A wide-ranging review on Nasicon type materials

Anantharamulu, N.; Koteswara Rao, K.; Rambabu, G.; Vijaya Kumar, B.; Radha, Velchuri; Vithal, M.

doi:10.1007/s10853-011-5302-5

A wide-ranging review on Nasicon type materials

Review
Published: 02 February 2011

Volume 46, pages 2821–2837, (2011)
Cite this article

Journal of Materials Science Aims and scope Submit manuscript

N. Anantharamulu^1,2,
K. Koteswara Rao²,
G. Rambabu²,
B. Vijaya Kumar²,
Velchuri Radha² &
…
M. Vithal²

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Abstract

Nasicons (sodium super ion conductors) are a class of solid electrolytes. Their structure, compositional diversity, evolution, and applications are reviewed. A wide range of materials is considered based on crystalline and glassy Nasicon compositions.

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References

Robertson AD, West AR, Ritchie AG (1997) Solid State Ion 104:1
Article CAS Google Scholar
Aono H, Imanaka N, Adachi G (1994) Acc Chem Res 27:265 and references there in
Article CAS Google Scholar
Weber N, Kummer JT (1967) Proc Annu Power Sources Conf 21:37
CAS Google Scholar
Whittingham MS, Huggins RA (1971) J Chem Phys 54:414
Article CAS Google Scholar
Hong HYP (1976) Mater Res Bull 11:173
Article CAS Google Scholar
Goodenough JB, Hong HYP, Kafalas JA (1976) Mater Res Bull 11:203
Article CAS Google Scholar
Meunier M, Izquierdo R, Hasnaoui L, Quenneville E, Ivanov D, Girard F, Morin F, Yelon A, Paleologou M (1998) Appl Surf Sci 127–129:466
Article Google Scholar
Yao S, Shimizu Y, Miura N, Yamazoe N (1990) Chem Lett 19:2033
Article Google Scholar
Gulens J, Longhurst TH, Kuriakose AK, Canaday JD (1988) Solid State Ion 28–30:622
Article Google Scholar
Saito Y, Maruyama T (1988) Solid State Ion 28–30:1644
Article Google Scholar
Lightfoot P, Woodcock DA, Jorgensen JD, Short S (1999) Int J Inorg Mater 1:53
Article CAS Google Scholar
Balagopal S, Landro T, Zecevic S, Sutija D, Elangovan S, Khandkar A (1999) Sep Purif Technol 15:231
Article CAS Google Scholar
Brik Y, Kacimi M, Bozon-Verduraz F, Ziyad M (2001) Microporous Mesoporous Mater 43:103
Article CAS Google Scholar
Hirose N, Kuwano J (1994) J Mater Chem 4:9
Article CAS Google Scholar
Delmas C, Cherkaoui F, Nadiri A, Hagenmuller P (1987) Mater Res Bull 22:631
Article CAS Google Scholar
Delmas C, Nadiri A, Soubeyroux JL (1988) Solid State Ion 28–30:419
Article Google Scholar
Gopalakrishnan J, Kasturi Rangan K (1992) Chem Mater 4:745
Article CAS Google Scholar
Knauth P (2009) Solid State Ion 180:911
Article CAS Google Scholar
Ove HL, Peder K (1968) Acta Chem Scand 22:1822
Article Google Scholar
Boilot JP, Salanie JP, Desplances G, Le Potier D (1979) Mater Res Bull 14:1469
Article CAS Google Scholar
Gordon RS, Miller GR, McEntire BJ, Beck ED, Rasmussen JR (1981) Solid State Ion 3–4:243
Article Google Scholar
Schmid H, De Jonghe LC, Cameron C (1982) Solid State Ion 6:57
Article CAS Google Scholar
Kuriakose AK, Wheat TA, Ahmed A, DiRocco J (1984) J Am Ceram Soc 67:179
Article CAS Google Scholar
von Alpen U, Bell MF, Höffer HH (1981) Solid State Ion 3–4:215
Google Scholar
Kohler H, Schulz H (1983) Solid State Ion 9–10:795
Article Google Scholar
Subramanian MA, Rudolf PR, Clearfield A (1985) J Solid State Chem 60:172
Article CAS Google Scholar
Clearfield A, Subramanian MA, Rudolf PR, Moini A (1986) Solid State Ion 18–19:13
Article Google Scholar
Alamo J (1993) Solid State Ion 63–65:547
Article Google Scholar
Tran Qui D, Capponi JJ, Gondrand M, Saïb M, Joubert JC, Shannon RD (1981) Solid State Ion 3–4:219
Google Scholar
Bogusz W, Krok F, Piszczatowski W (1999) Solid State Ion 119:145
