• Proceedings of the Materials Research Society of Korea Conference
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• 2009.05a
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• pp.25.1-25.1
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• 2009

Pattern 웨이퍼 상의 오염입자 제거는 반도체 산업의 주된 과제 중 하나이다. Pattern의 선폭이 좁아짐에 따라 Pattern에 손상을 가하지 않고 오염입자를 제거 하는 것은 더욱 어려워지고 있다. 그뿐만 아니라 기존 습식세정 공정에서의 화학액에 의한 환경오염 및 박막의 손실도 문제가 되기 시작했다. 이러한 문제를 해결하기 위해 기존 세정공정에서 화학액의 농도를 낮추고 Megasonic 등을 이용하여 세정력을 보완하는 방법들이 연구되고 있다. 하지만 습식세정의 경우 강한 화학작용으로 인한 표면 손상 및 물 반점의 문제는 여전히 이슈가 되고 있다. 이러한 단점을 극복하기 위하여 건식 세정법이 제시되고 있으며 이 중 레이저 충격파는 레이저를 집속시켜 발생된 충격파를 이용하여 입자를 제거하기 때문에 국부적인 세정이 가능하며 세정력 조절이 가능하여 손상이 세정을 할 수 있다. 그러나 Pattern의 구조에 의해 전되는 세정력의 차이가 발생하고 Trench 내부의 오염입자제거 문제점이 발생할 수 있다. 시편은 Si STI Pattern을 100 nm PSL Particle (Red Fluorescence, Duke Scientific, USA) 을 50ppm 농도로 희석시킨 IPA에 dipping 하여 오염시킨 후 N2 Gas를 이용하여 건조하여 준비하였다. 그리고 레이저 충격파 세정 시스템은 최대 에너지 1.8 J까지 가능한 레이저를 발생하는 1,064 nm Nd:YAG 레이저를 이용하여 실험하였다. 레이져 충격파 실험은 충격파와 시편사이의 거리, gap distance와 에너지를 변환하여 세정효율을 관찰하였다. 세정효율은 세정 전후의 입자 감소량을 현광현미경 (LV-150, Nikon, Japan)를 이용하여 측정하였다. 그 결과, Trench 내부의 오염입자의 경우 Trench 밖의 오염입자에 비해 세정효율이 떨어지는 것으로 나타났으나 시편과 레이저 초점과의 거리가 가까워짐에 따라 Trench 내부의 오염입자에 대한 세정 효율을 증가시킬 수 있었다.

• Proceedings of the Optical Society of Korea Conference
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• 2003.02a
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• pp.54-55
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• 2003

지금까지 반도체 장비 부품 세정을 위한 기존의 세정 방법중 가장 널리 사용되는 화학적 세정 방법은 다량의 유해 화학물질의 발생 및 후처리 문제, 비용문제, 열악한 작업 환경등과 같은 많은 문제를 노출시키고 있다. 이에 최근의 기술은 습식 세정에서 건식세정 방식으로의 기술 전이가 빠르게 이루어지고 있으며, 특히 레이저 광에 의한 건식 세정 기술은 다양한 오염 물질을 하나의 레이저 광원으로 제거할수 있으며, 기존의 습식 방법과 비교해 환경 친화적 청정 기술이고, 다른 건식 세정 기술인 드라이 아이스 및 플라즈마 세정 방법과 비교해 이동용으로 제작이 가능해 반도체 및 평판 디스플레이 생산공정에서 부품을 분리하지 않고 쉽게 세정을 하기 때문에 반도체 생산 현장에서 in-situ 세정으로 시간적, 경제적 이점이 대단히 크다. (중략)

• Journal of Conservation Science
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• v.10 no.1 s.13
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• pp.10-20
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• 2001

Since the feasibility for the application of laser to the conservation of artworks had been demonstrated by John F. Asmus at 1972 it was known from many experiments that laser cleaning technology Provided superior characteristics over conventional cleaning methods based on mechanical and chemical actions. Then, the research and development of the cleaning technology was carried out strongly in Europe and many successful cleaning applications such as stone, painting, stained glass, paper, leather, and metal have been reported. However this is not familiar as a cleaning tool in the restoration of artworks in oriental countries including Korea. Therefore, this article aims to introduce a laser cleaning technology and its characteristics for the applications to art restoration. The contents in this article include general principles and characteristics of laser, the introduction of laser cleaning technology, and real laser applications for artwork restoration.

