Provided is a production method for an optical semiconductor element with a high yield by preventing wafer damage caused by grinding. A production method for an optical semiconductor element comprises: a step of forming a laminate of compound semiconductor layers on one main surface of a compound semiconductor substrate having cleavability; and a grinding step of grinding the other main surface of the compound semiconductor substrate, wherein a skewness (Ssk) in surface roughness measurement of a ground surface of the compound semiconductor substrate immediately after the grinding step is positive.

A thin film transistor includes an active layer and at least one gate stack. The active layer may be formed using multiple iterations of a unit layer stack deposition process, which includes an acceptor-type oxide deposition process and a post-transition metal oxide deposition process. A surface of each gate dielectric within the at least one gate stack contacts a surface of a respective layer of the oxide of the acceptor-type element so that leakage current of the active layer may be minimized. A source electrode and a drain electrode may contact an oxide layer providing lower contact resistance such as a layer of the post-transition metal oxide or a zinc oxide layer within the active layer.

A semiconductor structure includes: a semiconductor material layer; a metal material layer; and an ultrathin film layer formed at the interface between the semiconductor material layer and the metal material layer, comprising amorphous fluorinated carbon having a dielectric constant of at least 10. The amorphous fluorinated carbon film further includes hydrogen trapped in dangling bonds in the amorphous carbon film.

Described herein are IC devices that include molybdenum or a molybdenum compound, such as compounds including oxygen or nitrogen. The molybdenum may be deposited at a high concentration, e.g., at least 50% atomic density. Also described herein are mid-valent molybdenum precursors for depositing molybdenum, and reactions for producing the mid-valent molybdenum precursors. For example, the molybdenum precursors may be generated by reacting a higher-valent molybdenum compound with an amidinate or a formamidinate.

A transistor may be provided by forming, in a forward order or in a reverse order, a gate electrode, a metal oxide liner, a gate dielectric, and an active layer over a substrate, and by forming a source electrode and a drain electrode on end portions of the active layer. The metal oxide liner comprises a thin semiconducting metal oxide material that functions as a hydrogen barrier material.