Article Google Scholar
Slade RCT, Young KE, Bonanos N (1991) Solid State Ion 46:83
Article CAS Google Scholar
Bogusz W, Frok F, Jakubowsli W (1981) Solid State Ion 2:171
Article CAS Google Scholar
Auborn JJ, Johnsonsr DW (1981) Solid State Ion 5:315
Article CAS Google Scholar
Kezhionis A, Samulionis V, Skritskij V, Ukshe EA (1989) Solid State Ion 36:235
Article Google Scholar
Vaitkus R, Orliukas A, Bukun N, Ukshe E (1989) Solid State Ion 36:231
Article CAS Google Scholar
Ivanov-Schitz K, Bykov AB (1997) Solid State Ion 100:153
Article CAS Google Scholar
Kreuer D, Kohler H, Warhus U, Schulz H (1986) Mater Res Bull 21:149
Article CAS Google Scholar
Clearfield A, Jirustithipong P, Cotman RN, Pack SP (1980) Mater Res Bull 15:1603
Article CAS Google Scholar
Clearfield A, Jesus P, Cotman RN (1981) Solid State Ion 5:301
Article CAS Google Scholar
Morcrette M, Barboux P, Laurent A, Perriere J (1997) Solid State Ion 93:283
Article CAS Google Scholar
Ahmad A, Glasgow C, Wheat TA (1995) Solid State Ion 76:143
Article CAS Google Scholar
Izquierodo R, Quenneville E, Trigylidas D, Girand F, Meunier M, Ivanov D, Paleologou M, Yelon A (1997) J Electrochem Soc 144:L323
Article Google Scholar
Yoldas BE, Lloyd IK (1983) Mater Res Bull 18:1171
Article CAS Google Scholar
Huang YL, Caneiro A, Attari M, Fabry P (1991) Thin Solid Films 196:283
Article CAS Google Scholar
Moini A, Clearfield A (1987) Adv Ceram Mater 2:173
CAS Google Scholar
Perthuis H, Velasco G, Colomban Ph (1984) Jpn J Appl Phys 23:534
Article CAS Google Scholar
Shimizu Y, Ushijima T (2000) Solid State Ion 132:143
Article CAS Google Scholar
Boilot JP, Colomban Ph (1988) Solid State Ion 28–30:403
Article Google Scholar
Gulens J, Hildebrandt BW, Canaday JD, Kuriakose AK, Wheat TA, Ahmad A (1989) Solid State Ion 35:45
Article Google Scholar
Canaday JD, Kuriakose AK, Wheat TA, Ahmad A, Gulens J, Hildebrandt BW (1989) Solid State Ion 35:165
Article Google Scholar
Ivanov D, Currie J, Bouchard H, Lecours A, Andrian J, Yelon A, Poulin S (1994) Solid State Ion 67:295
Article CAS Google Scholar
Boilot JP, Collin G, Comes R (1983) J Solid State Chem 50:91
Article CAS Google Scholar
Krimi S, Mansouri I, ElJazouli A, Chaninade JP, Gravereau P, LeFlem G (1993) J Solid State Chem 105:561
Article CAS Google Scholar
Visco SJ, Kennedy JH (1983) Solid State Ion 9–10:885
Article Google Scholar
Winand JM, Rulmont A, Tarte P (1991) J Solid State Chem 93:341
Article CAS Google Scholar
Takahashi T, Kuwabare K, Shibata M (1980) Solid State Ion 1:163
Article CAS Google Scholar
Nakamura O, Saito Y, Kodama M, Yamamoto Y (1996) Solid State Ion 89:159
Article CAS Google Scholar
Shimazu K, Yamamoto Y, Saito Y, Nakamura O (1995) Solid State Ion 79:106
Article CAS Google Scholar
Boguse W, Krok F, Jakubnski W Solid State Ion 9–10:803
Krok F, Kony D, Dygas JR, Jakubowski W, Bogusz W (1989) Solid State Ion 36:251
Article CAS Google Scholar
Subramanian MA, Rudolf PR, Clearfield A (1885) J Solid State Chem 60:172
Article Google Scholar
Feltz A, Barth S (1983) Solid State Ion 9–10:817
Article Google Scholar
de la Rochere M, d’Yvoire F, Collin G, Comes R, Boilot JP (1983) Solid State Ion 9–10:825
Google Scholar
d’Yvoire F, Pintard-Screpel M, Bretey E, de la Rochere M (1983) Solid State Ion 9–10:851
Article Google Scholar
Pintard-Screpel M, d’Yvoire F, Remy F (1978) C R Acad Sci Paris 286:381
CAS Google Scholar
Masquelier C, Wurn C, Rodriguez-Carvazal J, Gaubicher J, Nazar L (2000) Chem Mater 12:525
Article CAS Google Scholar
de la Rochere M (1984) Ph. D. Thesis, Universite Pierre et Marie Curie Paris VI, Paris, France
