• Korean Journal of Materials Research
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• v.25 no.12
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• pp.708-712
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• 2015

This study reports the effects of $H_2S$ gas concentration on the properties of $Cu_2ZnSnS_4(CZTS)$ thin films. Specifically, sulfurization process with low $H_2S$ concentrations of 0.05% and 0.1%, along with 5% $H_2S$ gas, was studied. CZTS films were directly synthesized on Mo/Si substrates by chemical bath deposition method using copper sulfate, zinc sulfate heptahydrate, tin chloride dihydrate, and sodium thiosulfate pentahydrate. Smooth CZTS films were grown on substrates at optimized chemical bath deposition condition. The CZTS films sulfurized at low $H_2S$ concentrations of 0.05 % and 0.1% showed very rough and porous film morphology, whereas the film sulfurized at 5% $H_2S$ yielded a very smooth and dense film morphology. The CZTS films were fully crystallized in kesterite crystal form when they were sulfurized at $500^{\circ}C$ for 1 h. The kesterite CZTS film showed a reasonably good room-temperature photoluminescence spectrum that peaked in a range of 1.4 eV to 1.5 eV, consistent with the optimal bandgap for CZTS solar cell applications.

• Proceedings of the Materials Research Society of Korea Conference
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• 2010.05a
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• pp.35.2-35.2
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• 2010

최근 $Cu(In,Ga)Se_2$(CIGS)와 같은 박막 태양전지에 대한 연구가 많은 관심을 끌고 있다. CIGS 태양전지의 광투과층으로 사용되고 있는 II-VI족 화합물 반도체인 CdS는 상온에서의 에너지 밴드 갭(band gap)이 2.42eV 정도로서, 가시광영역의 많은 빛을 투과시키고, 적절한 제작 조건하에서 비교적 낮은 비저항을 나타내기 때문에 널리 사용되고 있다. 하지만 CIGS 태양전지 연구는 주로 CIGS 흡수층 제조공정에 편중되어 있으며, CdS 버퍼층 공정조건에 대한 체계적인 연구가 부족하다고 판단된다. 습식공정인 Chemical Bath Deposition (CBD)에 의해 주로 제조되는 CdS는 단순한 제조공정에도 불구하고 CIGS 태양전지의 성능에 지대한 영향을 미치는 것으로 알려져 있다. 특히, CdS합성반응이 개시되기 전까지의 용액잔류시간 (dip time)은 CIGS내로의 Cd이온 농도를 결정하는 중요한 공정변수로 판단된다. CIGS 표면에 Cd이 도핑될 경우, CIGS는 n형 전도성을 갖는 얇은 층을 갖게 되어 전체적으로 n-CIGS/p-CIGS의 동종 접합을 형성하는 장점을 부여할 것으로 기대된다. 따라서 본 논문에서는 dip time을 주요변수로 하여 CIGS 태양전지의 성능에 미치는 영향을 주로 고찰하였다. Cd의 확산 정도는 secondary ion mass spectroscopy (SIMS)를 이용하여 정량화하였으며, 제조된 CIGS 태양전지의 전류-전압 특성과 상관성을 제시하고자 한다.

• Proceedings of the KIEE Conference
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• 1997.07d
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• pp.1436-1438
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• 1997

In this paper, CdS thin films, which were widely used window layer of the CdS/CdTe and the CdS/$CuInSe_2$ heterojunction solar cell, were grown by chemical bath deposition, and The properties were investigated in detail. Cadmium acetate and thiourea were used as cadmium and sulfur source, respectively. And Ammonium acetate was used as the buffer solution. Also Ammonia was used for controlling pH concentration. The reaction velocity was increased with increasing reaction temperature and decreasing pH concentration. The crystal structure of CdS films grown with various pH concentration had the hexagonal structure with (002) plane peak. In the range of pH $9{\sim}9.5$, the intensity of the peak was highest, and as increasing pH concentration, decreased the intensity of the peak except pH12.

• Journal of the Korean Ceramic Society
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• v.45 no.1
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• pp.30-35
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• 2008

In this paper, CdS/Cd(Cu)S thin films and diodes were manufactured via a chemical bath deposition (CBD) process, and the effects of $NH_4Cl$ and TEA(triethylamine) on the properties of the films were examined. The addition of $NH_4Cl$ significantly increased the thickness of the CdS and Cd(Cu)S films, however, the addition of TEA decreased the thickness in both cases slightly. The addition of $NH_4Cl$ along with TEA increased the film thickness more effectively compared to the addition of only $NH_4Cl$. The thickness of the CdS film prepared from an aqueous solution of 0.007 M $CdSO_4$, 1.3 M $NH_4OH$, 0.03 M $SC(NH_2)_2$, 0.0001 M TEA and 0.03 M $NH_4Cl$ was 310 nm. Dark resistivity of the CdS film was $1.2{\times}10^3\;{\Omega}cm$ and the photo resistivity with $500\;W/cm^2$ irradiation of white light was $20{\Omega}cm$. The Cd(Cu)S/CdS thin film diodes prepared by CBD showed good rectifying characteristics.

