Mechanical and Chemical Mechanical Planarization of Single-Crystal Diamond (100) Substrate
A sequential polishing method for single-crystal diamond substrates under atmospheric conditions is demonstrated. The process consists of two stages: (1) rough polishing using mechanical polishing with 3 µm diamond abrasives and (2) finish polishing through chemical mechanical planarization employin...
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| Published in | International journal of automation technology Vol. 19; no. 5; pp. 906 - 912 |
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| Main Author | |
| Format | Journal Article |
| Language | English |
| Published |
Tokyo
Fuji Technology Press Co. Ltd
01.09.2025
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| Subjects | |
| Online Access | Get full text |
| ISSN | 1881-7629 1883-8022 |
| DOI | 10.20965/ijat.2025.p0906 |
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| Abstract | A sequential polishing method for single-crystal diamond substrates under atmospheric conditions is demonstrated. The process consists of two stages: (1) rough polishing using mechanical polishing with 3 µm diamond abrasives and (2) finish polishing through chemical mechanical planarization employing a nickel plate with hydrogen peroxide (H2O2) solution as the oxidizer. Each stage of the diamond (100) polishing process was conducted for 1 h. Surface flatness and microroughness were evaluated using a scanning white light interferometric microscopy and atomic force microscopy, while subsurface damage was examined by high-resolution transmission electron microscopy. Experimental results show significant improvements: the surface flatness of the diamond substrate was enhanced, and the surface roughness was reduced from Sa=3.667 nm to Sa=0.120 nm after 2 h of polishing. In addition, power spectral density analysis confirmed a reduction in surface roughness within the spatial wavelength range of 10–1000 µm following finish polishing. The subsurface damage depth after finish polishing was found to be less than 1 nm. These findings demonstrate that the proposed two-step polishing method effectively produces high-precision diamond surfaces with high efficiency. |
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| AbstractList | A sequential polishing method for single-crystal diamond substrates under atmospheric conditions is demonstrated. The process consists of two stages: (1) rough polishing using mechanical polishing with 3 µm diamond abrasives and (2) finish polishing through chemical mechanical planarization employing a nickel plate with hydrogen peroxide (H2O2) solution as the oxidizer. Each stage of the diamond (100) polishing process was conducted for 1 h. Surface flatness and microroughness were evaluated using a scanning white light interferometric microscopy and atomic force microscopy, while subsurface damage was examined by high-resolution transmission electron microscopy. Experimental results show significant improvements: the surface flatness of the diamond substrate was enhanced, and the surface roughness was reduced from Sa=3.667 nm to Sa=0.120 nm after 2 h of polishing. In addition, power spectral density analysis confirmed a reduction in surface roughness within the spatial wavelength range of 10–1000 µm following finish polishing. The subsurface damage depth after finish polishing was found to be less than 1 nm. These findings demonstrate that the proposed two-step polishing method effectively produces high-precision diamond surfaces with high efficiency. |
| Author | Kubota Akihisa |
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| DOI | 10.20965/ijat.2025.p0906 |
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| Snippet | A sequential polishing method for single-crystal diamond substrates under atmospheric conditions is demonstrated. The process consists of two stages: (1) rough... |
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| SubjectTerms | Abrasive finishing Abrasives Chemical-mechanical polishing Damage Diamond polishing Diamonds Flatness High resolution electron microscopy Hydrogen peroxide Microscopy Nickel plate Oxidizing agents Power spectral density Single crystals Surface roughness White light interferometry |
| Title | Mechanical and Chemical Mechanical Planarization of Single-Crystal Diamond (100) Substrate |
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