• Clean Technology
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• v.18 no.3
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• pp.287-294
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• 2012

In this study, performances of two cleaning methods were analyzed and a cleaning system was designed to develop a cleaning process of electronic components to remanufacture old laser copy machine. First, plasma cleaning as a dry cleaning method was executed to test cleaning ability. In cleaning of printed circuit board (PCB) by plasma, some damages were found near the metal parts, and considering the productivity, this method was not adequate for the cleaning of electronic components. With 4 different cleaning agents, ultrasonic cleaning tests were executed to select an optimal cleaning agent, aqueous agents showed superior cleaning performance compared to semi-aqueous and non-aqueous agents. Cleaning with aqueous cleaning agent A and 28 kHz ultrasonic frequency can be completed in 30 sec to 1 min. Finally, an ultrasonic cleaning system was constructed based on the pre-test results. Optimal cleaning conditions of 40 kHz and $50^{\circ}C$ were found in the field test. The productivity and economic efficiency in remanufacturing of laser copy machine are expected to increase by adapting developed ultrasonic cleaning system.

• Clean Technology
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• v.17 no.2
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• pp.117-123
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• 2011

In this study, evaluation tests for cleaning performance of various cleaning agents and selection of optimal ultrasonic cleaning parameters were executed to develop an efficient cleaning process in remanufacturing of laser copy machine. Cleaning performance tests were executed with 8 cleaning agents (A~H) to remove the contaminants of oil-ink, toner particles, and shoe polish. Physical properties and foamability tests were also applied. For 3 types of contaminants, cleaning agent G showed superior cleaning performance compared to agent A which has being used at a remanufacturing of laser copy machine in Korea. With cleaning agents selected in pre-tests, ultrasonic cleaning tests were executed to remove real contaminants on the parts of used digital laser copy machine parts. Cleaning agent G at 28 kHz ultrasonic frequency showed faster cleaning performance compared to agent A and other frequencies. The productivity and economic efficiency in remanufacturing of laser copy machine are expected to increase by adapting agent G and 28 kHz frequency at ultrasonic cleaning process.

• Proceedings of the Korean Society of Laser Processing Conference
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• 2004.10a
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• pp.86-89
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• 2004

• Journal of ILASS-Korea
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• v.12 no.4
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• pp.185-190
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• 2007

There is a growing interest to develop a new cleaning technology to overcome the disadvantages of wet cleaning technologies such as environmental pollution and the cleaning difficulty of contaminants on integrated circuits. Laser cleaning is a potential technology to remove various pollutants on a wafer surface. However, there is no fundamental data about cleaning efficiencies and cleaning mechanisms of contaminants on a wafer surface using a laser cleaning technology. Therefore, the cleaning characteristics of a wafer surface using an excimer laser were investigated in this study. Fingerprint consisting of inorganic and organic materials was chosen as a representative of pollutants and the effectiveness of a laser irradiation on a wafer cleaning has been investigated qualitatively and quantitatively. The results have shown that cleaning degree is proportional to the laser irradiation time and repetition rate, and quantitative analysis conducted by an image processing method also have shown the same trend. Furthermore, the cleaning efficiency of a wafer contaminated by fingerprint strongly depended on a photothermal cleaning mechanism and the species were removed in order of hydrophilic and hydrophobic contaminants by laser irradiation.

• Proceedings of the Korean Society of Laser Processing Conference
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• 2006.11a
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• pp.108-113
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• 2006

• Proceedings of the Korean Society of Laser Processing Conference
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• 2004.10a
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• pp.3-13
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• 2004

• Journal of the Microelectronics and Packaging Society
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• v.16 no.1
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• pp.45-50
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• 2009

By Laser Through-Silicon-Via process, debris and particles occur when you are forming. Therefore the research of TSV cleaning become important to remove those particles and debris. Both chemical cleaning method that uses a surfactant and physical cleaning method that uses a brush were studied with the via of $30{\mu}m$ diameter and $100{\mu}m$ depth on the 8 inch CMOS Image Sensor wafer. On the DI water and a surfactant in mixture ratio of 2:1, debris show $73{\mu}m^2$ per $0.054mm^2$. Cleaning is superior by lower mixture ratio of DI water and surfactant. In addition, It is less than 5% of debris distribution in the laser condition changed by Laser's frequency and its speed and cleaning had no effect. In the physical cleaning, there are no crack and damage when the system condition is set by $1000{\sim}3000rpm$ strip, $50{\sim}3000rpm$ rinsing, and $200{\sim}300rpm$ brushing Therefore, debris and particles can be removed by enforced chemical method and physical method.