Vaidhyanathan B, Rao KJ (1997) J Solid State Chem 132:349
Article CAS Google Scholar
Brunet F, Bagdassarov N, Miletich R (2003) Solid State Ion 159:35
Article CAS Google Scholar
Aono H, Sugimoto E, Sadaoka Y, Imanaka N, Adachi G (1990) Solid State Ion 40–41:43
Google Scholar
Shi-Chun L, Zu-Xiang L (1983) Solid State Ion 9–10:835
Google Scholar
Hamdoune S, Tran Qui D, Schouler EJL (1986) Solid State Ion 18–19:587
Article Google Scholar
Govindaraj G, Mariappan CR (2002) Solid State Ion 147:49
Article CAS Google Scholar
Losilla R, Aranda MAG, Brequue S, Sanz J, Paris MA, Campo J, West AR (2000) Chem Mater 12:2134
Article CAS Google Scholar
Delmas C, Viala JC, Olazcuaga R, Le Flem G, Hagen Muller P (1981) Solid State Ion 3–4:209
Article Google Scholar
Brochu R, Cherkaoui F, Delmas C, Olazcuaga R, Le Flem G (1979) C R Acad Sci Paris 289:85
CAS Google Scholar
Miyajima Y, Miyoshi T, Tamaki J, Matsuoka M, Yamomoto Y, Masquelier C, Tabuchi M, Saito Y, Kageyama H (1999) Sold State Ion 124:201
Article CAS Google Scholar
Lu H, Ye J (1997) J Solid State Chem 131:131
Article Google Scholar
Barj M, Lucazeau G, Delmas C (1992) J Solid State Chem 100:141
Article CAS Google Scholar
Barj M, Perthecis H, Colomban Ph (1983) Solid State Ion 9–10:845
Article Google Scholar
Losilla R, Aranda MAG, Breque S, Paris MA, Sanz J, West AR (1998) Chem Mater 10:665
Article CAS Google Scholar
Boilot JP, Collin G, Comes R (1983) Solid State Ion 9–10:829
Article Google Scholar
Tillement O, Angenault J, Couturier JC, Quarton M (1991) Solid State Ion 44:299
Article CAS Google Scholar
Asai T, Ado K, Saito Y, Kageyama H, Nakamura O (1989) Solid State Ion 35:319
Article CAS Google Scholar
Saito Y, Ado K, Asai T, Kageyama H, Nakamura O (1992) Solid State Ion 58:327
Article CAS Google Scholar
Kageyama H, Kamijo N, Asai T (1990) Solid State Ion 40–41:350
Article Google Scholar
Bohnke O, Ronchetti S, Mazza D (1999) Solid State Ion 122:127
Article CAS Google Scholar
Wang W, Li D, Zhao J (1992) Solid State Ion 51:97
Article CAS Google Scholar
Engell J, Mortensen S, Moller L (1983) Solid State Ion 9–10:877
Article Google Scholar
Porkodi P, Yegnaraman V, Kamaraj P, Kalyanavalli V, Jeyakumar D (2008) Chem Mater 20:6410
Article CAS Google Scholar
Michele C, Sonia S, Richard I (1999) Solid State Ion 123:173
Article Google Scholar
Jauan E, Carlos P (1998) Solid State Ion 112:309
Article Google Scholar
Michele C, Sonia S (2000) Solid State Ion 136–137:489
Google Scholar
Sudreau F, Petit D, Boilot JP (1989) J Solid State Chem 83:78
Article CAS Google Scholar
Casciola M, Costantino U, Merlini L, Andersen IGK, Andrersen EK (1988) Solid State Ion 26:229
Article CAS Google Scholar
Subramanian MA, Subramaiun R, Clearfield A (1986) Solid State Ion 18–19:562
Article Google Scholar
Aono H, Sugimoto E, Sadaoka Y, Imanaka N, Adachi G (1990) Solid State Ion 40–41:38
Article Google Scholar
Aono H, Sugimoto E, Sadaoka Y, Imanaka N, Adachi G (1991) Solid State Ion 47:257
Article CAS Google Scholar
Zu-xiang L, Hu-jun Y, Shi-chun L, Shun-bao T (1986) Solid State Ion 18–19:549
Article Google Scholar
Zu-xiang L, Hu-jun Y, Shi-chun L, Shun-bao T (1988) Solid State Ion 31:91
Article Google Scholar
Tran Qui D, Hamdoune S, Soubeyroux JL, Prince E (1988) J Solid State Chem 72:309
Article Google Scholar
Tran Qui D, Hamdoune S (1987) Acta Crystallogr C43:397
CAS Google Scholar
Zaho W, Chen L, Xue R, Min J, Wanqui Cui W (1994) Solid State Ion 70–71:144
Article Google Scholar
Martinez-Juarez A, Rojo JM, Iglesias JE, Sanz J (1995) Chem Mater 7:1857
Article CAS Google Scholar
