Organic Airborne Molecular Contamination in Semiconductor Fabrication Clean Rooms

Den, Walter; Bai, Hsun-Ling; Kang, Yu-Hao

doi:10.1149/1.2147286

Cited by 61 publications

(52 citation statements)

References 56 publications

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“…(9)(10)(11)(12) Additionally, we can also suspect that the SAM substrate in air may result in a random adsorption of Airborne Molecular Contamination (AMC). (27) During the experiment, the substrate is exposed to air. Then, the substrate condition can be locally changed.…”

Section: Resultsmentioning

confidence: 99%

Tomographic PIV measurement of internal complex flow of an evaporating droplet with non-uniformly receding contact lines

Kim¹,

Belmiloud²,

Mertens³

2016

Journal of the Korean Society of Visualization

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We investigate an internal flow pattern of an evaporating droplet where the contact line non-uniformly recedes. By using tomographic Particle Image Velocimetry, we observe a three-dimensional azimuthal vortex pair that is maintained until the droplet is completely dried. The non-uniformly receding contact line motion breaks the flow symmetry. Finally, a simplified scaling model presents that the mechanical stress along the contact line is proportional to the vorticity magnitude, which is validated by the experimental results.

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Section: Resultsmentioning

confidence: 99%

Tomographic PIV measurement of internal complex flow of an evaporating droplet with non-uniformly receding contact lines

Kim¹,

Belmiloud²,

Mertens³

2016

Journal of the Korean Society of Visualization

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“…As well known, many kinds of chemicals are used and various kinds of particles form in the semiconductor manufacturing process and airborne molecular contaminations (AMCs) from these chemicals. Particles with moisture in the air not only contaminate wafer itself but also have effect on wire bonding which can generate product defects (Kikyuama et al, 1991;Den et al, 2006;Lin et al, 2010;Lee et al, 2015). To prevent this kind of contamination by exposure to the air, wafers on which chip is formed are stored or moved in the enclosed carrier called front opening unified pod (FOUP) and particles or AMCs remaining on wafers may diffuse into FOUP and contaminate it (Frickinger et al, 2000;Hu et al, 2005;Hu et al, 2009).…”

Section: Introductionmentioning

confidence: 99%

Influence of Fluoride Ions Contamination in Front Opening Unified Pod (FOUP) Generating Defective Bonding Pad

Kwon

Hwang

Kim

et al. 2017

Aerosol Air Qual. Res.

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We analyzed defective bonding pad in various ways and determined the causes of defects that boosts oxidation of aluminium by fluoride residue on surface of pad with moisture. Additionally, we compared and evaluated methods to minimize pad defects in aspects such as etching and wafer storage environment. In case of wafers after pad open etching process using common CF 4 stored in FOUP, the concentration of fluoride ions in FOUP was 230 ng L -1 and it decreased down to 170 ng L -1 when Ar sputtering step was added after using CF 4 . Also under the same condition, fluoride ion concentration in FOUP decreased down to 20 ng L -1 when nitrogen purge was introduced for 10 minutes to the FOUP where wafers were stored and the moisture also decreased from 40% before purge to 10% after purge. As a result of observation on pad surface after storing wafers in FOUP for 120 hours under each condition, negligible amount of defects were found when nitrogen was purged. Therefore, we conclude that defects on pad were generated by existing fluoride ions after etching process and moisture in the air.

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“…AMC includes all gaseous or vapor state contaminants emitted by fugitive sources or during the wafer fabrication process [1]. A classification of these AMCs was presented in the SEMI Standard F21-1102 (Semiconductor Equipment and Materials International).…”

Section: Introductionmentioning

confidence: 99%

“…Phthalate esters, such as DEP (Diethyl phthalate) are present in the clean rooms as condensable emerging from the polymers used in these rooms where they are employed as plasticizers. Among the dopants, organophosphate, such as TCEP (Tris-(2-chloroethyl) phosphate) and TCPP (Tris-(2-chloroisopropyl) phosphate) are frequently observed in clean rooms stemming from the large abundance of plastic polymers in which they are used as flame retardant [1]. These additives are not chemically bound to the polymer, which implies they can migrate from the plastic polymer to the environment and contaminate the surrounding of the polymer [3,4,5].…”

Section: Introductionmentioning

confidence: 99%

Validation of Direct Analysis Real Time source/Time-of-Flight Mass Spectrometry for organophosphate quantitation on wafer surface

Hayeck

Ravier

Gemayel

et al. 2015

Talanta

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Organic Airborne Molecular Contamination in Semiconductor Fabrication Clean Rooms

Cited by 61 publications

References 56 publications

Tomographic PIV measurement of internal complex flow of an evaporating droplet with non-uniformly receding contact lines

Tomographic PIV measurement of internal complex flow of an evaporating droplet with non-uniformly receding contact lines

Influence of Fluoride Ions Contamination in Front Opening Unified Pod (FOUP) Generating Defective Bonding Pad

Validation of Direct Analysis Real Time source/Time-of-Flight Mass Spectrometry for organophosphate quantitation on wafer surface

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