G. Gelineau scite author profile

G. Gelineau

4Publications

3Citation Statements Received

26Citation Statements Given

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150 mm SiC Engineered Substrates for High-Voltage Power Devices

Rouchier

Gaudin

Widiez

et al. 2022

MSF

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Silicon Carbide (SiC) Power Devices have emerged as a breakthrough technology for a wide range of applications in the frame of high power electronics. Despite the continuously improving quality and supply of 4H-SiC substrates, the availability of such wafers is still insufficient. An advantageous opportunity is offered by the Smart CutTM technology with the integration of a very high quality SiC layer transferred to a low resistivity handle wafer. This bi-layer material enables a significant yield optimization and improvement of the device’s electrical performance. Moreover, an additional key feature of the Smart CutTM technology is the possibility to re-use multiple times the donor wafer, leading to reduced manufacturing costs and enabling the high volume production of SiC wafers. In this paper we report the latest advances in the development of such so called SmartSiCTM substrates.

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Engineered SiC materials for power technologies

Schwarzenbach

Rouchier

Berre

et al. 2022

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HAL is a multi-disciplinary open access archive for the deposit and dissemination of scientific research documents, whether they are published or not. The documents may come from teaching and research institutions in France or abroad, or from public or private research centers. L'archive ouverte pluridisciplinaire HAL, est destinée au dépôt et à la diffusion de documents scientifiques de niveau recherche, publiés ou non, émanant des établissements d'enseignement et de recherche français ou étrangers, des laboratoires publics ou privés.

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Evaluation of Crystal Quality and Dopant Activation of Smart Cut<sup>TM</sup> - Transferred 4H-SiC Thin Film

Gelineau

Widiez

Rolland

et al. 2023

MSF

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The Smart CutTM process offers an advantageous opportunity to provide a large number of performance-improved SiC substrates for power electronics. The crystalline quality and the electrical activation of the 4H-SiC transferred layer are then at stake when it comes to the power device reliability. In this study, we find that the H+ ion implantation used for the Smart CutTM process leads to electrical deactivation of dopants and partially disorders the material. The transferred layer fully recovers its initial crystalline quality after a 1300°C anneal, with no further evolution beyond this temperature. At this point however, the n-type dopants are still inactive. The dopant reactivation occurs in the same temperature range than that of implanted nitrogen: between 1400°C and 1700°C. After 1700°C, the initial doping level of bulk SiC is recovered.

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SmartSiC™ for Manufacturing of SiC Power Devices

Daval

Drouin

Biard

et al. 2022

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G. Gelineau

150 mm SiC Engineered Substrates for High-Voltage Power Devices

Engineered SiC materials for power technologies

Evaluation of Crystal Quality and Dopant Activation of Smart Cut<sup>TM</sup> - Transferred 4H-SiC Thin Film

SmartSiC™ for Manufacturing of SiC Power Devices

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