Martinez A, Rajo JM, Iglesias JE, Sanz J, Rojas RM (1994) Chem Mater 6:1790
Article CAS Google Scholar
Paris MA, Martinez-Juareg A, Iglesias JE, Rojo JM, Sanz J (1997) Chem Mater 9:1430
Article CAS Google Scholar
Petit D, Colomban Ph, Collin G, Boilot JP (1986) Mater Res Bull 21:365
Article CAS Google Scholar
Kuwano J, Sato N, Kato M, Takano K (1994) Solid State Ion 70–71:332
Article Google Scholar
Aono H, Sugimoto E, Sadaoka Y, Imanaka N, Adachi G (1993) Solid State Ion 62:309
Article CAS Google Scholar
Losilla ER, Bruque S, Aranda MAG, Moreno-Real L, Morin E, Quarton M (1998) Solid State Ion 112:53
Article CAS Google Scholar
Shi-chun L, Jian-yi C, Zu-xiang L (1988) Solid State Ion 28–30:1265
Google Scholar
Nanjundaswamy KS, Padhi AK, Goodenough JB, Okada S, Ohtsuka H, Arai H, Yamaki J (1996) Solid State Ion 92:1
Article CAS Google Scholar
Aono H, Sugimoto E, Sadaoka Y, Imanaka N, Adachi G (1993) J Electrochem Soc 140:1827
Article CAS Google Scholar
Ado K, Saito Y, Asai T, Kageyama H, Nakamura O (1992) Solid State Ion 53–56:723
Article Google Scholar
Aono H, Sugimoto E, Sadaoka Y, Imanaka N, Adachi GY (1989) J Electrochem Soc 136:590
Article CAS Google Scholar
Aono H, Sugimoto E, Sadaoka Y, Imanaka N, Adachi GY (1990) Chem Lett 19:1825
Article Google Scholar
Wong S, Newman PJ, Best AS, Nairn KM, MacFarlane DR, Forsyth M (1998) J Mater Chem 8:2199
Article CAS Google Scholar
Morin E, Le Mercier T, Quarton M, Losilla ER, Aranda MAG, Breque S (1999) Powder Diffr 14:53
CAS Google Scholar
Stenina IA, Pinus IY, Rebrov AI, Yaroslavtsev AB (2004) Solid State Ion 175:445
Article CAS Google Scholar
Sugantham M, Varadaraju UV (1997) Solid State Ion 95:201
Article Google Scholar
Wang S, Hwu SJ (1991) J Solid State Chem 90:377
Article CAS Google Scholar
Basu B, Sundaram SK, Maiti HS, Paul A (1986) Solid State Ion 21:231
Article CAS Google Scholar
Bykov AB (1990) Solid State Ion 38:31
Article CAS Google Scholar
Sigaryov SE, Genkina EA, Maximov BA (1990) Solid State Ion 37:261
Article Google Scholar
Sigaryov SE, Terziev VG (1993) Phys Rev B 48:16252
Article CAS Google Scholar
Amatucci GG, Safari A, Shokoohi FK, Wilkens BJ (1993) Solid State Ion 60:357
Article CAS Google Scholar
Wen Z, Xu X, Li J (2009) J Electroceram 22:342
Article CAS Google Scholar
Maud B, Lopez C, Pierre M, Francoise LB, Emmanuelle BS, Jean-Louis F (2008) Dalton Trans 3061
Anantharamulu N, Prasad G, Vithal M (2008) Bull Mater Sci 31:133
Article CAS Google Scholar
Yao PC, Fray DJ (1983) Solid State Ion 8:35
Article CAS Google Scholar
Mbandza A, Bordes E, Courtine P (1985) Mater Res Bull 20:251
Article CAS Google Scholar
Bussereau I, Belkhiria MS, Gravereau P, Boireau A, Soubeyroux JL, Olazcuaga R, Le Flem G (1992) Acta Crystallogr C48:1741
CAS Google Scholar
Oudet F, Vejex A, Company T, Bordes E, Courtine P (1989) Mater Res Bull 24:561
Article CAS Google Scholar
Serghini A, Brochu R, Ziyad M, Loukah M, Vedrine JC (1991) J Chem Soc Faraday Trans 87:2487
Article CAS Google Scholar
Polles GL, El Jazouli A, Olazcuaga R, Dance JM, Le Flem G, Hagenmuller P (1987) Mater Res Bull 22:1171
Article Google Scholar
El Jazouli A, Alami M, Brochu R, Dance JM, Le Flem G, Hagenmuller P (1987) J Solid State Chem 71:444
Article CAS Google Scholar
Taoufik I, Haddad M, Brochu R, Berger R (1999) J Mater Sci 34:2943. doi:10.1023/A:1004656023198
Article CAS Google Scholar
Taoufik I, Haddad M, Nadiri A, Brochu R, Berger R (1999) J Phys Chem Solids 60:701
Article CAS Google Scholar
Fargin E, Bussereau I, Olazcuaga R, Le Flem G, Cartier C, Dexpert H (1994) J Solid State Chem 112:176
Article CAS Google Scholar
El Jazouli A, Soubeyroux JL, Dance JM, Le Flem G (1986) J Solid State Chem 65:351