• Proceedings of the Korean Vacuum Society Conference
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• 2010.02a
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• pp.294-294
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• 2010

CdS는 $CuInSe_2$계, CdTe계 이종접합 태양전지의 junction partner로 많이 이용되어 왔다. CdS는 전극으로 쓰일 뿐만 아니라 빛을 투과시키는 창문층으로 사용되어 높은 변환 효율을 나타낸다. 이종접합 태양전지에서 창문층은 가시광 영역에서 광투과율이 높고, 전기적으로 비저항이 낮아야 에너지 손실 없이 태양광을 광흡수층까지 투과시킬 수 있다. CdS 박막은 CBD법(solution growth technique), 진공증착법(vacuum evaporation), 스퍼터법(sputtering), 스프레이 열분해법(spray pyrolysis), 전착법(electrodeposition)에 의해 제조되고, 그 중 용액성장법(solution growth technique)이라고도 불리는 CBD법(chemical bath deposition)을 이용하여 CdS 박막을 제조하였다. CBD법은 다른 방법에 비해 제조 과정이 비교적 간단할 뿐만 아니라 제조 단가가 저렴하고, 넓은 면적의 박막 제조가 가능하며 재현성도 우수하다는 장점이 있다. CdS 박막을 제조하기 위한 cadmuim 이온공급원으로는 $CdSO_4$를 사용하였고 sulfur 이온공급원으로는 $SC(NH_2)_2$를 사용하였다. CBD법에서 박막의 물성에 영향을 미칠 수 있는 요인인 sulfur 이온공급원과 cadmium 이온공급원의 비, 용액의 온도, pH를 변화시켜 CdS 박막을 제조하였다. 각각의 조건에 의해 제조된 CdS의 박막의 두께는 Tencor P-1을 이용하여 측정되었고, UV-Visible spectrometer를 이용하여 파장에 따른 광투과율을 측정하였다. CdS 박막의 결정 구조를 조사하기 위해 X선 회절분석(XRD ; X-ray diffraction)을 하였고, AFM(Atomic Force Microscope)으로 표면 특성을 관찰하였다.

• Proceedings of the Korean Vacuum Society Conference
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• 2013.08a
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• pp.321.2-321.2
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• 2013

CdS는 2.42 eV의 밴드 갭을 가지는 직접 천이형 반도체로서 CdTe계와 CGIS계 태양전지의 접합 partner로 많이 이용되어 왔다. 태양전지의 광투과층으로 사용되는 CdS 박막의 필요한 물성으로는 높은 광투과도와 얇은 두께이다. 광투과층으로 사용되는 CdS 막의 광투과도가 높아야 많은 양의 빛이 손실 없이 투과하여 광흡수층인 CIGS에 도달할 수 있다. 특히, CdS막의 두께가 얇으면 밴드 갭 이상의 에너지를 가지는 파장의 빛도 투과시킬 수 있어 태양전지의 효율의 증가을 얻을 수가 있다. 그러나 CdS 막의 두께가 얇을 경우, pinhole이 생성되는 등 막의 균질성이 문제가 되기 때문에 얇으면서도 pinhole이 없는 CdS 박막을 만들기 위한 연구가 진행되고 있다. 본 연구에서는 높은 변환 효율을 갖는 CIGS 박막 태양전지 제작에 적합한 chemical bath depostion(츙)법을 이용하여 CdS 박막을 제조하였다. 또한 반응온도, Cd 및 S source 비, 반응용액의 pH와 같은 증착 조건에 따른 박막의 구조적, 광학적 특성을 조사하였다.

• 한국신재생에너지학회:학술대회논문집
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• 2006.06a
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• pp.152-153
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• 2006

The new approach to buffer layer design for CIGS solar cells that permitted to reduce the buffer absorption losses in the short wavelength range and to overcome the disadvantages inherent to Cd-free CIGS solar cells was proposed. A chemical bath deposition method has been used to produce a high duality buffer layer that comprises thin film of CdS and Zn-based film. The double layer was grown on either ITO or CIGS substrates and its morphological, structural and optical properties were characterized. The Zn-based film was described as the ternary compound $ZnS_x(OH)_y$. The composition of the $ZnS_x(OH)_y$ layer was not uniform throughout its thickness. $ZnS_x(OH)_y$/CdS/substrate region was a highly intermixed region with gradually changing composition. The short wavelength cut-off of double layer was shifted to shorter wavelength (400nm) compared to that (520 nm) for the standard CdS by optimization of the double buffer design. The results show the way to improve the light energy collection efficiency of the nearly cadmium-free CIGS-based solar cells.

