[1] Ballon, Massie Santos "Electrovaya, Tata Motors to make electric Indica". cleantech.com. Archived from the original on 9 May 2011. Retrieved 11 June 2010.
[2]R. Murugan, V. Thangadurai, W. Weppner, Fast Lithium Ion Conduction in Garnet-Type Li(7)La(3)Zr(2)O(12), Chem. Int. 2007;46:7778–7781.
[3]Yunsung Kim, AeriYoo, Robert Schmidt, Asma Sharafi, Heechul Lee, Jeff Wolfenstineand Jeff Sakamoto, Electrochemical Stability of Li6.5La3Zr1.5M0.5O12 (M = Nb or Ta) against Metallic Lithium, frontiers in energy research.2016;(4)20.
[4]A.A. Trofimov, C. Li, K.S. Brinkman, L.G. Jacobsohn. Luminescence investigation of Ce incorporation in garnet-type Li7La3Zr2O12. Elsevier, Optical Materials. xxx 2016; 1-4.
[5]Martin Bitzer, Tim Van Gestel, Sven Uhlenbruck, Hans-Peter-BuchkremerF. Sol-gel synthesis of thin solid Li7La3Zr2O12 electrolyte films for Li-ion batteries. Elsevier Thin Solid Films. 2016; 615: 128 –134.
[6]FrederiekeLangera, Jens Glenneberga, Ingo Bardenhagenb, Robert Kuna. Synthesis of single phase cubic Al-substituted Li7La3Zr2O12 by solid state lithiation of mixed hydroxides. Elsevier journal of allows and compound. 2015;0925-8388.
[7]Hui Xie a , Yutao Li a,b , John B. Goodenough. Low-temperature synthesis of Li7La3Zr2O12 with cubic garnet-type structure. Elsevier Materials Research Bulletin.2012; 47: 1229–1232.
[8]RamaswamyMurugan, Dr.VenkataramanThangadurai Prof., Werner Weppner Prof. Dr. Fast Lithium Ion Conduction in Garnet‐Type Li7La3Zr2O12. Angew. Chem. Int. Ed. 2007; 46: 7778 –778.
[9]E.Rangasamy,J.Wolfenstine,J.Sakamoto.The role of Al and Li concentration onthe formation of cubic garnet solid electrolyte of nominal composition Li7La3Zr2O12. Solid State Ionics 2016;28–32.
[10]S. Ohta, T. Kobayashi, T. Asaoka, High lithium ionic conductivity in the garnet-type oxide Li7−XLa3(Zr2−X, NbX)O12 (X=0–2), Elsevior J. Power Sources. 2011;196 (6):3342–3345.
[11]V. Thangadurai, S. Narayanan, D. Pinzaru. Garnet-type solid-state fast Li ion conductors for Li batteries: critical review. Chem. Soc. Rev. 43 2014;13 ,4714–4727.
[12]Hany El-Shinawi, Gary W. Paterson, Donald A. , Edmund J. Cussen and Serena A. Corr.Low-temperature densification of Al-doped Li7La3Zr2O12: a reliable and controllable synthesis of fast-ion conducting garnets, Journal of Materials Chemistry A. 2017;5 319-329.
[13]Shuqiao Hu, You-Fen Li, Ru Yang, Zijian Yang, Lege Wang, Structure and ionic conductivityofLi7La3Zr2−xGexO12 garnet-like solid electrolyte for all solid state lithium ion batteries. Elsevier Ceramics International 2018 ; 44 :6614–6618.
[14]Ting Liua,b, YiboZhanga, XueZhanga, Lei Wangc, Shi-Xi Zhaob, Yuan-Hua Lin. Enhanced electrochemical performance of bulk type oxide ceramic lithium. RAC Journal of Materials Chemistry.2017;01 1-27.
[15]K. Ishiguro, Y. Nakata, M. Matsui,I.Uechi, Y. Takeda, O. Yamamoto,z and N. Imanishi. Stability of Nb-Doped Cubic Li7La3Zr2O12 with LithiumMetal, Journal of The Electrochemical Society, 2013;160 (10): A1690-A1693.
[16]Daniel Rettenwander, Andreas Welzl,Lei Cheng, JürgenFleig, Maurizio Musso.Synthesis, Crystal Chemistry, and Electrochemical Properties of Li7−2xLa3Zr2−xMoxO12 (x = 0.1−0.4): Stabilisation of the Cubic Garnet Polymorph via Substitution of Zr4+ by Mo6+.Inorganic chemistry. 2015.