Article CAS Google Scholar
Mbandza A, Bordes E, Courtine P, El Jazouli A, Soubeyroux JL, Le Flem G, Hagenmuller P (1988) React Solids 5:315
Article Google Scholar
Winand JM, Rulmont A, Tarte P (1993) J Solid State Chem 107:356
Article CAS Google Scholar
Serghini A, Brochu R, Olazcuaga R, Gravereau P (1995) Mater Lett 22:149
Article CAS Google Scholar
Ziyad M, Ahmamouch R, Rouimi M, Gharbage S, Vedrine JC (1998) Solid State Ion 110:311
Article CAS Google Scholar
Vithal M, Srinivasulu B, Koteswara Rao K, Mohan Rao Ch (2000) Mater Lett 45:58
Article CAS Google Scholar
Koteswara Rao K, Anantharamulu N, Mishra AK, Bansal C, Vithal M (2005) Solid State Commun 135:692
Article CAS Google Scholar
Srinivasulu B, Vithal M (1999) J Mater Sci Lett 18:1771
Article CAS Google Scholar
Koteswara Rao K, Bhatnagar AK, Sarkar S, Vithal M (2003) Mater Lett 57:4478
Article CAS Google Scholar
Perret R, Boudjada A (1976) Comptes Rendus des Seances de l’Academie des Sciences, Serie C: Sciences Chimiques 282:245
CAS Google Scholar
Barj M, Perthuis H, Colomban Ph (1983) Solid State Ion 11:157
Article CAS Google Scholar
Angenault J, Couturier JC, Quarton M (1989) Mater Res Bull 24:789
Article CAS Google Scholar
Masse R (1970) Bull Soc Fr Mineral Cristallogr 93:500
CAS Google Scholar
Yingjeng JL, Monteith J, Whittingham MS (1991) Solid State Ion 46:337
Article Google Scholar
Arsalane S, Ziyad M, Coudurier G, Vedrine JC (1996) J Catal 159:162
Article CAS Google Scholar
Koteswara Rao K, Rambabu G, Raghavender M, Prasad G, Kumar GS, Vithal M (2005) Solid State Ion 176:2701
Article CAS Google Scholar
Rambabu G, Anantharamulu N, Rao Koteswara K, Prasad G, Vithal M (2008) Mater Res Bull 43:1509
Article CAS Google Scholar
Rambabu G, Anantharamulu N, Rao Koteswara K, Sarma JARP, Vithal M (2007) Phys Status Solidi A 204:3454
Article CAS Google Scholar
Leclaire A, Borel MM, Grandin A, Raveau B (1991) Mater Res Bull 26:207
Article CAS Google Scholar
Leclaire A, Borel MM, Grandin A, Raveau B (1989) Acta Crystallogr C 45:699
Article Google Scholar
Delmas C, Olazcuaga R, Cherkaoui F, Brochu R, Le Flem G (1978) C R Acad Sci 287:169
CAS Google Scholar
Nadiri A, de Doctorat d’Etat T (1986) University of Bordeaux I 18 July
Rangan KK, Gopalakrishnan J (1995) Inorg Chem 34:1969
Article CAS Google Scholar
Venkataraman T, Ashok KS, Gopalakrishnan J (1999) J Mater Chem 9:739
Article Google Scholar
Berry FJ, Vithal M (1995) Polyhedron 14:1113
Article CAS Google Scholar
Holland TJB (1980) Am Mineral 65:129
CAS Google Scholar
Sugantha M, Varadaraju UV, Subba Rao GV (1994) J Solid State Chem 111:33
Article CAS Google Scholar
Köhler J, Imanaka N, Adachi G (1998) Chem Mater 10:3790
Article Google Scholar
Imanaka N, Adachi G-Y (2002) J Alloys Compd 344:137
Article CAS Google Scholar
Tamura S, Egawa T, Okajaki Y, Kobayashi Y, Imanaka N, Adachi G (1998) Chem Mater 10:1958
Article CAS Google Scholar
Tamura S, Imanaka N, Adachi G (1999) Adv Mater 11:1521
Article CAS Google Scholar
Hasegawa Y, Imanaka N, Adachi G (2003) J Solid State Chem 171:387
Article CAS Google Scholar
Imanaka N, Itaya M, Ueda T, Adachi G (2002) Solid State Ion 154–155:319
Article Google Scholar
Hasegawa Y, Imanaka N (2006) J Alloy Compd 408–412:661
Article CAS Google Scholar
Shinji T, Sudarto, Imanaka N (2009) Kidorui 54:118
Google Scholar
Nunotani N, Tamura S, Imanaka N (2009) Chem Mater 21:579
Article CAS Google Scholar
Tamura S, Itano T, Nunotani N, Imanaka N (2009) Electrochem Solid State Lett 12:F5
Article CAS Google Scholar
Nunotani N, Tamura S, Imanaka N (2009) Chem Lett 38:658
