Browse through our press and news section by category:

03.07.2013, SCHOTT AG, Mainz (Germany) & Tokyo (Japan)

SCHOTT offers wide product portfolio of glass wafers for semiconductor industry

AF32® eco, D 263T® eco and MEMpax® for a wide variety of applications
SCHOTT Advanced Optics is the only supplier in the world to offer a material family for ultra-thin glass wafers with different product characteristics and customized features. The three different types of glass wafers are made from AF32® eco, D 263T® eco and MEMpax®.
SCHOTT Advanced Optics is the only supplier in the world to offer a material family for ultra-thin glass wafers with different product characteristics and customized features. The three different types of glass wafers are made from AF32® eco, D 263T® eco and MEMpax®.
Mainz (Germany) & Tokyo (Japan), July 3, 2013 – The international technology company SCHOTT with its business unit Advanced Optics is the only supplier in the world to offer a material family for ultra-thin glass wafers with different product characteristics and customized features. The three different types of glass wafers made from AF32® eco, D 263T® eco and MEMpax® are complementary to various semiconductor wafers and thus well-suited for a many applications in the semiconductor industry. SCHOTT is showcasing them at Nano Micro Biz 2013 trade show in Tokyo, Japan, from July 3-5 (Tokyo Big Sight, East Hall 4, booth C-28).

SCHOTT, with more than 125 years of optical glass experience, has a long standing history in producing thin glass with various proprietary production processes. AF 32® eco, D 263® T eco, and MEMpax® are three different processed glass types produced in a special down-draw process which guarantees a fire-polished surface with a surface roughness smaller than 1 nanometer. “Our materials provide a major advantage to the semiconductor industry because the glass properties can be perfectly matched with the respective application”, says Uwe Wilkens, the responsible product marketing manager at SCHOTT.

AF 32® eco is an alkali-free flat glass, available in thicknesses from 1.1 down to 0.1 mm. Its coefficient of thermal expansion matches that of silicon, therefore it is well-suited as optical wafer-level packaging material in semiconductor-related applications. Due to its high transformation temperature it can be used for applications up to approx. 600°C. Target applications include camera imaging, wafer level chip size packaging, MEMS and wafer level optics. AF 32® eco is manufactured with eco-friendly refining agents.

D 263® T eco thin glass is a clear borosilicate glass that has a high chemical resistance. D 263® T eco is well-suited as a substrate glass for IR cut-off filter for camera modules in mobile phones, offering high luminous transmittance, easy processability and a range of thicknesses between 1.1 and 0.1 mm which enables easy adaptation for future product miniaturization. It is also used as substrate glass for coatings or as replacement for plastic for applications in the automotive and electronics industries. D 263® T eco is also manufactured with eco-friendly refining agents.

MEMpax® is a very thin, high-quality borosilicate glass for use in MEMS (micro-electro mechanical systems) technology. It is available in thicknesses from 0.7 mm down to 0.1 mm. Similar to SCHOTT’s BOROFLOAT® 33 in terms of physical, thermal and chemical properties, MEMpax® targets ultra-thin borosilicate glass applications whereas BOROFLOAT® 33 is offered in thickness of 0.7 mm upwards. The coefficient of linear thermal expansion of MEMpax® corresponds to that of silicon, and this glass is perfectly suited for use in anodic bonding. MEMpax® takes on the function of protecting the silicon wafers inside the sensors or connecting various components. “The demand for MEMS components in the consumer electronics sector in particular, e.g. as movement sensors in mobile phones or gaming consoles, is expected to grow. We consider this to be an important field of business growth for our thin special glasses which will enable many new applications in the future,” Wilkens concludes.

More information can be found here: http://www.schott.com/advanced_optics/english/products/wafers-and-thin-glass/index.html

SCHOTT Advanced Optics is the only supplier in the world to offer a material family for ultra-thin glass wafers with different product characteristics and customized features. The three different types of glass wafers are made from AF32® eco, D 263T® eco and MEMpax®. Photo: SCHOTT.

The photograph can be downloaded here:
http://www.schott-pictures.net/presskit/203551.glasswafer

More press photographs: http://www.schott-pictures.net

SCHOTT is an international technology group with more than 125 years of experience in the areas of specialty glasses and materials and advanced technologies. SCHOTT ranks number one in the world with many of its products. Its core markets are the household appliance, pharmaceuticals, electronics, optics, solar power, transportation and architecture industries. The company is strongly committed to contributing to its customers’ success and making SCHOTT an important part of people’s lives with its high-quality products and intelligent solutions. SCHOTT is committed to managing its business in a sustainable manner and supporting its employees, society and the environment. The SCHOTT Group maintains close proximity to its customers with manufacturing and sales units in 35 different countries. Its workforce of around 16,000 employees generated worldwide sales of approximately 2 billion euros for the 2011/2012 fiscal year. SCHOTT AG, with its headquarters in Mainz, Germany, is owned by the Carl Zeiss Foundation.
Press contact
SCHOTT AG
Michael Müller
PR Manager
Hattenbergstraße 10
55122 Mainz
Phone: +49 (0)6131/66-4088
Fax: +49 (0)3641/2888-9141
Further information
SCHOTT AG
Klaus Bernhard Hofmann
Vice President Public Relations
Hattenbergstraße 10
55122 Mainz
Germany
Phone: +49 6131/66-3662
Fax: +49 3641/2888-9140
SCHOTT uses Cookies on this Website to enhance the user experience and provide the best possible Service. By continuing to browse the Website, you consent to our use of Cookies.