Substrates and Wafers
Contact us

Applications of Substrates and Wafers

SCHOTT offers a range of substrates and wafers for emerging technologies in the field of semiconductor manufacturing. These wafers are enabling our customers in applications such as 3D imaging and sensing, MEMS, and wafer-level packaging to miniaturize high-performance components and build smarter devices.
Diagram of the components of an infrared camera in a smartphone
Diagram of the components of a Time of Flight (ToF) sensor in a smartphone

3D Imaging and Sensing

Glass wafers feature strongly in the fast-moving world of 3D Imaging and Sensing. They are effective as substrates or wafers, as well as infrared narrow band filters, with customers able to build structured light and Time of Flight (ToF) sensors, and components for stereo vision that enable face recognition and distance detection.

Learn more
Silicon wafer with microchips in a steel frame holder with separate microchips

Wafer-level packaging

Glass wafers can be used in a variety of wafer-level packaging processes. For instance, a wafer with an IR-cut filter coating applied has the function of protecting an image sensor from the harmful effects of infrared radiation. Benefits of glass wafers include a close thermal match to silicon, as well as highly precise tolerances.

Laboratory technician holding fan-out wafer-level packaging with gloved hands

Glass carrier wafers for 3D IC, RF IC and fan-out packaging

SCHOTT Substrates and Wafers are ideal as highly accurate carrier materials for temporary bonding with silicon in 3D IC, RF IC and fan-out packaging. Silicon thinning and the handling of thin silicon wafers are also made possible using glass carrier wafers.

Learn more
MEMs component with glass packaging

MEMS

An increasing number of micro-electromechanical systems (MEMS) rely on glass wafers. Used as transparent optical windows or functional caps for hermetic housing, wafers have a similar CTE to silicon wafers, opening the possibility of anodic bonding. Low levels of dielectric loss is another advantage, with glass wafers playing an equally important role in RF and high frequency applications, as well as SAW filters that feature in 5G communications.

Lab-on-a-chip system using microfluidics

Microfluidics

Modern diagnostics applications such as microfluidics rely on materials with high optical properties and low intrinsic autofluorescence to achieve the high analytical accuracy demanded by the life science and biotech fields. SCHOTT Substrates and Wafers provide outstandingly smooth, fire-polished surfaces for coatings, resulting in easier, more cost-effective processing.

Man wearing and touching a pair of augmented reality glasses

Microdisplays

As developers continue to expand the possibilities of imaging technology, SCHOTT glass wafers will become increasingly essential. As well as the outstanding quality of our products, the potential to miniaturize glass wafers to suit increasingly tiny and lightweight displays is of great use to the industry. MicroOLED, microLED and LCOS screens rely on them, while you will also find them in NTE devices, HUDs, HMDs and AR/VR devices.

Want to know more? Let’s talk

Whether you need more information, samples, a quote, or advice for a project, we would be delighted to talk to you.

Contact us
Man in glasses in business office on phone while working on laptop_605x350.jpg