• 제목/요약/키워드: photoelectrochemical cell electrode

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ZnO Hierarchical Nanostructures Fabricated by Electrospinning and Hydrothermal Methods for Photoelectrochemical Cell Electrodes (전기방사와 수열합성법으로 제작한 광전화학셀 전극용 나노 계층형 아연산화물 구조 연구)

  • Yi, Hwanpyo;Jung, Hyuck;Kim, Okkil;Kim, Hyojin;Kim, Dojin
    • Korean Journal of Materials Research
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    • v.23 no.11
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    • pp.655-660
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    • 2013
  • Photoelectrochemical cells have been used in photolysis of water to generate hydrogen as a clean energy source. A high efficiency electrode for photoelectrochemical cell systems was realized using a ZnO hierarchical nanostructure. A ZnO nanofiber mat structure was fabricated by electrospinning of Zn solution on the substrate, followed by oxidation; on this substrate, hydrothermal synthesis of ZnO nanorods on the ZnO nanofibers was carried out to form a ZnO hierarchical structure. The thickness of the nanofiber mat and the thermal annealing temperature were determined as the parameters for optimization. The morphology of the structures was examined by field-emission scanning electron microscopy, transmission electron microscopy, and X-ray diffraction. The performance of the ZnO nanofiber mat and the potential of the ZnO hierarchical structures as photoelectrochemical cell electrodes were evaluated by measurement of the photoelectron conversion efficiencies under UV light. The highest photoconversion efficiency observed was 63 % with a ZnO hierarchical structure annealed at $400^{\circ}C$ in air. The morphology and the crystalline quality of the electrode materials greatly influenced the electrode performance. Therefore, the combination of the two fabrication methods, electrospinning and hydrothermal synthesis, was successfully applied to fabricate a high performance photoelectrochemical cell electrode.

Effect of Pt Layers on the Photoelectrochemical Properties and Stability of a Copper Oxide/n-Si Electrode (Copper oxide/n-Si 전극의 광전기화학 변환 특성과 안정성에 미치는 Pt 층의 영향)

  • 윤기현;홍석건;강동헌
    • Journal of the Korean Ceramic Society
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    • v.37 no.3
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    • pp.263-270
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    • 2000
  • The Pt/copper oxide/n-Si electrodes were fabricated by depositing copper oxide thin film of 500${\AA}$ and very thin Pt layer on the n-type (100) Si substrate. hotoelectrochemical properties and stability profiles of the electrodes were investigated as a function of deposition time of Pt layer. As the deposition time of Pt layer increased up to 10 seconds, the photocurrent and quantum efficiency were increased and then decreased with further depositing time. The better cell stability was observed for the electrode with longer deposition time. The improvements in above photoelectrochemical properties indicate that Pt layer acts as a catalyst layer at electrode/electrolyte interface as well as a protective layer. The decreasing tendency of the photocurrent and efficiency for the electrode with Pt layer deposited above 20 seconds was explained as an increases in probbility of electron-hole pair recombination and also the absorbing photon loss at electrode surface due to the excessive thickness of Pt layer. The results were confirmed by impedance spectroscopy, mutiple cycle voltammograms and microstructural analyses.

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One-Dimensional Core/Shell Structured TiO2/ZnO Heterojunction for Improved Photoelectrochemical Performance

  • Ji, In-Ae;Park, Min-Joon;Jung, Jin-Young;Choi, Mi-Jin;Lee, Yong-Woo;Lee, Jung-Ho;Bang, Jin-Ho
    • Bulletin of the Korean Chemical Society
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    • v.33 no.7
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    • pp.2200-2206
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    • 2012
  • One-dimensional $TiO_2$ array grown on optically transparent electrode holds a promise as a photoelectrode for photoelectrochemical water splitting; however, its crystal structure is rutile, imposing constraints on the potent use of this nanostructure. To address this issue, a heterojunction with type-II band alignment was fabricated using atomic layer deposition (ALD) technique. One-dimensional core/shell structured $TiO_2$/ZnO heterojunction was superior to $TiO_2$ in the photoelectrochemical water splitting because of better charge separation and more favorable Fermi level. The heterojunction also possesses better light scattering property, which turned out to be beneficial even for improving the photoelectrochemical performance of semiconductor-sensitized solar cell.

