Semiconductor Manufacturing: What Is Driving the Growth of the Glass Material Market?

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Used either as a permanent or as a temporary material within the semiconductor manufacturing processes, glass plays a key role in the semiconductor industry. It is today already implemented as a mature solution, in several market segments such as IR cut filter for CIS technology, microfluidics devices and some actuators and sensors.

Yole Développement (Yole) confirms the growth of the glass materials market for the next five years. Therefore, the 8-inch eq glass wafer market is expected to increase at a 23% CAGR through 2022, reaching around 14M 8-inch eq wafer. Related revenue will exceed almost 594$ million by 2022, explain Yole’s analysts. Why will the glass wafer market’s revenue more than double over the next five years?

Yole’s analysts propose today a new technology & market analysis dedicated to glass materials for semiconductor manufacturing, titled Glass Substrate Manufacturing in the Semiconductor Field. This report provides detailed information regarding the current and potential applicability of glass material in the semiconductor field, as well as its processing functionalities. Analysts also review in this report major applications currently using glass material as well as potential applications that could require glass.

“Glass is making serious inroads in the semiconductor market, adopting various functionalities within IC semiconductor devices,” asserts Amandine Pizzagalli, Technology & Market Analyst, Advanced Packaging & Semiconductor Manufacturing at Yole.

Specific to semiconductors, glass material is typically developed in two formats wafer and panel, and is available in two densities, thin and thick. Moreover, glass material can be used in two different ways to fabricate a semiconductor device’s product:

  • Glass-based product where the glass material is applied as a permanent material and remains in the final product.
  • A non-glass-based product where the glass substrate is only applied for temporary use in the process flow and then removed after the IC device is processed.

Some IC device applications using glass material are mature, such as CIS, microfluidics, and actuators & sensors, with relatively low growth opportunity except for FO WLP packaging applications driven by glass carrier usage.

Regarding functionalities, WLCapping and permanent substrate, both fueled by the automotive and medical fields, drive the development of the glass wafer market.

The glass material market’s ascent will be due to the fast growth of glass carriers for FO WLP and actuators & sensors. On the other side, TGV interposer is still perceived as immature, but Yole is expecting an adoption rate for production by 2019 - 2020.  

The glass material market for semiconductor is concentrated amongst glass material suppliers from different categories:

  • Raw material manufacturers like Schott, Corning, and AGC providing raw glass material and blank wafers or sheets. These companies have limited wafer-processing capabilities.
  • Glass processors and structured substrate manufacturers like PlanOptik and Tecnisco, which can pattern and structure glass wafers from the raw material provided by raw material suppliers. These companies typically purchase wafers from raw-glass material suppliers and then design/create products from the raw material.
  • Structured/patterned glass wafer manufacturer mainly from MEMS & microfluidics areas, focused mainly on microfluidic and MEMS devices. This category mostly includes foundries that start from blank or pre-patterned wafers. However, contrary to a typical foundry such as Silex Microsystems, these companies create their own products.

Established glass applications such as CIS and microfluidics have led Schott to dominate the glass material market in the semiconductor field. However, emerging applications including RF devices, FO WLP technology and more… could require the use of glass material. These emerging fields represent a real business opportunities for some glass companies.


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