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Photovoltaic lithium-ion battery fabricated by molecular precursor method

A novel thin-film lithium-ion battery (LIB) which can be charged by the light irradiation was fabricated by molecular precursor method. The unprecedented, translucent thin-film LIB, fabricated on a.
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SYNCHRONOUS ELECTROCHROMISM OF LITHIUM ION BATTERY

Electrochromism synchronous to the charge/discharge of a novel Li ion battery having Li 3 Fe 2 (PO 4) 3 and Li 4 Ti 5 O 12 thin-film electrodes fabricated by a chemical process, the molecular precursor method, was discovered. A cathode of transparent Li 3 Fe 2 (PO 4) 3 thin film with a thickness of 80 nm was fabricated by heat treating a precursor ethanol solution

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Photovoltaic lithium-ion battery fabricated by molecular precursor method

A novel thin-film lithium-ion battery (LIB) which can be charged by the light irradiation was fabricated by molecular precursor method. The unprecedented, translucent thin-film LIB, fabricated on a fluorine-doped tin oxide pre-coated glass substrate, was attained by using the active materials, titania for anode and LiCoO<SUB>2</SUB> for cathode, respectively. The

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Photovoltaic lithium-ion battery fabricated by molecular precursor method

A novel thin-film lithium-ion battery (LIB) which can be charged by the light irradiation was fabricated by molecular precursor method. The unprecedented, translucent thin-film LIB, fabricated on a...

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Molecular Precursor Method for Fabricating p-Type Cu2O and

Functional thin films are used in various fields of our life. Many different methods are used to fabricate these films including physical vapor deposition (PVD) and chemical processes. The chemical processes can be used to manufacture thin films in a relatively cheap way, as compared to PVD methods. This chapter summarizes the procedures of the molecular

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Chemical fabrication of p-type Cu2O transparent thin film using

Photovoltaic Lithium-ion Battery with Layer-Structured Li2MnIII0.2MnIV0.8O2.9 Thin Film Chemically Fabricated for Cathodic Active Material Metal Complex Molecular Precursor Method Counter Ion

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Review on the Polymeric and Chelate Gel Precursor for Li-Ion Battery

The rapid design of advanced materials depends on synthesis parameters and design. A wide range of materials can be synthesized using precursor reactions based on chelated gel and organic polymeric gel pathways. The desire to develop high-performance lithium-ion rechargeable batteries has motivated decades of research on the synthesis of battery

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1 The Science of Molecular Precursor Method

1.2 Molecular Precursor Method In 1996, one of the authors, M.S., focused on the thin-film fabrication of vari - ous metal oxides and phosphate compounds using the stable metal complexes [4–54]. This is the Molecular Precursor Method (MPM), which is one of the chemical processes used for thin-film fabrication. In those days, most of the

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Ichiro TAKANO | Kogakuin University, Tokyo | Department of

Electrochromism synchronous to the charge/discharge of a novel Li ion battery having Li3Fe2(PO4)3 and Li4Ti5O12 thin-film electrodes fabricated by a chemical process, the molecular precursor

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Photovoltaic lithium-ion battery fabricated by molecular precursor

A novel thin-film lithium-ion battery (LIB) which can be charged by the light irradiation was fabricated by molecular precursor method. The unprecedented, translucent thin-film LIB, fabricated on a fluorine-doped tin oxide pre-coated glass substrate, was attained by

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Mitsunobu SATO | Professor Emeritus | Doctor of Engineering

Photovoltaic lithium-ion battery fabricated by molecular precursor method. Article. Apr 2016; (LIB) which can be charged by the light irradiation was fabricated by molecular precursor method

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Highly Functionalized Lithium-Ion Battery

The molecular precursor method is useful to obtain the active materials for the novel device which functioned as the lithium-ion battery, photovoltaic lithium-ion battery, and the solar cell. This is the original report on translucent, thin-film LIB that can be charged by solar light irradiation was fabricated using active materials on a

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Photovoltaic Lithium-ion Battery with

Recently, we reported on the fabrication of a new photovoltaic lithium-ion battery (PV-LIB) with LiCoO2 (LCO) and titania thin films for cathodic and anodic active materials, respectively. These materials were fabricated on a fluorinated-tin-oxide (FTO) pre-coated glass substrate using the molecular precursor method (MPM) [1].

