Jang Jo scite author profile

ITO‐free organic solar cells are fabricated on glass and on flexible substrates. The efficiencies of these cells on glass and plastic substrates (3.27% and 2.8%, respectively) were comparable to those of ITO‐based devices (3.66% and 2.9%, respectively). Furthermore, in the flexibility test the ITO‐free cells on flexible substrates manifested superior mechanical robustness compared with ITO‐based cells.

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Plasmon enhanced performance of organic solar cells using electrodeposited Ag nanoparticles

Kim

et al. 2008

472

344

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To enhance solar harvesting in organic solar cells, uniform-sized metal nanoparticles of ∼13 nm were incorporated to the device via pulse-current electrodeposition, which is a kind of simple and quick solution process that can control the density and size of metal nanoparticles. By incorporating plasmonic Ag nanoparticles on surface modified transparent electrodes, overall power conversion efficiency was increased from 3.05% to 3.69%, mainly resulting from the improved photocurrent density as a result of enhanced absorption of the photoactive conjugate polymer due to the high electromagnetic field strength in the vicinity of the excited surface plasmons.

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A Solution‐Processed MoO_x Anode Interlayer for Use within Organic Photovoltaic Devices

Jasieniak

Seifter

et al. 2012

Adv Funct Materials

237

232

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A simple, solution‐processed route to the development of MoOx thin‐films using oxomolybdate precursors is presented. The chemical, structural, and electronic properties of these species are characterized in detail, within solution and thin‐films, using electrospray ionization mass spectrometry, grazing angle Fourier transform infrared spectroscopy, thermogravimetric analysis, atomic force microscopy, X‐ray photoelectron spectroscopy, and ultraviolet photoelectron spectroscopy. These analyses show that under suitable deposition conditions the resulting solution processed MoOx thin‐films possess the appropriate morphological and electronic properties to be suitable for use in organic electronics. This is exemplified through the fabrication of poly(3‐hexylthiophene):[6,6]‐phenyl C61 butyric acid methyl ester (P3HT:PC61BM) bulk heterojunction (BHJ) solar cells and comparisons to the traditionally used poly(3,4‐ethyldioxythiophene)/poly(styrenesulfonate) anode modifying layer.

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Time‐Dependent Morphology Evolution by Annealing Processes on Polymer:Fullerene Blend Solar Cells

Kim

et al. 2009

Adv Funct Materials

286

214

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Changes in the nanoscale morphologies of the blend films of poly (3‐hexylthiophene) (P3HT) and [6,6]‐phenyl‐C61‐butyric acid methyl ester (PCBM), for high‐performance bulk‐heterojunction (BHJ) solar cells, are compared and investigated for two annealing treatments with different morphology evolution time scales, having special consideration for the diffusion and aggregation of PCBM molecules. An annealing condition with relatively fast diffusion and aggregation of the PCBM molecules during P3HT crystallization results in poor BHJ morphology because of prevention of the formation of the more elongated P3HT crystals. However, an annealing condition, accelerating PCBM diffusion after the formation of a well‐ordered morphology, results in a relatively stable morphology with less destruction of crystalline P3HT. Based on these results, an effective strategy for determining an optimized annealing treatment is suggested that considers the effect of relative kinetics on the crystallization of the components for a blend film with a new BHJ materials pair, upon which BHJ solar cells are based.

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Efficient Polymer Solar Cells with Surface Relief Gratings Fabricated by Simple Soft Lithography

Kim

et al. 2008

Adv Funct Materials

240

221

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Polymer‐based photovoltaic cells, with periodic sub‐micrometer structures as an efficient light‐trapping scheme, are investigated to improve the performance of organic solar cells based on poly(3‐hexylthiophene) and 1‐(3‐methoxycarbonyl)propyl‐1‐phenyl‐(6,6)C61. A soft lithographic approach that uses photoresponsive azo polymer films as masters and poly(dimethylsiloxane) as stamps is used to form surface relief gratings (SRGs) on the active layers. The effect of periodic gratings on solar cell performance is precisely investigated according to various grating conditions such as period, depth, and dimension. The solar cells with 1D and 2D SRGs present improved incident‐photon‐to‐current conversion efficiencies and an overall increase in power conversion efficiencies, primarily resulting from the enhancement of short‐circuit current density, indicating that periodic structures induce further photon absorption in the active film.

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Jang Jo

Efficient and Flexible ITO‐Free Organic Solar Cells Using Highly Conductive Polymer Anodes

Plasmon enhanced performance of organic solar cells using electrodeposited Ag nanoparticles

A Solution‐Processed MoO_x Anode Interlayer for Use within Organic Photovoltaic Devices

Time‐Dependent Morphology Evolution by Annealing Processes on Polymer:Fullerene Blend Solar Cells

Efficient Polymer Solar Cells with Surface Relief Gratings Fabricated by Simple Soft Lithography

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Resources

About

Jang Jo

Efficient and Flexible ITO‐Free Organic Solar Cells Using Highly Conductive Polymer Anodes

Plasmon enhanced performance of organic solar cells using electrodeposited Ag nanoparticles

A Solution‐Processed MoOx Anode Interlayer for Use within Organic Photovoltaic Devices

Time‐Dependent Morphology Evolution by Annealing Processes on Polymer:Fullerene Blend Solar Cells

Efficient Polymer Solar Cells with Surface Relief Gratings Fabricated by Simple Soft Lithography

Contact Info

Product

Resources

About

A Solution‐Processed MoO_x Anode Interlayer for Use within Organic Photovoltaic Devices