Effect of Ethanol on the Photoelectrochemical Fabrication of Macroporous n-Si(100) in HF Solution

Lin, Jiaping; Lai, Chien Ming; Jehng, Wern Dare; Hsueh, Kan‐Lin; Lee, Sheng Long

doi:10.1149/1.2898687

Cited by 12 publications

(7 citation statements)

References 33 publications

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“…ITO has a limited stability during cathodic polarization in acidic solutions. 22 Hydrogen intercalation into ITO and the resulting changes in optical properties have been shown to occur at potentials Ͻ−0.7 V, 23 again consistent with the finding reported here. At a potential of Ϫ0.75 V the absorption edge is shifted to lower wavelengths.…”

Section: D434supporting

confidence: 90%

Photoelectrochemical Performance of Anatase TiO[sub 2] Thin Films Deposited by Self-Limiting Growth Techniques

Wang

Kubala

Wolden

2010

J. Electrochem. Soc.

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Anatase TiO 2 photoanodes were deposited by self-limiting growth techniques at low temperature. The optical bandgap and flatband voltage of the as-deposited films agree with the values obtained from single crystal anatase. The donor density could be increased by both UV illumination and cathodic polarization in acidic solutions. Improvements in photocurrent scaled closely with changes in carrier concentration, with over 20-fold enhancements observed over the as-deposited films. The threshold potential for hydrogen intercalation was Ϫ0.6 V vs Ag/AgCl. At this level the carrier concentration could be manipulated with no change in optical transmission. At lower potentials irreversible changes are observed which are attributed to the reduction of the underlying indium tin oxide contact. In contrast, no changes were observed when fluorinated tin oxide was used as the contact layer.TiO 2 films have been widely studied as photocatalysts for water splitting and degradation of organic contaminants since the early 1970s. 1,2 Various techniques have been used to synthesize TiO 2 thin films including oxidation of titanium, 3 chemical vapor deposition ͑CVD͒, 4 plasma-enhanced chemical vapor deposition ͑PECVD͒, 5 and sputtering. 6 More recently, self-limiting growth techniques such as atomic layer deposition have been introduced to provide digital control. 7,8 Our group has recently developed both plasma-enhanced atomic layer deposition ͑PEALD͒ 9 and pulsed PECVD 10 processes for the synthesis of titania at low temperature ͑Յ200°C͒ using TiCl 4 and O 2 . In PEALD, perfect conformality is achieved, allowing uniform deposition on complex topographies. The resulting films produced by both techniques displayed a polycrystalline anatase morphology with no detectable chlorine impurities. 9,10 In this work we focus on the photoelectrochemical properties of these films and compare their performance with that of TiO 2 films deposited by other techniques. Photoanodes were formed by depositing TiO 2 on glass coated with transparent conducting oxides ͑TCOs͒. In particular, we systematically explore electrochemical doping using cathodic polarization as a means to control the carrier concentration and enhance the photoresponse. In addition, the role of the underlying TCO contact was evaluated by comparing photoanodes produced with indium tin oxide ͑ITO͒ and fluorinated tin oxide ͑FTO͒. ExperimentalTiO 2 thin films were deposited on TCO-coated glass by both PEALD and pulsed PECVD. Details on the two deposition processes are found in the literature. 9,10 In all cases, the deposition temperature was T = 200°C. Thin ͑70 nm͒ and thick ͑255 nm͒ sets of films were produced to explore the effect of film thickness. Film thickness was determined by spectroscopic ellipsometry ͑J. A. Woollam͒. Most of the results presented below were achieved with pulsed PECVD films, but nominally identical results were obtained with PEALD films. The two TCOs employed were commercial FTO ͑Libby-Owens-Ford, R s ϳ 10 ⍀/ᮀ͒ or 200 nm thick ITO layers that were sputtered in...

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Section: D434supporting

confidence: 90%

Photoelectrochemical Performance of Anatase TiO[sub 2] Thin Films Deposited by Self-Limiting Growth Techniques

Wang

Kubala

Wolden

2010

J. Electrochem. Soc.

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“…In addition, the slope (dJ/dV) of the current density (J) -potential (V) curve decreased largely. This indicates that the resistance of the electrochemical etching process involving the charge transfer increases 16,29 toward the thickness direction of the metal (Ag) as compared to other back contact materials (i.e. Pt, Al, Ti/Au).…”

Section: Resultsmentioning

confidence: 97%

Fabrication of Ordered Silicon Wire Structures via Macropores without Pore Wall by Electrochemical Etching

Jang

Choi²,

Lee

et al. 2011

J. Electrochem. Soc.

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“…35 They distinguish between different surface conditions partly by the magnitude of the measured capacitance, which is expected to be in the nF cm 2 , F cm −2 , and mF cm −2 range for a space charge layer, Helmholtz layer, and oxide layer, respectively. 35,36 Thus, a best-fit capacitance value in the F cm −2 range is considered as evidence of a Helmholtz layer in potential regimes and at dopant conditions where the surface is not oxidized and no space charge layer forms. The results in Table I are consistent with this criterion, supporting our assertion that Si oxide does not form in the solutions studied here.…”

Section: Resultsmentioning

confidence: 99%

Galvanic Deposition of Nanoporous Si onto 6061 Al Alloy from Aqueous HF

Krishnamurthy¹,

Rasmussen

Suni

2011

J. Electrochem. Soc.

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We report galvanic deposition of Si onto 6061 Al alloy from dilute aqueous hydrofluoric acid ͑HF͒ at pH 2.5. The overall reaction involves reduction of SiF 6 2− to Si with simultaneous oxidation and dissolution of Al. The Si film is about 12 m thick after 6 h of deposition. High resolution scanning electron microscopy shows that these Si films are nanoporous, with pore sizes ranging from 3 to 8 nm. The nanoporous Si films oxidize rapidly upon sample emersion. Elemental analysis by energy dispersive X-ray spectroscopy demonstrates that the as-deposited film contains 1-3 atom % Al, 3-6 atom % Cu, and 90-95 atom % Si. We believe that this is the first report of electrochemical deposition of Si thin films that does not involve organic solvents or molten salt electrolytes.

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Effect of Ethanol on the Photoelectrochemical Fabrication of Macroporous n-Si(100) in HF Solution

Cited by 12 publications

References 33 publications

Photoelectrochemical Performance of Anatase TiO[sub 2] Thin Films Deposited by Self-Limiting Growth Techniques

Photoelectrochemical Performance of Anatase TiO[sub 2] Thin Films Deposited by Self-Limiting Growth Techniques

Fabrication of Ordered Silicon Wire Structures via Macropores without Pore Wall by Electrochemical Etching

Galvanic Deposition of Nanoporous Si onto 6061 Al Alloy from Aqueous HF

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