Article CAS Google Scholar
Nunotani N, Sawada M, Tamura S, Imanaka N (2010) Bull Chem Soc Jpn 83:415
Article CAS Google Scholar
Orlova AI, Volgutov VY, Castro GR, Garcia-Granda S, Khainakov SA, Garcia JR (2009) Inorg Chem 48:9046
Article CAS Google Scholar
Berry FJ, Costantini N, Smart LE (2006) Solid State Ion 177:2889
Article CAS Google Scholar
Chakir M, Jazouli AE, de Wall D (2006) J Solid State Chem 179:1883
Article CAS Google Scholar
Chakir M, Jazouli AE, Chaminade JP (2006) Powder Diffr 21:210
Article CAS Google Scholar
Salah AA, Jozwiak P, Zaghib K, Garbarczyk J, Gendron F, Mauger A, Julien CM (2006) Spectrochim Acta A 65:1007
Article CAS Google Scholar
Marriappan CR, Galven C, Crosnier-Lopez P, Berre FL, Bohnke O (2006) J Solid State Chem 179:450
Article CAS Google Scholar
Aatiq A (2004) Powder Diffr 19:272
Article CAS Google Scholar
Aatiq A, Dhoum H (2004) Powder Diffr 19:157
Article CAS Google Scholar
Fischer W, Singheiser L, Basu D, Dasgupta A (2004) Powder Diff 19:153
Article CAS Google Scholar
Aatiq A, Tigha MR, Hassine R, Saadoune I (2006) Powder Diffr 21:45
Article CAS Google Scholar
Aatiq A, Hassine R, Tigha MR, Saadoune I (2005) Powder Diffr 20:33
Article CAS Google Scholar
Arbi K, Rojo JM, Sanz J (2007) J Eur Ceram Soc 27:4215
Article CAS Google Scholar
Essoumhi A, Favotto C, Mansori M, Ouzaouit K, Satre P (2007) Solid State Sci 9:240
Article CAS Google Scholar
Benmokhtar S, El Jazouli A, Aatiq A, Chaminade JP, Gravereau P, Wattiaux A, Fournès L, Grenier JC (2007) J Solid State Chem 180:2004
Article CAS Google Scholar
Barré M, Crosnier-Lopez MP, Le Berre F, Suard E, Fourquet JL (2007) J Solid State Chem 180:1011
Article CAS Google Scholar
Masui T, Koyabu K, Tamura S, Imanaka N (2006) J Alloys Compd 418:73
Article CAS Google Scholar
Navulla A (2010) Solid State Ion 181:659
Article CAS Google Scholar
Susman S, Delbeeq CJ, McMillan JA (1983) Solid State Ion 9–10:667
Article Google Scholar
Sobha KC, Rao KJ (1995) Solid State Ion 81:145
Article CAS Google Scholar
Sobha KC, Rao KJ (1996) J Non-Cryst Solids 201:52
Article CAS Google Scholar
Sobha KC, Rao KJ (1995) J Chem Sci 107:573
CAS Google Scholar
Sobha KC, Rao KJ (1996) J Phys Chem Solids 57:1263
Article CAS Google Scholar
Prakash GV, Nachimuthu P, Vithal M, Jagannathan R (1999) Bull Mater Sci 22:121
Article CAS Google Scholar
Banu T, Koteswara Rao K, Vithal M (2003) Phys Chem Glasses 44:30
CAS Google Scholar
Prakash GV (2000) Mater Lett 46:15
Article Google Scholar
Prakash GV, Jagannathan R, Narayan Rao D (2002) Mater Lett 57:134
Article Google Scholar
Govindaraj G, Mariappan CR (2002) Mater Sci Eng B 94:82
Article Google Scholar
Mariappan CR, Govidaraj G, Roling B (2005) Solid State Ion 176:723
Article CAS Google Scholar
Mariappan CR, Govindaraj G, Vinoth Rathan S, Vijaya Prakash G (2005) Mater Sci Eng B 123:63
Article CAS Google Scholar
Xu X, Wen Z, Wu J, Yang X (2007) Solid State Ion 178:29
Article CAS Google Scholar
Nagamine K, Hirose K, Honma T, Komatsu T (2008) Solid State Ion 179:508
Article CAS Google Scholar
Zhang Q, Wen Z, Liu Y, Song S, Wu X (2009) J Alloys Compd 479:494
Article CAS Google Scholar
Okura T, Saimaru M, Monma H, Yamasita K (2009) Solid State Ion 180:537
Article CAS Google Scholar
Subba Rao GV, Varadaraju UV, Thomas KA, Sivasankar B (1987) J Solid State Chem 70:101
Article Google Scholar
Berry FJ, Tyrer AA, Tyrer EC (1990) Hyperfine Interact 53:297
Article CAS Google Scholar
Berry FJ, Greaves C, Marco JF (1992) J Solid State Chem 96:408
Article CAS Google Scholar
Berry FJ, Marco JF, Vithal M (1994) Hyperfine Interact 83:351
Article CAS Google Scholar
