Your search keyword '"Jong-Ku Park"' showing total 4 results

1. Influences of Extended Selenization on Cu2ZnSnSe4 Solar Cells Prepared from Quaternary Nanocrystal Ink

Author

Doh Kwon Lee, Seung Yong Lee, Min Jae Ko, Bongsoo Kim, Jae-Seung Lee, So Hye Cho, Bo-In Park, Hae Jung Son, Yoonjung Hwang, Jeung Hyun Jeong, Honggon Kim, Byung-Seok Lee, Jin Young Kim, and Jong Ku Park

Subjects

Materials science, Equivalent series resistance, Annealing (metallurgy), Nanotechnology, engineering.material, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, Dielectric spectroscopy, law.invention, chemistry.chemical_compound, General Energy, chemistry, Chemical engineering, Nanocrystal, law, Solar cell, engineering, CZTS, Kesterite, Physical and Theoretical Chemistry, Thin film

Abstract

Kesterite Cu2ZnSnSe4 (CZTSe) thin films prepared by the selenization of mechanochemically synthe- sized Cu2ZnSnS4 (CZTS) nanocrystal films are systematically investigated as a function of the annealing time in terms of the phase purity, microstructure, composition, and device characteristics. It is shown that selenization for an extended time does not cause a noticeable amount of Sn loss or segregation of Zn-rich layers. Thus, the prolonged annealing leads to improvements (reduction) in the shunt conductance, reverse saturation current, and diode ideality factor. However, it also leads to a deterioration of the series resistance, of which influence turned out to overwhelm all of the aforementioned positive effects on the device performance. As a consequence, the CZTSe solar cell exhibits its highest efficiency (5.43%) at the shortest annealing time (10 min). Impedance spectroscopy is demonstrated to be of good use in detecting the change in the back contact of CZTSe solar cells during annealing. The impedance spectra of the CZTSe solar cells are analyzed in association with the microstructures of the back-contact electrodes, demonstrating that the increase in the series resistance is attributed to the formation of the resistive MoSe2 layer.

Published

2014

2. Ion-Permselective Polyelectrolyte Multilayer Membrane Installed with a pH-Sensitive Oxazine Switch

Author

Jong-Dal Hong, Jong-Ku Park, Jousheed Pennakalathil, Tae-Hyun Kim, Kyuwon Kim, and Kyoungja Woo

Subjects

Acrylate, Molecular Structure, Polymers, Cationic polymerization, Membranes, Artificial, Surfaces and Interfaces, Hydrogen-Ion Concentration, Chromophore, Condensed Matter Physics, Photochemistry, Polyelectrolyte, chemistry.chemical_compound, Membrane, Models, Chemical, chemistry, Oxazines, Monolayer, Electrochemistry, Copolymer, Organic chemistry, General Materials Science, Electrodes, Spectroscopy, Acrylic acid

Abstract

This paper describes a pH-responsive multilayer film composed of two layered components, namely poly(allylamine hydrochloride) (PAH) and a copolymer of acrylic acid and [1,3]oxazine-modified acrylate (POA). The oxazine ring is an acidochromic chromophore and opens to form either cationic 3H-indolium or anionic hemiaminal in a pH-dependent manner. This structural transition was used to generate a net positive or negative charge on the membrane for selective ion permeation. Interestingly, the reversible oxazine ring opening and closing proceeded smoothly without significant steric hindrance in the multilayer film comprising 10 PAH/POA bilayers. The pH-responsive permselectivity for cationic and anionic probe molecules was demonstrated using a POA monolayer film adsorbed electrostatically onto an amino-functionalized ITO electrode. The origin of the excellent ion-transport selectivity in the 1 nm ultrathin POA membrane is discussed in terms of alternating charges of the aromatic amphoteric group, oxazine, in the polyeletrolyte membrane.

Published

2010

3. Photoregulation of Ion Permeation through a Polyelectrolyte Multilayer Membrane by Manipulating the Chromophore Orientation

Author

Jousheed Pennakalathil, Jong-Dal Hong, Kyuwon Kim, Surjith K. Kumar, Jong-Ku Park, and Tae Hyun Kim

Subjects

Photoisomerization, Photochemistry, Polymers, medicine.disease_cause, Polyethylene Glycols, Ion, Electrolytes, chemistry.chemical_compound, Optics, Electrochemistry, medicine, General Materials Science, Irradiation, Spectroscopy, Ions, Chemistry, business.industry, Surfaces and Interfaces, Chromophore, Condensed Matter Physics, Polyelectrolyte, Membrane, Azobenzene, Microscopy, Electron, Scanning, business, Ultraviolet

Abstract

Toward the realization of nanoscale device control, we report a novel method for photoregulation of ion flux through a polyelectrolyte multilayer membrane by chromophore orientation that is adjusted either by illumination at normal incidence or by slantwise irradiation at an angle of 10 degrees with respect to the surface. Our results indicate that the chromophore reorientation caused by the slantwise irradiation controls the effective pore size and, consequently, the transport behavior on the nanoscale. The slantwise illumination, which includes six EZE photoisomerization cycles generated by alternately irradiating with ultraviolet (lambda = 360 nm) and visible (lambda = 450 nm) light, reversibly switches the orientation of E-azobenzene in the membrane between 53 +/- 2 degrees (high tilt) and 17 +/- 5 degrees (low tilt) with respect to the surface. The novel feature of this light-gated valve system is its extremely long-lived open-switch state; this behavior stands in contrast to that of other systems based on labile photoisomers, which tend to instantly return to the thermodynamically stable state.

Published

2008

4. Smart Molecular Helical Springs as Tunable Receptors

Author

Hee K. Chae, and Jong Ku Park, Yun Ju Kim, Young-A Lee, and Ok-Sang Jung

Subjects

Crystallography, Colloid and Surface Chemistry, Ideal (set theory), Chemistry, General Chemistry, Biochemistry, Coil spring, Catalysis

Abstract

The rational construction and operation of an ideal helical spring has been investigated. The infinite helices, [Ag(Py2O)]X (Py2O = 3,3‘-oxybispyridine; X- = NO3-, BF4-, ClO4-, and PF6-), have been...

Published

2000