A method for manufacturing a bonded substrate body in which an end portion of an adhesive is located at a position retreated in a direction to the inside of the bonded substrate body from an end surface of a bonding region of a first substrate and a second substrate includes forming a film on the end portion of the adhesive.

An amorphous thin film stack can include a first layer including a combination metals or metalloids including: 5 at % to in 90 at % of a metalloid; 5 at % to 90 at % of a first metal and a second metal independently selected from titanium, vanadium, chromium, iron, cobalt, nickel, niobium, molybdenum, ruthenium, rhodium, palladium, tantalum, tungsten, osmium, iridium, or platinum. The three elements may account for at least 70 at % of the amorphous thin film stack. The stack can further include a second layer formed on a surface of the first layer. The second layer can be an oxide layer, a nitride layer, or a combination thereof. The second layer can have an average thickness of 10 angstroms to 200 microns and a thickness variance no greater than 15% of the average thickness of the second layer.

A method for manufacturing a bonded substrate body in which an end portion of an adhesive is located at a position retreated in a direction to the inside of the bonded substrate body from an end surface of a bonding region of a first substrate and a second substrate includes forming a film on the end portion of the adhesive.

A microelectromechanical system (MEMS) is comprised of a micromirror device attached to a semiconductor device. A first spacer layer is formed and patterned to form hinge via openings. A hinge metal is deposited above the first spacer layer to form the hinge and the hinge vias. A capping layer is formed above the hinge metal and hinge vias. A second spacer layer is formed above the capping layer and patterned to form a mirror via. The capping layer protects the hinge metal from the developer solution used in the patterning step. The capping layer is removed from within the mirror via opening. Another metal layer is deposited above the second spacer layer to form the mirror and the mirror via.