Ohkawa H, Yoshida K, Saito M, Uematsu K, Toda K, Sato M (1999) Chem Lett 1017
Barker J, Saidi MY (1999) U. S. Patent 5,871,866
Google Scholar
Saidi MY, Barker J, Huang H, Swoyer JL, Adamson G (2002) Electrochem Solid State Lett 5:A149
Article CAS Google Scholar
Morgan D, Ceder G, Saidi MY, Barker J, Swoyer J, Huang H, Adamson G (2002) Chem Mater 14:4684
Article CAS Google Scholar
Morgan D, Ceder G, Saidi MY, Barker J, Swoyer J, Huang H, Adamson G (2003) J Power Sources 119–121:755
Article CAS Google Scholar
Yin SC, Grondey H, Strobel P, Huang H, Nazar LF (2003) J Am Chem Soc 125:326
Article CAS Google Scholar
Huang H, Yin SC, Kerr T, Taylor N, Nazar LF (2002) Adv Mater 14:1525
Article CAS Google Scholar
Aatiq A, Menetrier M, El Jazouli A, Delmas C (2002) Solid State Ion 150:391
Article CAS Google Scholar
Aatiq A, Delmas C, El Jazouli A (2001) J Solid State Chem 158:169
Article CAS Google Scholar
Alamo J, Roy R (1984) J Am Ceram Soc 67:c78
Article CAS Google Scholar
Muller O, Roy R (1974) The major ternary structural families. Springer Verlag, Berlin
Google Scholar
Roy R, Agrawal DK, Alamo J, Roy RA (1984) Mater Res Bull 19:471
Article CAS Google Scholar
Agraval DK, Stubican VS (1985) Mater Res Bull 20:99
Article Google Scholar
Lenain GE, Mckinstry HA, Limaye SY, Woodward A (1984) Mater Res Bull 19:1451
Article CAS Google Scholar
Limaye SY, Agrawal DK, Mckinstry HA (1987) J Am Ceram Soc 70:c232
Article Google Scholar
Srikanth V, Subbarao EC, Agrawal DK, Huang C-Y, Roy R (1991) J Am Ceram Soc 74:365
Article CAS Google Scholar
Govindan Kutty KV, Asuvathraman R, Sridharan R (1998) J Mater Sci 33:4007. doi:10.1023/A:1004661132398
Article Google Scholar
Woodcock DA, Lightfoot P, Ritter C (1998) Chem Commun 107
Woodcock DA, Lightfoot P, Smith RI (1999) J Mater Chem 9:2631
Article CAS Google Scholar
Rambabu G, Koteswara Rao K, Anantharamulu N, Raghavender M, Prasad G, Prashanth Kumar V, Vishnuvardhan RC, Vithal M (2007) J Mater Sci 42:3613. doi:10.1007/s10853-006-0400-5
Article CAS Google Scholar
Anantharamulua N, Koteswara Rao K, Vithal M, Prasad G (2009) J Alloys Compd 479:619
Article CAS Google Scholar
Zhong T, Quan B, Liang X, Liu F, Wang B (2008) Mater Sci Eng B 151:127
Article CAS Google Scholar
Maruyama T, Saito Y, Matsumoto Y, Yano Y (1985) Solid State Ion 17:281
Article CAS Google Scholar
Pasciak G, Prociow K, Mielcarek W, Gornicka B, Mazurek B (2001) J Eur Ceram Soc 21:1867
Article CAS Google Scholar
Qiu F, Zhu Q, Yang X, Quan Y, Sun L (2003) Sens Actuators B 93:237
Article CAS Google Scholar
Wang L, Kumar RV (2003) Solid State Ion 158:309
Article CAS Google Scholar
Masataka M, Takeo H, Yasuhiro S, Makoto E (2009) Sens Actuators B 139:563
Article CAS Google Scholar
Obata K, Matsushima S (2008) Sens Actuators B 130:269
Article CAS Google Scholar
Tiegang Z, Xishuang L, Fengmin L, Baofu Q, Geyu L (2008) Chuangan Jishu Xuebao 21:1674
Google Scholar
Xishuang L, Tiegang Z, Hesong G, Fengmin L, Geyu L, Baofu Q (2009) Sens Actuators B 136:479
Article CAS Google Scholar
Maffei N, Kuriakose AK (2004) Sens Actuators B 98:73
Article CAS Google Scholar
Clearfield A, Roberts BD, Subramanian MA (1984) Mater Res Bull 19:219
Article CAS Google Scholar
Roy R, Vance ER, Alamo J (1982) Mater Res Bull 17:585
Article CAS Google Scholar
Scheetz BE, Agrawal DK, Breval E (1994) Wastes Manag (New York) 14:489
CAS Google Scholar
Nakayama S, Itoh K (2003) J Nucl Sci Technol 40:631
Article CAS Google Scholar
Cretin M, Khireddine H, Fabry P (1997) Sens Actuators B 43:224
Article Google Scholar
Vernoux P, Gaillard F, Lopez C, Siebert E (2003) J Catal 217:203
CAS Google Scholar

