• 마이크로전자및패키징학회지
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• 제22권3호
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• pp.31-38
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• 2015

본 연구에서는 실리콘 웨이퍼의 고속 직접접합 공정을 위하여 상압 플라즈마와 함께 에어로젤 형태의 초순수 분사를 이용하여 표면처리 활성화 및 결함이 없는 실리콘 직접접합 공정을 개발하였다. 플라즈마 공정의 다양한 인자, 즉 $N_2$ 가스의 유량, CDA(clean dry air)의 유량, 플라즈마 헤드와 기판 간의 간격, 플라즈마의 인가전압이 플라즈마 활성화, 즉 친수화 처리에 미치는 영향을 접촉각 측정을 통하여 관찰하였다. 또한 열처리 온도 및 열처리 시간이 접합 강도에 미치는 영향을 연구하였으며, 접합 강도의 측정은 crack opening 방법을 이용하였다. 접합 강도가 제일 높은 최적의 열처리 조건은 $400^{\circ}C$의 열처리 온도 및 2 시간의 열처리 시간이었다. 플라즈마 스캔 속도 및 스캔 횟수를 실험계획법을 이용하여 최적화한 결과, 스캔 속도는 30 mm/sec, 스캔 횟수는 4 회에서 최적의 접합 강도를 나타내고 있었다. 열처리 조건과 플라즈마 활성화 조건을 최적화 한 후 직접접합을 하여 적외선투과현미경 등을 이용하여 관찰한 결과, 접합된 웨이퍼에서 접합 공정으로 인한 공극이나 결함은 관찰되지 않았다. 접합된 웨이퍼의 접합 강도는 평균 $2.3J/m^2$의 접합 강도를 나타내고 있었다.

• 한국분말재료학회지
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• 제24권3호
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• pp.248-253
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• 2017

In this study, we investigate the effect of the diffusion barrier and substrate temperature on the length of carbon nanotubes. For synthesizing vertically aligned carbon nanotubes, thermal chemical vapor deposition is used and a substrate with a catalytic layer and a buffer layer is prepared using an e-beam evaporator. The length of the carbon nanotubes synthesized on the catalytic layer/diffusion barrier on the silicon substrate is longer than that without a diffusion barrier because the diffusion barrier prevents generation of silicon carbide from the diffusion of carbon atoms into the silicon substrate. The deposition temperature of the catalyst and alumina are varied from room temperature to $150^{\circ}C$, $200^{\circ}C$, and $250^{\circ}C$. On increasing the substrate temperature on depositing the buffer layer on the silicon substrate, shorter carbon nanotubes are obtained owing to the increased bonding force between the buffer layer and silicon substrate. The reason why different lengths of carbon nanotubes are obtained is that the higher bonding force between the buffer layer and the substrate layer prevents uniformity of catalytic islands for synthesizing carbon nanotubes.

• 한국자기공명학회논문지
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• 제12권1호
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• pp.51-59
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• 2008

Convection effect in liquids has been one of the main targets to be overcome in pulsed-field-gradient NMR measurements of self-diffusion coefficients since the temperature gradient along the sample tube generated by the heating and/or cooling process causes the effect, resulting in additional diffusion. It is known that the capillary is the most appropriate tube type for diffusion experiments at variable temperatures since the narrower tube suppresses convection effectively. For evaluating the properties of hydrogen bonding, diffusion coefficients of the $K^+$-complexed and free valinomycin in a micro tube have been determined at various temperatures. From the analysis of the obtained diffusion coefficient values, we could conclude that the intramolecular hydrogen bonding in both of the $K^+$ complexed and free valinomycin in a non-polar solvent is preserved over the observed temperature range, and the temperature dependence of hydrogen bonding is more pronounced in free valinomycin. It is also thought that there is no big change in the radius of the $K^+$-complexed as temperature is varied, and the ratio of overall radius, $r_{complex}/r_{free}$ is slightly decreased as temperature rises.