Dye-Sensitized Metal Oxide Nanostructures and Their Photoelectrochemical Properties

  • Park, Nam-Gyu
    • Journal of the Korean Electrochemical Society
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    • v.13 no.1
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    • pp.10-18
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    • 2010
  • Nanostructured metal oxides have been widely used in the research fields of photoelectrochemistry, photochemistry and opto-electronics. Dye-sensitized solar cell is a typical example because it is based on nanostructured $TiO_2$. Since the discovery of dye-sensitized solar cell in 1991, it has been considered as a promising photovoltaic solar cell because of low-cost, colorful and semitransparent characteristics. Unlike p-n junction type solar cell, dye-sensitized solar cell is photoelectrochemical type and is usually composed of the dye-adsorbed nanocrystalline metal oxide, the iodide/tri-iodide redox electrolyte and the Pt and/or carbon counter electrode. Among the studied issues to improve efficiency of dye-sensitized solar cell, nanoengineering technologies of metal oxide particle and film have been reviewed in terms of improving optical property, electron transport and electron life time.

Photoelectrochemical Water-Splitting Cells for H2 Production (광전기화학적 수소 발생 전지의 연구 개발 현황)

  • Ahn, Kwang-Soon
    • Journal of the Korean Vacuum Society
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    • v.18 no.5
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    • pp.331-336
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    • 2009
  • This article introduces the research status for the photoelectrochemical $H_2$ production. Fundamentals to the photoelectrochemical water-splitting cells are given and technical issues, research status, and development trend are also reviewed.

CdSe/$TiO_2$ electrode of photoelectrochemical[PEC] cell for hydrogen production from water using solar energy (태양광과 물로부터 수소생산을 위한 광전기화학전지의 CdSe/$TiO_2$ 전극)

  • Lee, Eun-Ho;Jung, Kwang-Deog;Joo, Oh-Shim
    • Journal of Hydrogen and New Energy
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    • v.16 no.2
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    • pp.130-135
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    • 2005
  • Cadmium selenide is one of the group IIb-VI compounds, which is the promising semiconductor material due to its wide range of technological applications in optoelectronic devices such as photoelectrochemical cells, solid state solar cells, thin film photoconductors etc. CdSe has optical band gap of 1.7-1.8eV and proper conduction band edge for water splitting. CdSe films are coated with small thickness(20-50nm) nanocrystalline $TiO_2$ film by electrodeposition or chemical bath deposition methods and PEC properties of CdSe and CdSe/$TiO_2$ sandwich structure are studied. The photoactivity of CdSe and CdSe/$TiO_2$ films deposited on titanium substrate is studied in aqueous electrolyte of 1M NaOH solution. Photocurrent and photovoltage obtained were of the order of 2-4 mA/$cm^2$ and 0.5V, respectively, under the intensity of illumination of 100 mW/$cm^2$.

Synthesis of Magneli Phases and Application to the Photoelectrochemical Electrode (마그넬리상 합성과 광전기화학셀 전극 응용)

  • Park, Jihwan;Nguyen, Duc Quang;Yang, Haneul;Hong, Soonhyun;Truong, Thi Hien;Kim, Chunjoong;Kim, Dojin
    • Korean Journal of Materials Research
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    • v.28 no.5
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    • pp.261-267
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    • 2018
  • Hydrothermal synthesis of highly crystalline $TiO_2$ nanorods is a well-developed technique and the nanorods have been widely used as the template for growth of various core-shell nanorod structures. Magneli/CdS core-shell nanorod structures are fabricated for the photoelectrochemical cell (PEC) electrode to achieve enhanced carrier transport along the metallic magneli phase nanorod template. However, the long and thin $TiO_2$ nanorods may form a high resistance path to the electrons transferred from the CdS layer. $TiO_2$ nanorods synthesized are reduced to magneli phases, $TixO_{2x-1}$, by heat treatment in a hydrogen environment. Two types of magneli phase nanorods of $Ti_4O_7$ and $Ti_3O_5$ are synthesized. Structural morphology and X-ray diffraction analyses are carried out. CdS nano-films are deposited on the magneli nanorods for the main light absorption layer to form a photoanode, and the PEC performance is measured under simulated sunlight irradiation and compared with the conventional $TiO_2/CdS$ core-shell nanorod electrode. A higher photocurrent is observed from the stand-alone $Ti_3O_5/CdS$ core-shell nanorod structure in which the nanorods are grown on both sides of the seed layer.

