Ultra-miniaturized and surface-mountable glass-based 3D IPAC
This paper goes beyond prior work to demonstrate ultra-miniaturized RF components such as capacitors, inductors and low pass filters, towards a more complete 3D IPAC RF module using, a)
Thin-Film Technologies for Glass Surfaces
This chapter summarizes the most important techniques and describes the optical, mechanical, and chemical properties that can be engineered. The way in which film composition,
Dual-glass vs glass-backsheet: The winning formula for bifacial
Our dual glass modules use the same internal circuit connection as a traditional glass-backsheet module but feature heat-strengthened glass on both sides. We produce the back glass
Applications of Thin and Thick Glass Films
Explore the different techniques used to produce glass films and how they enable technologies from advanced optics to microelectronics.
3D Integrated High-Precision Passives on Thin Glass Substrates for
Double-side thin-film components on glass provides additional design flexibility, higher component density, and simultaneous double-side fabrication with structural balance, allowing thin
Multilayer thin film structures for multifunctional glass: Self
Table 1 summarizes the most significant examples of multilayer thin films on glass reported in the literature, highlighting both the deposition techniques and the targeted single or
Glass Thin Films: From Deposition to Integrated Photonic Applications
The chapter also explores the underlying mechanisms by which these dopants modify film characteristics to enable the development of photonic devices, emphasizing practical applications
Full article: Embedded thin film fabrication via glass welding by an
In this paper, we proposed a technique, ultrafast laser machining–picosecond laser welding, to fabricate an embedded thin film by placing a coating material (ZnO powders) between the
Overview
Surface coating of glass with different types of films is one of the tech nologies that occupy a key position in the material and product development with a view to improving various properties of the
Optical Thin Films Fabrication Techniques—Towards a Low-Cost
Glass WGs display highly attractive properties due to the straightforward technology, the low propagation losses, and the flexible index matching to glass fibers. It is highly desirable to have low