• 한국마이크로전자및패키징학회:학술대회논문집
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• 한국마이크로전자및패키징학회 2004년도 추계 기술심포지움 초록집
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• pp.11-11
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• 2004

• Journal of Welding and Joining
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• 제29권1호
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• pp.52-58
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• 2011

In this paper, the direct bonding process between FPCB and HPCB was studied. By using an ultrasonic horn which is mounted on the ultrasonic bonding machine, it is alternatively possible to bond the gold pads attached on the FPCB and HPCB at room temperature without an adhesive like ACA or NCA. The process condition for obtaining more bonding strength than 0.6 Kgf, which is commercially required, was carried out as 40 kHz of frequency, 0.6 MPa of bonding pressure and 2 second of bonding time. The peel off test was performed for evaluating bonding strength which results in more than 0.8 Kgf.

• 한국정밀공학회지
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• 제27권12호
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• pp.84-91
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• 2010

The bonding process of LCD panel is attaching an inner lead to an outer lead in the production line of LCD panel module. It is composed of an OLB process and a PCB bonding process. Since bonding tool assembly is one of the core parts of the bonding equipment that determines the durability and performance of the final product, much design efforts to enhance uniformity and efficiency of the process have been made. In this paper, FE analyses have been employed to determine the bonding tool size. Bonding tool of long bar shape has been simplified as a piece with same heater pitch, and appropriate boundary conditions such as convection and radiation are considered. Thermal analysis results by the FEM have been validated by the experiments. With the use of FE analysis varies design parameters and the corresponding effects have been evaluated. It was observed that the approach presented in this paper could be employed for the design of LCD module bonding tool.

• 한국정밀공학회지
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• 제27권7호
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• pp.7-12
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• 2010

In this paper, chip-on-glass(COG) interconnection with anisotropic conductive film(ACF) using lateral thermosonic bonding technology is considered. In general, thermo-compression bonding which is used in practice for flip-chip bonding suffers from the low productivity due to the long bonding time. It will be shown that the bonding time can be improved by using lateral thermosonic bonding in which lateral ultrasonic vibration together with thermo-compression is utilized. By measuring the internal temperature of ACF, the fast curing of ACF thanks to lateral ultrasonic vibration will be verified. Moreover, to prove the reliability of the lateral thermosonic bonding, observation of pressured mark by conductive particles, shear test, and water absorption test will be conducted.

• 마이크로전자및패키징학회지
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• 제14권1호
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• pp.19-26
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• 2007

본 연구의 목적은 CMOS 이미지 센서용 Au 플립칩 범프와 전해 도금된 Au 기판 사이의 초음파 접합의 가능성 연구이다. 초음파 접합 조건을 최적화하기 위해서, 대기압 플라즈마 세정 후 접합 압력과 시간을 달리하여 초음파 접합 후 전단 시험을 실시하였다. 범프의 접합 강도는 접합 압력과 시간 변수에 크게 좌우되었다. Au 플립칩 범프는 상온에서 성공적으로 하부 Au 도금 기판과 접합되었으며, 최적 조건 하에서 접합 강도는 약 73 MPa이었다.

• Journal of Welding and Joining
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• 제31권6호
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• pp.77-83
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• 2013

3D packaging technology using TSV (Through Silicon Via)has been studied in the recent years to achieve higher performance, lower power consumption and smaller package size because electrical line is shorter electrical resistivity than any other packaging technology. To stack TSV chips vertically, reliable and robust bonding technology is required because mechanical stress and thermal stress cause fracture during the bonding process. Cu pillar/solder ${\mu}$-bump bonding process is usually to interconnect TSV chips vertically although it has weak shape to mechanical stress and thermal stress. In this study, we suggest Insert-Bump (ISB) bonding process newly to stack TSV chips. Through experiments, we tried to find optimal bonding conditions such as bonding temperature and bonding pressure. After ISB bonding, we observed microstructure of bump joint by SEM and then evaluated properties of bump joint by die shear test.

• 한국전기전자재료학회:학술대회논문집
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• 한국전기전자재료학회 1996년도 추계학술대회 논문집
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• pp.338-341
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• 1996

Anodic bonding is a key technology for micromechanical components. The main advantages of this method can be formed in a batch process, over large areas, and is permanent and irreversible. In this paper, the bonding was performed at temperatures ranging from 300 to 450 $^{\circ}C$, voltages 400 to 1000 V, and times 10 to 30 minutes. The sizes of the Si and the Pyrex #7740 glass were 6 mm $\times$6 mm, respectively. Bonding processes and voids were observed by the optical microscope, and the composition of the anodic bonding interface was analyzed by the SIMS. Optimum condition of the anodic bonding was at temperature above 40$0^{\circ}C$ without regard to voltage.