Cost-effective equipment for surface pre-treatment for cleaning and excitation of substrates in semiconductor technology

Weber, Dominik; Heimburger, Robert F.; Schondelmaier, Gianina; Junghans, Toni; Zetzl, Annika; Zahn, Dietrich R. T.; Schondelmaier, Daniel

doi:10.1007/s42452-022-05219-1

Cited by 5 publications

(5 citation statements)

References 56 publications

(82 reference statements)

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“…The observational procedure is detailed as follows. UV treatment of the Si substrate for 20 min to remove organic matter Application of 250 μL of cyclohexanol onto each substrate, equivalent to a 500 μm film thickness (the liquid film covers the entire coupon surface to avoid wetting effects). Nitrogen inflow into the atmosphere control box at approximately 3 L/min. Commencement of recording. Activation of the light-emitting diode; concurrent initiation of temperature data logging for synchronization. 6Sequential Peltier temperature control: Sustaining a temperature of 28 °C, exceeding the melting point of 23 °C, for 1 min. Cooling to below the melting point at specified rates (3 °C with a holding time of 3 min). Increasing the temperature to 28 °C at a rate of 100 °C/min for remelting the sublimation agent. Termination of recording. …”

Section: Methodsmentioning

confidence: 99%

“… UV treatment of the Si substrate for 20 min to remove organic matter. 32 Application of 250 μL of cyclohexanol onto each substrate, equivalent to a 500 μm film thickness (the liquid film covers the entire coupon surface to avoid wetting effects). Nitrogen inflow into the atmosphere control box at approximately 3 L/min.…”

Section: Methodsmentioning

confidence: 99%

“…1 UV treatment of the Si substrate for 20 min to remove organic matter. 32 Crystal Counting Method. Subsequently, the captured videos were subjected to a meticulous temporal analysis to quantify the variations in the number of emerging crystal nuclei.…”

Section: ■ Experimental Sectionmentioning

confidence: 99%

See 2 more Smart Citations

New Formulas for Evaluation of Cyclohexanol Solidification on Substrates with Surface Nanostructures

Hanawa,

Zhang,

Sasmito

et al. 2024

ACS Omega

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In semiconductor manufacturing, the sublimation drying process is crucial but poorly understood�particularly regarding the solidification of agents such as cyclohexanol on Si substrates. This knowledge gap results in inconsistent film properties and risks such as structural collapse. To address this critical gap in knowledge, the present study focused on an in-depth examination of the nucleation behavior exhibited by cyclohexanol during its cooling and solidification on Si substrates. Using a digital camera (GoPro10), the solidification process in experiments was recorded for a range of cooling rates and using substrates with distinct surface patterns. To evaluate temporal changes in crystal nucleation, video images were visually checked, and the temporal changes in the number of nuclei were examined. For a more quantitative analysis, the least-squares method was successfully employed to correlate mathematical equations to time-dependent nucleation data. Interestingly, the outcomes revealed significant correlations between the nucleation rate, cooling rate, and substrate pattern. In summary, this research offers a robust experimental framework for understanding the complex solidification behavior of cyclohexanol on Si substrates. The study contributes both qualitative and quantitative analyses, enriching our understanding of the variables that govern the solidification process, which has significant implications for enhancing the overall reliability and efficiency of semiconductor manufacturing.

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Section: Methodsmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

See 1 more Smart Citation

New Formulas for Evaluation of Cyclohexanol Solidification on Substrates with Surface Nanostructures

Hanawa,

Zhang,

Sasmito

et al. 2024

ACS Omega

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show abstract

“…Here, ultraviolet (UV) treatment was performed for 20 min to clean the Si substrate surface by removing organic matter from it. The short-wavelength UV light energy broke the bonds of organic contaminants on the substrate surface, and simultaneously, active oxygen (O-) separated from the ozone generated by the UV light chemically bonds with the organic contaminants and decomposed them into volatile substances such as CO 2 and water, which were then removed, thereby cleaning the surface . Subsequent to this, 250 μL of water was dispensed onto each of the two substrates, yielding a film thickness of approximately 500 μm.…”

Section: Experiments and Analysismentioning

confidence: 99%

“…The short-wavelength UV light energy broke the bonds of organic contaminants on the substrate surface, and simultaneously, active oxygen (O-) separated from the ozone generated by the UV light chemically bonds with the organic contaminants and decomposed them into volatile substances such as CO 2 and water, which were then removed, thereby cleaning the surface. 28 Subsequent to this, 250 μL of water was dispensed onto each of the two substrates, yielding a film thickness of approximately 500 μm. For creating a regulated environment, nitrogen (N 2 ) was introduced into the atmosphere control box at a flow rate of approximately 1 LM.…”

Section: ■ Experiments and Analysismentioning

confidence: 99%

Kinetics formulation for Two-Dimensional Growth Behavior of Water/Ice Interface on Si Substrate

Hanawa,

Zhang,

Sasmito

et al. 2024

Langmuir

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Sublimation drying is used in the drying process of semiconductor device manufacturing. However, the solidification behavior mechanics of sublimation agents on substrates has not been clarified. Therefore, the properties of solidified films within substrate surfaces can become nonuniform, leading to their collapse. This study aimed to analyze the interface growth behavior during the cooling and solidification of a water/ice system as a basic case and to clarify the dynamic mechanism of the solidification behavior of liquid films on Si substrates. The solidification behavior of a water/ice system on Si substrates was captured on a video at different cooling rates. The recorded video was subjected to a digital image analysis to examine the crystal morphology and quantify the interface growth rate. The least-squares method with kinetic formulas was used to evaluate the feasibility of fitting the temperature variation to the interface growth rate. A visual examination of the morphology of interfacial growth revealed that it can be classified into four morphologies. The proposed kinetic equation describes the experimental results regarding the temperature dependence of the interfacial growth rate. Through image analysis, the interface growth rate of water and ice was quantified, and an evaluation formula was proposed.

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Investigating the impact of pretreatment strategies on photocatalyst for accurate CO2RR productivity quantification: A machine learning approach

Liu

Wang

et al. 2023

Chemical Engineering Journal

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Cost-effective equipment for surface pre-treatment for cleaning and excitation of substrates in semiconductor technology

Cited by 5 publications

References 56 publications

New Formulas for Evaluation of Cyclohexanol Solidification on Substrates with Surface Nanostructures

New Formulas for Evaluation of Cyclohexanol Solidification on Substrates with Surface Nanostructures

Kinetics formulation for Two-Dimensional Growth Behavior of Water/Ice Interface on Si Substrate

Investigating the impact of pretreatment strategies on photocatalyst for accurate CO2RR productivity quantification: A machine learning approach

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