Wang(王乐), Zhao-Xuan Jing(荆照轩), Ao-Ran Zhou(周傲然), and Shan-Dong Li(李山东). Chin. Phys. B, 2022, 31(8): 086201.
[2]	Introducing voids around the interlayer of AlN by high temperature annealing Jianwei Ben(贲建伟), Jiangliu Luo(罗江流), Zhichen Lin(林之晨), Xiaojuan Sun(孙晓娟), Xinke Liu(刘新科), and Xiaohua Li(黎晓华). Chin. Phys. B, 2022, 31(7): 076104.
[3]	A review on 3d transition metal dilute magnetic REIn₃ intermetallic compounds Xin-Peng Guo(郭新鹏), Yong-Quan Guo(郭永权), Lin-Han Yin(殷林瀚), and Qiang He(何强). Chin. Phys. B, 2022, 31(3): 037501.
[4]	Sputtered SnO₂ as an interlayer for efficient semitransparent perovskite solar cells Zheng Fang(方正), Liu Yang(杨柳), Yongbin Jin(靳永斌), Kaikai Liu(刘凯凯), Huiping Feng(酆辉平), Bingru Deng(邓冰如), Lingfang Zheng(郑玲芳), Changcai Cui(崔长彩), Chengbo Tian(田成波), Liqiang Xie(谢立强), Xipeng Xu(徐西鹏), and Zhanhua Wei(魏展画). Chin. Phys. B, 2022, 31(11): 118801.
[5]	Polarized photoluminescence spectroscopy in WS₂, WSe₂ atomic layers and heterostructures by cylindrical vector beams Lijun Wu(吴莉君), Cuihuan Ge(葛翠环), Kai Braun, Mai He(贺迈), Siman Liu(刘思嫚), Qingjun Tong(童庆军), Xiao Wang(王笑), and Anlian Pan(潘安练). Chin. Phys. B, 2021, 30(8): 087802.
[6]	Effect of the potential function and strain rate on mechanical behavior of the single crystal Ni-based alloys: A molecular dynamics study Qian Yin(尹倩), Ye-Da Lian(连业达), Rong-Hai Wu(巫荣海), Li-Qiang Gao(高利强), Shu-Qun Chen(陈树群), and Zhi-Xun Wen(温志勋). Chin. Phys. B, 2021, 30(8): 080204.
[7]	Signatures of strong interlayer coupling in γ-InSe revealed by local differential conductivity Xiaoshuai Fu(富晓帅), Li Liu(刘丽), Li Zhang(张力), Qilong Wu(吴奇龙), Yu Xia(夏雨), Lijie Zhang(张利杰), Yuan Tian(田园), Long-Jing Yin(殷隆晶), and Zhihui Qin(秦志辉). Chin. Phys. B, 2021, 30(8): 087306.
[8]	Zero-field skyrmions in FeGe thin films stabilized through attaching a perpendicularly magnetized single-domain Ni layer Zi-Bo Zhang(张子博) and Yong Hu(胡勇). Chin. Phys. B, 2021, 30(7): 077503.
[9]	Superconductivity in an intermetallic oxide Hf₃Pt₄Ge₂O Chengchao Xu(徐程超), Hong Wang(王鸿), Huanfang Tian(田焕芳), Youguo Shi(石友国), Zi-An Li(李子安), Ruijuan Xiao(肖睿娟), Honglong Shi(施洪龙), Huaixin Yang(杨槐馨), and Jianqi Li(李建奇). Chin. Phys. B, 2021, 30(7): 077403.
[10]	Thermally induced band hybridization in bilayer-bilayer MoS₂/WS₂ heterostructure Yanchong Zhao(赵岩翀), Tao Bo(薄涛), Luojun Du(杜罗军), Jinpeng Tian(田金朋), Xiaomei Li(李晓梅), Kenji Watanabe, Takashi Taniguchi, Rong Yang(杨蓉), Dongxia Shi(时东霞), Sheng Meng(孟胜), Wei Yang(杨威), and Guangyu Zhang(张广宇). Chin. Phys. B, 2021, 30(5): 057801.
[11]	Energy cooperation in quantum thermoelectric systems withmultiple electric currents Yefeng Liu(刘叶锋), Jincheng Lu(陆金成), Rongqian Wang(王荣倩), Chen Wang(王晨), Jian-Hua Jiang(蒋建华). Chin. Phys. B, 2020, 29(4): 040504.
[12]	Ab initio study of structural, electronic, thermo-elastic and optical properties of Pt₃Zr intermetallic compound Wahiba Metiri, Khaled Cheikh. Chin. Phys. B, 2020, 29(4): 047101.
[13]	Effect of AlGaN interlayer on luminous efficiency and reliability of GaN-based green LEDs on silicon substrate Jiao-Xin Guo(郭娇欣), Jie Ding(丁杰), Chun-Lan Mo(莫春兰), Chang-Da Zheng(郑畅达), Shuan Pan(潘拴), Feng-Yi Jiang(江风益). Chin. Phys. B, 2020, 29(4): 047303.
[14]	Van der Waals interlayer potential of graphitic structures: From Lennard-Jones to Kolmogorov-Crespy and Lebedeva models Zbigniew Koziol, Grzegorz Gawlik, Jacek Jagielski. Chin. Phys. B, 2019, 28(9): 096101.
[15]	Fullerene-based electrode interlayers for bandgap tunable organometal perovskite metal-semiconductor-metal photodetectors Wen Luo(罗文), Li-Zhi Yan(闫立志), Rong Liu(刘荣), Tao-Yu Zou(邹涛隅), Hang Zhou(周航). Chin. Phys. B, 2019, 28(4): 047804.

No Suggested Reading articles found!

Viewed

Full text

Abstract

Cited

Metrics
Related Articles

An overview of progress in Mg-based hydrogen storage films

Cite this article:

Online attention