• Advances in nano research
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• v.14 no.6
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• pp.557-573
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• 2023

The rapid growth of zinc-oxide (ZnO) nanostructures (NSs) on woven carbon fiber (WCF) is reported in this study employing a microwave-aided chemical bath deposition process. The effects of different process parameters such as molar concentration, microwave duration and microwave power on morphologies and growth rate of the ZnO on WCF were studied. Furthermore, an attempt has been taken to study influence of different type of growth solutions on ZnO morphologies and growth rates. The surface functionalization of WCF fabrics is achieved by successful growth of crystalline ZnO on fiber surface in a very short duration through one-step microwave synthesis. The morphological, structural and compositional studies of ZnO-modified WCF are evaluated using field-emission scanning electron microscopy, X-ray diffraction and energy dispersive X-ray spectroscopy respectively. Good amount of zinc and oxygen has been seen in the surface of WCF. The presence of the wurtzite phase of ZnO having crystallite size 30-40 nm calculated using the Debye Scherrer method enhances the surface characteristics of WCF fabrics. The UV-VIS spectroscopy is used to investigate optical properties of ZnO-modified WCF samples by absorbance, transmittance and reflectance spectra. The variation of different parameters such as dielectric constants, optical conductivity, refractive index and extinction coefficient are examined that revealed the enhancement of optical characteristics of carbon fiber for wide applications in optoelectronic devices, carbon fiber composites and photonics.

• Journal of the Korean institute of surface engineering
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• v.55 no.2
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• pp.102-119
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• 2022

Gold plating is used as a coating of connecter in printed circuit boards, ceramic integrated circuit packages, semiconductor devices and so on, because the film has excellent electric conductivity, solderability and chemical properties such as durability to acid and other chemicals. As increasing the demand for miniaturization of printed circuit boards and downsizing of electronic devices, several types of electroless gold plating solutions have been developed. Most of these conventional gold plating solutions contain cyanide compounds as a complexing agent. The gold film obtained from such baths usually satisfies the requirements for electronic parts mentioned above. However, cyanide bath is highly toxic and it always has some possibility to cause serious problems in working environment or other administrative aspects. The object of this investigation was to develop a cyanide-free electroless gold plating process that assures the high stability of the solution and gives the excellent solderability of the deposited film. The investigation reported herein is intended to establish plating bath composition and plating conditions for electroless gold plating, with thiomalic acid as a complexing agent. At the same time, we have investigated the solution stability against nickel ion and pull strength of solder ball. Furthermore, by examining the characteristics of the plated Au plating film, the problems of the newly developed electroless Au plating solution were improved and the applicability to various industrial fields was examined. New type electroless gold-plating bath which containing thiomalic acid as a complexing agent showing so good solution stability and film properties as cyanide bath. And this bath shows the excellent stability even if the dissolved nickel ion was added from under coated nickel film, which can be used at the neutral pH range.

• Korean Journal of Materials Research
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• v.20 no.2
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• pp.90-96
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• 2010

The recirculating electrochemical flow reactor developed at UCLA has been employed to fabricate nanostructured GMR multilayers. For comparison, Ni/Cu multilayers have been electrodeposited from a single bath, from dual baths and from the recirculating electrochemical flow reactor. For a magnetic field of 1.5 kOe, higher GMR (Max. -5%) Ni/Cu multilayers with low electrical resistivity (< $10\;{\mu}{\Omega}{\cdot}cm$) were achieved by the electrochemical flow reactor system than by the dual bath (Max. GMR = -4.2% and < $20\;{\mu}{\Omega}{\cdot}cm$) or the single bath (Max. GMR = -2.1% and < $90\;{\mu}{\Omega}{\cdot}cm$) techniques. Higher GMR effects have been obtained by producing smoother, contiguous layers at lower current densities and by the elimination of oxide film formation by conducting deposition under an inert gas environment. Our preliminary GMR measurements of Ni/Cu multilayers from the electrochemical flow reactor obtained at low magnetic field of 0.15 T, which may approach or exceed the highest reported results (-7% GMR) at magnetic fields > 5 kOe.