Preparation and Characterization of Barium Titanate Electrolytic Capacitors from Porous Titanium Anodes

Venigalla, Sridhar; Chodelka, Robert; Adair, James

doi:10.1111/j.1151-2916.1998.tb02639.x

Cited by 12 publications

(2 citation statements)

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“…In the range of 1–20 kHz, capacitance decreases with frequency. This phenomenon is caused by a decrease in the interfacial or space‐charge polarization, which has a major role in contributing to the permittivity of anodically derived materials at a low frequency 28–30 . However, the capacitance increases dramatically after ∼20 kHz, which is due to the resonance of capacitive components and inductive components, which are caused by aluminum foils, electrolyte, and lead wires 25 .…”

Section: Resultsmentioning

confidence: 99%

Preparation and Electrical Properties of an Anodized Al₂O₃–BaTiO₃ Composite Film

2008

Journal of the American Ceramic Society

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A highly stable, water-based barium titanate BaTiO 3 , BT, sol was synthesized using a sol-gel route through a chelate lactate technique. Dried BT precursor powders were measured by thermal gravimetry-differential thermal analysis and X-ray diffraction. It was found that BT powders first converted into barium carbonate BaCO 3 , Ti complex, and intermediate phase Ba 2 Ti 2 O 5 CO 3 , and then transformed into perovskite phase BaTiO 3 . The crystallization temperature was about 5501C. The low-voltage etched aluminum foils were covered with BT sol by dip coating, and then annealed at 6001C for 30 min in air. After that, the samples were anodized in a 15 wt% aqueous solution of ammonium adipate. The voltage-time variations during anodizing were monitored, and the electrical properties of the anodic oxide film were examined. It was shown that the specific capacitance, the product of specific capacitance and withstanding voltage, and leakage current of samples with a BT coating were about 48.93%, 38.50%, and 167% larger than that without a BT coating, respectively.

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Section: Resultsmentioning

confidence: 99%

Preparation and Electrical Properties of an Anodized Al₂O₃–BaTiO₃ Composite Film

2008

Journal of the American Ceramic Society

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“…Additionally, BaCO 3 also appeared on the surface, with a 2q peak at about 23.85 (VRC# 00-044-1487) that might have occurred after the deposition of BaTiO 3 due to high pH. 12 The BaTiO 3 peak intensity increased when the deposition CD increased to 0.1 A cm -2 as shown on curve b in Figure 3a. The lowest CD (0.025 A cm -2 ) caused a decrease in the crystallinity of BaTiO 3 , which turned to the amorphous phase; see a broad peak between 2q of 20-35 on curve c of Figure 3.…”

Section: Selection Of Deposition Conditionsmentioning

confidence: 90%

Enhanced stability and electrochemical performance of a BaTiO3/PbO2 electrode via a layer obtained with layer electrodeposition

Muthuraman¹,

Karunakaran²,

Moon³

2016

Mater. Tehnol.