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Advanced Application of Transparent Electrodes—Photovoltaic Lithium-ion

Sol-gel TiO2-SiO2 films were deposited on 316L stainless steel by dip coating process from a sono-catalysed sol of composition 30TiO2-70SiO2 prepared from a mixture of Ti(OC2H5)4 and Si(OC2H5)4

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Highly Functionalized Lithium-Ion Battery

We have reported the fabrication of a thin-film LIB using the molecular precursor method. The thin-film LIB was fabricated with Li 4 Ti 5 O 12 for the anode and Li 3 Fe 2 (PO 4 ) 3 for the cathode on a fluorine-doped tin oxide pre-coated glass substrate and an electrolyte of dissolved LiPF 6 . Photovoltaic Lithium-ion Battery with Layer

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Methods of Fabricating Thin Films for Energy Materials and Devices

The molecular precursor method is an effectiv e, wet chemical process that was deve loped by the current authors, for fabricating nano-crystalline thin films of metals and, v arious metal oxid es

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Photovoltaic lithium-ion battery fabricated by molecular

A novel thin-film lithium-ion battery (LIB) which can be charged by the light irradiation was fabricated by molecular precursor method. The unprecedented, translucent thin-film LIB,

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Volatile single-source molecular precursor for the lithium ion battery

The heterometallic diketonate 1 was shown to exhibit clean, low-temperature decomposition in air/oxygen that results in nanosized particles of spinel-type oxide LiMn(2)O(4), one of the leading cathode materials for lithium ion batteries. The first single-source molecular precursor for a lithium-manganese cathode material is reported. Heterometallic β-diketonate

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Thin Film Fabrication and Characterization of Layered Rock Salt

A LiCoO2 thin film on a quartz glass substrate was fabricated by a wet process involving heat treatment of a precursor film spray-coated with an aqueous ammonia solution containing LiCH3COO and Co(CH3COO)2. The precursor film formed onto the substrate at 180 °C in air, and was heat treated at 500 °C in air for 0.5 h. The obtained film was spin-coated further with an

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(PDF) Introductory Chapter: Lithium-Ion Batteries

We have reported the fabrication of a thin-film LIB using the molecular precursor method. The thin-film LIB was fabricated with Li4Ti5O12 for the anode and Li3Fe2(PO4)3 for the cathode on a

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SYNCHRONOUS ELECTROCHROMISM OF LITHIUM ION BATTERY

Electrochromism synchronous to the charge/discharge of a novel Li ion battery having Li3Fe2(PO4)3 and Li4Ti5O12 thin-film electrodes fabricated by a chemical process, the molecular precursor method, was discovered. A cathode of transparent Li3Fe2(PO4)3 thin film with a thickness of 80 nm was fabricated by heat treating a precursor ethanol solution

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A low-cost Si@C composite for lithium-ion batteries anode

Silicon-carbon (Si@C) composites are emerging as promising replacements for commercial graphite in lithium-ion battery (LIB) anodes. This study focuses on the development of Si@C composites using silicon waste from photovoltaic industry kerf loss (KL) as a source for LIB anodes. We extracted purified nanosilicon powder from KL Si wastes through a combined

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Photovoltaic Lithium-ion Battery with Layer

Dilithium manganese oxide (LMO) thin film was newly fabricated as an active material on a fluorinated-tin-oxide pre-coated glass electrode by a wet process. A stable LMO precursor solution was developed through the reaction of lithium and manganese acetates with butylamine in ethanol. A spin-coated precursor film was heat-treated at 500 °C in air for 0.5 h.

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Advanced polyimide separator via co-precursor method for lithium-ion

An advanced polyimide (C-PI) separator was designed by the co-precursor method and molecular structure designation. • The C-PI separator possessed high porosity, good flexibility, excellent thermal stability, and superior electrolyte wettability. • Lithium-ion battery with C-PI separator demonstrated 93.6% retention after 1000 cycles. •

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Photovoltaic lithium-ion battery fabricated by molecular

Keywords: Photovoltaic device; lithium-ion batteries; translucent; molecular precursor method; thin film. Distributed power generation using renewable energy sources, such as solar light, can efficiently supply electricity according to on-site demand. If the electrodes of lithium-ion batteries (LIBs), which are the dominant power

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The Science of Molecular Precursor Method | Semantic Scholar

Semantic Scholar extracted view of "The Science of Molecular Precursor Method" by H. Nagai et al. Skip to search form Skip to main content Skip to account menu. Semantic Scholar''s Logo. Search 219,784,689 papers from all fields of science. Search. Sign In

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Molecular Precursor-Driven Synthesis of Copper Telluride

The copper telluride nanowires show promising performance in lithium ion battery with a discharge capacity of 130.2 mA h g<sup>-1</sup> at a high current density of 6.0 A g<sup>-1</sup> (26.74C

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Methods of Fabricating Thin Films for Energy Materials and Devices

Nagai H, Suzuki T, Takahashi Y, Sato M. Photovoltaic lithium-ion battery fabricated by molecular precursor method. Functional Materials Letters. 2016; 9:1650046-1650041, 4. DOI: 10.1142/S1793604716500466; 54. Mochizuki C, Hara H, Takano I, Hayakawa T, Sato M. Application of carbonated apatite coating on a Ti substrate by aqueous spray method.

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About Photovoltaic lithium-ion battery fabricated by molecular precursor method

About Photovoltaic lithium-ion battery fabricated by molecular precursor method

A novel thin-film lithium-ion battery (LIB) which can be charged by the light irradiation was fabricated by molecular precursor method. The unprecedented, translucent thin-film LIB, fabricated on a.

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