A Novel All-Solid-State Thin-Film-Type Lithium-Ion Battery with In-Situ Prepared Electrode Active Materials

Iriyama, Yasutoshi

doi:10.5772/9120

Cited by 3 publications

(3 citation statements)

References 27 publications

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“…From the viewpoint of application, an ''all-solid iontransfer device'' 12) without electrolyte solution is desired, because the device is free from liquid leakage, and is expected to show fast response to an external voltage. Recently, Moritomo and Shibata 13,14) fabricated an all-solid ion-transfer device by physically connecting Na x Co[Fe(CN) 6 ] 0:90Á 2.9H 2 O (denoted as NCF90) and Na x Ni[Fe(CN) 6 ] 0:68Á 5.1H 2 O (NNF68) films.…”

Section: Introductionmentioning

confidence: 99%

Simultaneous Measurement of Electron and Ion Transfer in All-Solid Ion-Transfer Device Made of Transition Metal Cyanide Films

Shibata¹,

Kamioka²,

Moritomo³

2011

Jpn. J. Appl. Phys.

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The state-selective dissociation dynamics for anionic and excited neutral fragments of gaseous SiCl 4 following Cl 2p and Si 2p core-level excitations were characterized by combining measurements of the photoninduced anionic dissociation, x-ray absorption and UV/visible dispersed fluorescence. The transitions of core electrons to high Rydberg states/doubly excited states in the vicinity of both Si 2p and Cl 2p ionization thresholds of gaseous SiCl 4 lead to a remarkably enhanced production of anionic, Si − and Cl − , fragments and excited neutral atomic, Si * , fragments. This enhancement via core-level excitation near the ionization threshold of gaseous SiCl 4 is explained in terms of the contributions from the Auger decay of doubly excited states, shake-modified resonant Auger decay, or/and post-collision interaction. These complementary results provide insight into the state-selective anionic and excited neutral fragmentation of gaseous molecules via core-level excitation.

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Section: Introductionmentioning

confidence: 99%

Simultaneous Measurement of Electron and Ion Transfer in All-Solid Ion-Transfer Device Made of Transition Metal Cyanide Films

Shibata¹,

Kamioka²,

Moritomo³

2011

Jpn. J. Appl. Phys.

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“…The most extended devices that guarantee high energy storage are batteries. [9][10][11][12] In order to fabricate a competitive Li-ASSBs, new architectures can be envisaged different from those actually based on embedded liquid electrolytes. This problem pushes the search for safer electrolytes.…”

mentioning

confidence: 99%

“…These ASSBs beside their use in harsh environments can contribute to the miniaturization and flexibility of autonomous devices, in particular those used in medicine (batteries for implants). [9][10][11][12] In order to fabricate a competitive Li-ASSBs, new architectures can be envisaged different from those actually based on embedded liquid electrolytes. For the development of new architectures the preparation of improved lithium conducting electrolyte films becomes of special importance.…”

mentioning

confidence: 99%

Lithium La_0.57Li_0.33TiO₃Perovskite and Li_1.3Al_0.3Ti_1.7(PO₄)₃Li-NASICON Supported Thick Films Electrolytes Prepared by Tape Casting Method

Jiménez

Campo

Calzada

et al. 2016

J. Electrochem. Soc.

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In this work, thick films of Perovskite La 0.57 Li 0.33 TiO 3 (LLTO) and Li-NASICON Li 1.3 Al 0.3 Ti 1.7 (PO 4 ) 3 (LATP) Li-conductors have been prepared by tape casting and their microstructure and homogeneity assessed by SEM and confocal Raman spectroscopy. Electrical properties of thick films have been investigated by Impedance spectroscopy. In particular, bulk, grain-boundary and electrode contributions to conductivity have been differentiated as a function of frequency. However, modifications on the grainboundary chemistry affects considerably ion conductivity of films. The confocal Raman spectroscopy results allowed the observation of the resulting phases particles connectivity in thick films and a better understanding of ionic conductivity results in relation with the samples heterogeneity. In LLTO films, the reactivity of the film particles against water leads to formation of hydroxyl groups that decreases the Li mobility at the particles surface after sintering. In LTAP films the formation of a high conducting grain-boundary phase leads to improve total conductivity values making thick films promising candidates for application in all solid state Li secondary batteries.

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Sol–Gel Materials for Batteries and Fuel Cells

Mosa

Aparicio

2015

The Sol‐Gel Handbook

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A Novel All-Solid-State Thin-Film-Type Lithium-Ion Battery with In-Situ Prepared Electrode Active Materials

Abstract: We are IntechOpen, the first native scientific publisher of Open Access books 12.2% 108,000 1.7 M TOP 1% 151 3,350A novel all-solid-state thin-ilm-type lithium-ion battery with in-situ prepared electrode active materials 75

Cited by 3 publications

References 27 publications

Simultaneous Measurement of Electron and Ion Transfer in All-Solid Ion-Transfer Device Made of Transition Metal Cyanide Films

Simultaneous Measurement of Electron and Ion Transfer in All-Solid Ion-Transfer Device Made of Transition Metal Cyanide Films

Lithium La_0.57Li_0.33TiO₃Perovskite and Li_1.3Al_0.3Ti_1.7(PO₄)₃Li-NASICON Supported Thick Films Electrolytes Prepared by Tape Casting Method

Sol–Gel Materials for Batteries and Fuel Cells

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A Novel All-Solid-State Thin-Film-Type Lithium-Ion Battery with In-Situ Prepared Electrode Active Materials

Abstract: We are IntechOpen, the first native scientific publisher of Open Access books 12.2% 108,000 1.7 M TOP 1% 151 3,350A novel all-solid-state thin-ilm-type lithium-ion battery with in-situ prepared electrode active materials 75

Cited by 3 publications

References 27 publications

Simultaneous Measurement of Electron and Ion Transfer in All-Solid Ion-Transfer Device Made of Transition Metal Cyanide Films

Simultaneous Measurement of Electron and Ion Transfer in All-Solid Ion-Transfer Device Made of Transition Metal Cyanide Films

Lithium La0.57Li0.33TiO3Perovskite and Li1.3Al0.3Ti1.7(PO4)3Li-NASICON Supported Thick Films Electrolytes Prepared by Tape Casting Method

Sol–Gel Materials for Batteries and Fuel Cells

Contact Info

Product

Resources

About

Lithium La_0.57Li_0.33TiO₃Perovskite and Li_1.3Al_0.3Ti_1.7(PO₄)₃Li-NASICON Supported Thick Films Electrolytes Prepared by Tape Casting Method