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Department of Chemistry, University at Albany, SUNY, Albany, NY, 12222, USA
N. Anantharamulu
Department of Chemistry, Osmania University, Hyderabad, 500007, India
N. Anantharamulu, K. Koteswara Rao, G. Rambabu, B. Vijaya Kumar, Velchuri Radha & M. Vithal

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N. Anantharamulu
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K. Koteswara Rao
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G. Rambabu
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B. Vijaya Kumar
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Velchuri Radha
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M. Vithal
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Anantharamulu, N., Koteswara Rao, K., Rambabu, G. et al. A wide-ranging review on Nasicon type materials. J Mater Sci 46, 2821–2837 (2011). https://doi.org/10.1007/s10853-011-5302-5

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Received: 04 November 2010
Accepted: 17 January 2011
Published: 02 February 2011
Issue Date: May 2011
DOI: https://doi.org/10.1007/s10853-011-5302-5

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A wide-ranging review on Nasicon type materials

Abstract

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Design principles for NASICON super-ionic conductors

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Design principles for sodium superionic conductors

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A wide-ranging review on Nasicon type materials

Abstract

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Design principles for NASICON super-ionic conductors

Recent advances in NASICON-type oxide electrolytes for solid-state sodium-ion rechargeable batteries

Design principles for sodium superionic conductors

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