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Herein, the electrodeposition of BaTiO3 and PbO2 on Ti using the layer-by-layer method under different current densities (CDs) and times, was investigated. The weight difference in the deposited BaTiO3 explains the BaTiO3 weight decrease by one order with the increasing CD from 0.025 A cm -2 to 0.125 A cm -2 and also follows the same trend during the PbO2 deposition. The PbO2 deposition at different CDs demonstrates that the deposited PbO2 weight increases by one order with the increasing CD. Also, cyclic voltammetry results explain the low and moderate deposition CDs and the time suitably shows the PbO2 redox behavior. According to SEM and XRD, a CD of 0.05 A cm -2 affects the formation of crystalline BaTiO3 and PbO2 more than higher or lower CDs. Finally, the BaTiO3 and PbO2 layer-by-layer electrode electrodeposited at a moderate CD showed a better stability than the electrode including only PbO2. The use of BaTiO3 is promising for the stability of the PbO2 electrode preparation. Keywords: BaTiO 3 , PbO 2 , electrodeposition, layer by layer, electrode stability Preiskovana je bila elektrodepozicija BaTiO3 in PbO2 na Ti, z uporabo metode plast na plast, pri razli~nih~asih in gostotah toka (CD). Razlike v te`i BaTiO3 razlo`ijo nara{~anje te`e BaTiO3 za red velikosti zaradi nara{~anja CD, od 0,025 A cm -2 do 0,125 A cm -2 . Podoben trend je bil opa`en tudi pri nana{anju PbO2. Pri nana{anju PbO2, razli~ni CD ka`ejo nara{~anje te`e nanesenega PbO2 za red velikosti z nara{~anjem CD. Tudi cikli~na voltametrija razlo`i majhen in srednji CD in~as ustrezno ka`e redoks vedenje PbO2. SEM in XRD z 0,05 A cm -2 vodita nastanek kristalini~nega BaTiO3 in PbO2 bolj kot vi{ji in ni`ji CD. Kon~no se ka`e bolj{a stabilnost elektrode elektronane{enega BaTiO3 in PbO2 plast na plast pri zmernih CD, kot pa pri PbO2 elektrodi. Uporaba BaTiO3 je obetajo~a za stabilnost priprave PbO2 elektrode. Klju~ne besede: BaTiO3, PbO2, elektro nana{anje, plast na plast, stabilnost elektrode

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ChemInform Abstract: Preparation and Characterization of Barium Titanate Electrolytic Capacitors from Porous Titanium Anodes.

1998

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Preparation and Characterization of Barium Titanate Electrolytic Capacitors from Porous Titanium Anodes.-BaTiO 3 electrolytic capacitors are fabricated by electrochemical treatment of sintered, porous Ti anodes in Ba 2+ -containing electrolytes. The formation of a BaTiO 3 coating on the surface of the titanium anode is dependent on several processing parameters, such as the type of electrolyte salt, the applied cell voltage, and the treatment temp. and time. Dense, uniform BaTiO 3 coatings of 0.25-0.5 µm thickness are formed on the entire surface of the porous titanium anodes electrochemically treated for 8 h in 0.5 M Ba(OH) 2 ·8H 2 O electrolytes at 100 • C with an applied cell voltage of 12 V. Heat treatment of the electrochemically treated titanium anodes at a temperature of 400 • C for 2 h in air increases the capacitance at all frequencies. -(VENIGALLA, S.; CHODELKA, R. E.; ADAIR, J. H.; J.

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Preparation and Characterization of Barium Titanate Electrolytic Capacitors from Porous Titanium Anodes

Cited by 12 publications

References 12 publications

Preparation and Electrical Properties of an Anodized Al₂O₃–BaTiO₃ Composite Film

Preparation and Electrical Properties of an Anodized Al₂O₃–BaTiO₃ Composite Film

Enhanced stability and electrochemical performance of a BaTiO3/PbO2 electrode via a layer obtained with layer electrodeposition

ChemInform Abstract: Preparation and Characterization of Barium Titanate Electrolytic Capacitors from Porous Titanium Anodes.

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Preparation and Characterization of Barium Titanate Electrolytic Capacitors from Porous Titanium Anodes

Cited by 12 publications

References 12 publications

Preparation and Electrical Properties of an Anodized Al2O3–BaTiO3 Composite Film

Preparation and Electrical Properties of an Anodized Al2O3–BaTiO3 Composite Film

Enhanced stability and electrochemical performance of a BaTiO3/PbO2 electrode via a layer obtained with layer electrodeposition

ChemInform Abstract: Preparation and Characterization of Barium Titanate Electrolytic Capacitors from Porous Titanium Anodes.

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Preparation and Electrical Properties of an Anodized Al₂O₃–BaTiO₃ Composite Film

Preparation and Electrical Properties of an Anodized Al₂O₃–BaTiO₃ Composite Film