Preparation of WO3 by using sol-gel method for photoelectrode and its application for PEC cell (물분해로부터 수소 제조를 위한 광촉매용 텅스텐 산화물 박막 제조)

  • Hong, Eun-Mi;Im, Dong-Chan
    • Proceedings of the Korean Institute of Surface Engineering Conference
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    • 2015.05a
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    • pp.101-101
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    • 2015
  • Photoelectrochemical water splitting is considered as a promising method of transforming solar energy into chemical energy stored in the type of hydrogen. An n-type $WO_3$ semiconductor is one of the most promising photoanodes for hydrogen production from water splitting. Films annealed at lower temperatures consisted of amorphous, whereas films annealed above $500^{\circ}C$ comprised solely of monoclinic $WO_3$. In this study, we observed photoactivity of $WO_3$ as increasing thickness of $WO_3$. And it shows good photoacivity as thickness increases. Also we tried to improve photoactivity through surface modification and bulk modification by using hydrogen treatment and conducting polymer. The photocurrent was measured in potentiostatic method with the three electrode system. A Pt wire and Ag / AgCl electrode were used as the counter electrode and the reference electrode, respectively. photocurrent-time (I-T) curve was measured at a bias potential of 0.79 V.

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Origin of Nonlinear Device Performance with Illuminated Sun Intensity in Mesoscopic Sb2S3-sensitized Photoelectrochemical Solar Cells using Cobalt Electrolyte

  • Im, Sang-Hyuk;Lee, Yong-Hui;Kim, Hi-Jung;Lim, Choong-Sun;Kang, Yong-Ku;Seok, Sang-Il
    • Journal of Electrochemical Science and Technology
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    • v.2 no.3
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    • pp.174-179
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    • 2011
  • The mesoscopic $Sb_2S_3$-sensitized photoelectrochemical solar cells using cobalt redox electrolyte exhibit nonlinear behavior of power conversion efficiency with illuminated sun intensity. From the measurement of bulk diffusion and electrochemical impedance spectroscopy studies, we suggest that the nonlinearity of device performance with illuminated sun intensity is attributed not to the slow bulk diffusion problem of cobalt electrolyte but to the limited mass transport in narrowed pore volume in mesoscopic $TiO_2$ electrode.

Photoelectrochemical Behavior of Cu2O and Its Passivation Effect (산화구리의 광전기화학적 거동 특성)

  • Yun, Hongkwan;Hong, Soonhyun;Kim, Dojin;Kim, Chunjoong
    • Korean Journal of Materials Research
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    • v.29 no.1
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    • pp.1-6
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    • 2019
  • Recent industrialization has led to a high demand for the use of fossil fuels. Therefore, the need for producing hydrogen and its utilization is essential for a sustainable society. For an eco-friendly future technology, photoelectrochemical water splitting using solar energy has proven promising amongst many other candidates. With this technique, semiconductors can be used as photocatalysts to generate electrons by light absorption, resulting in the reduction of hydrogen ions. The photocatalysts must be chemically stable, economically inexpensive and be able to utilize a wide range of light. From this perspective, cuprous oxide($Cu_2O$) is a promising p-type semiconductor because of its appropriate band gap. However, a major hindrance to the use of $Cu_2O$ is its instability at the potential in which hydrogen ion is reduced. In this study, gold is used as a bottom electrode during electrodeposition to obtain a preferential growth along the (111) plane of $Cu_2O$ while imperfections of the $Cu_2O$ thin films are removed. This study investigates the photoelectrochemical properties of $Cu_2O$. However, severe photo-induced corrosion impedes the use of $Cu_2O$ as a photoelectrode. Two candidates, $TiO_2$ and $SnO_2$, are selected for the passivation layer on $Cu_2O$ by by considering the Pourbaix-diagram. $TiO_2$ and $SnO_2$ passivation layers are deposited by atomic layer deposition(ALD) and a sputtering process, respectively. The investigation of the photoelectrochemical properties confirmed that $SnO_2$ is a good passivation layer for $Cu_2O$.