Silicon Substrate

Semicera Silicon Substrates are precision-engineered for high-performance applications in electronics and semiconductor manufacturing. With exceptional purity and uniformity, these substrates are designed to support advanced technological processes. Semicera ensures consistent quality and reliability for your most demanding projects.

Semicera Silicon Substrates are crafted to meet the rigorous demands of the semiconductor industry, offering unparalleled quality and precision. These substrates provide a reliable foundation for various applications, from integrated circuits to photovoltaic cells, ensuring optimal performance and longevity.

The high purity of Semicera Silicon Substrates ensures minimal defects and superior electrical characteristics, which are critical for the production of high-efficiency electronic components. This level of purity helps in reducing energy loss and improving the overall efficiency of semiconductor devices.

Semicera employs state-of-the-art manufacturing techniques to produce silicon substrates with exceptional uniformity and flatness. This precision is essential for achieving consistent results in semiconductor fabrication, where even the slightest variation can impact device performance and yield.

Available in a variety of sizes and specifications, Semicera Silicon Substrates cater to a wide range of industrial needs. Whether you are developing cutting-edge microprocessors or solar panels, these substrates provide the flexibility and reliability required for your specific application.

Semicera is dedicated to supporting innovation and efficiency in the semiconductor industry. By providing high-quality silicon substrates, we enable manufacturers to push the boundaries of technology, delivering products that meet the evolving demands of the market. Trust Semicera for your next-generation electronic and photovoltaic solutions.

Elementos	Producción	Investigación	Ficticio
Parámetros de cristal
Politito	4H
Error de orientación de la superficie	4±0.15°
Parámetros eléctricos
Dopante	nitrógeno de tipo N
Resistividad	0.015-0.025ohm · cm
Parámetros mecánicos
Diámetro	150.0 ± 0.2 mm
Espesor	350 ± 25 µm
Orientación plana primaria	[1-100]±5°
Longitud plana primaria	47.5 ± 1.5 mm
Plano secundario	Ninguno
TTV	≤5 µm	≤10 µm	≤15 µm
LTV	≤3 μm (5 mm*5 mm)	≤5 μm (5 mm*5 mm)	≤10 μm (5 mm*5 mm)
Arco	-15 μm ~ 15 μm	-35 μm ~ 35 μm	-45 μm ~ 45 μm
Urdimbre	≤35 µm	≤45 µm	≤55 µm
Rugosidad delantera (SI-FACE) (AFM)	RA≤0.2Nm (5 μm*5 μm)
Estructura
Densidad de micropipe	<1 ea/cm2	<10 ea/cm2	<15 ea/cm2
Impurezas de metal	≤5E10atoms/cm2		N / A
BPD	≤1500 ea/cm2	≤3000 ea/cm2	N / A
TSD	≤500 ea/cm2	≤1000 ea/cm2	N / A
Calidad frontal
Frente	Si
Acabado superficial	SI-FACE CMP
Partículas	≤60ea/oblea (tamaño ≥0.3 μm)	N / A
Arañazos	≤5ea/mm. Longitud acumulativa ≤diameter	Longitud acumulativa ≤2*diámetro	N / A
Peel de naranja/pits/manchas/estrías/grietas/contaminación	Ninguno		N / A
Chips de borde/sangría/placas hexagonales	Ninguno
Áreas de politype	Ninguno	Área acumulada ≤20%	Área acumulada ≤30%
Marcado láser delantero	Ninguno
Calidad espalda
Final	CMP C-FACE
Arañazos	≤5EA/mm, longitud acumulativa ≤2*diámetro	N / A
Defectos posteriores (chips/muescas de borde)	Ninguno
Rugosidad	RA≤0.2Nm (5 μm*5 μm)
Marcado láser de espalda	1 mm (desde el borde superior)
Borde
Borde	Chaflán
Embalaje
Embalaje	Lista de EPI con embalaje de vacío Embalaje de cassette de múltiples obras
*Notas: "NA" significa que ningún elemento de solicitud no mencionado puede referirse a SEMI-STD.