[17]Sampathkumar Ramkumar, Ramasamy murugan, Structure and Li+ Dynamics of Sb-Doped Li7La3Zr2O12 Fast Lithium Ion Conductors, RAC Phys. Chem. 2013;21:16:43.
[18]Brahma PrakashDubeyAsitSahooVenkataramanThangaduraibYogeshSharma.Morphological, dielectric andtransport properties of garnet-tyLi6.25+yAl0.25La3Zr2-yMnyO12 (y = 0, 0.05, 0.1, and 0.2).Elesiver solid state ionics.2020;351, 115339.
[19]Dhivya L.; Janani N.; Palanivel B.; Murugan R., Li+ transport properties of W substituted Li7La3Zr2O12 cubic lithium garnets. AIP Adv. 2013; 3 082115.
[20]Murugan R.; Ramakumar S.; Janani N. High conductive yttrium doped Li7La3Zr2O12 cubic lithium garnet, ElectrochemCommun. 2011; 13, 1373–1375.
[21]YueJiangXiaohongZhuShiyingQinMing'enLingJiliangZhu.InvestigationofMg2 +, Sc3 + and Zn2 + doping effects on densification and ionic conductivity of low-temperaturesinteredLi7La3Zr2O12 garnets. Elsevier, Solid state ionics. 2017;300:73-77.
[22]C. Deviannapoorani L. Dhivya S. Ramakumar R. Murugan, Synthesis of garnet structured Li7+xLa3YxZr2-xO12 (x 5 0–0.4) by modified sol–gel method, J Sol-Gel Sci Technol , 2012
[23]EzhiylmuruganRangasamya, Jeff Wolfenstineb, Jan Allena, Jeff Sakamotoa. The effect of 24c-site (A) cation substitution on the tetragonale cubic phase transition in Li7xLa3xAxZr2O12 garnet-based ceramic electrolyte. Elsevier, Journal of Power Sources.2013; 230:261-266.
[24]JunhaoLi,ZhongqiLiu,WenMa,HongyingDong,KefuZhang,RuigangWang.Low temperature synthesis of cubic phase Li7La3Zr2O12 via sol-gel and ball milling induced phase transition, Elesiver journal of power source.2019; 412 189-196.
[25]Reinhard Wagner, Gü nther J. Redhammer, Daniel Rettenwander, AnatoliySenyshyn, Walter Schmidt, Martin Wilkening, and Georg Amthauer. Crystal Structure of Garnet-Related Li-Ion Conductor Li7−3xGaxLa3Zr2O12: Fast Li-Ion Conduction Caused by a Different Cubic Modification?,ACS, Chem. Mater. 2016; 28, 1861−1871.
[26]Weijie Lan, Hongyang Fan, Vincent Wing-hei Lau, Jiliang Zhang, Jiafeng Zhang, Ruirui Zhao and Hongyu Chen. Realising Li7La3Zr2O12 garnets with high Li+ conductivity and dense microstructures by Ga/Nb dual substitution for lithium solid-state battery applications.ACS,Sustainable Energy & Fuels.2020,4, 1812-1821
[27]RyoheiTakano,kiyaoharu,AkitoshiHayashi,MasahiroTatsumisago Low temperature synthesis of Al-doped Li7 La3 Zr2 O12 solid electrolyte by a sol-gel process.Elsevier,solid state ionics .2014 ;255:104-107.
[28]Reinhard Wagner,Daniel RettenwanderGünther J. Redhammer,† GeroldTippelt, Synthesis, Crystal Structure, and Stability of Cubic Li7–xLa3Zr2–xBixO12,2016 ,5 55(23): 1221112219.
[29] A.A. Raskovalov, E.A. Il’ina, B.D. Antonov, structure and transport properties of Li7La3Zr2_0.75xAlxO12 superionic solid electrolytes, Journal of Power Sources 238 (2013) 48e52.
[30] I. Kokal , M. Somer , P.H.L. Notten , H.T. Hintzen, Sol–gel synthesis and lithium ion conductivity of Li7La3Zr2O12 with garnet-related type structure, Soild state ioncs 2011,185,42-46.
[31]Ryoji Inada, Satoshi Yasuda, Masaru Tojo, KeijiTsuritani, Tomohiro Tojo and Yoji Sakurai. Development of Lithium-Stuffed Garnet-Type Oxide Solid Electrolytes with High Ionic Conductivity for Application to All-Solid-State Batteries.Frontiers in Energy Research.2016;4:28.