Resist

About: Resist is a research topic. Over the lifetime, 40991 publications have been published within this topic receiving 371548 citations.

Highly stable monolayer resists for atomic layer deposition on germanium and silicon

Abstract: In this paper, 1-alkenes and 1-alkynes are investigated for a new class of monolayer resists formed on the hydrogen-terminated surfaces of both germanium and silicon A series of 1-alkenes and 1-alkynes with different chain lengths are explored as deactivating agents for atomic layer deposition of HfO2 and Pt films It is shown that to achieve satisfactory blocking of atomic layer deposition, densely packed, highly hydrophobic monolayers must be formed A mechanism for the film formation and blocking processes is discussed and compared with that of alkylsilane-based self-assembled monolayer resists

Lithographic importance of acid diffusion in chemically amplified resists

Abstract: Since their introduction in the semiconductor industry, chemically amplified resists have proven to offer very valuable benefits to lithography processes, of which improved resist contrast and higher throughput are just two examples. However, the inherent acid diffusion mechanism starts to create some issues. For instance, the reduced chemical contrast due to pronounced acid diffusion during the post-exposure bake will decrease the exposure latitudes and would impact the ultimate resolution. On the other hand, reducing the acid diffusion length will have a negative impact on line edge roughness if one wants to simultaneously keep exposure doses and shot noise effects under control. In this paper, acid diffusion lengths in present-day photoresists at different process conditions are characterized using a lithographic technique. The observed tendencies are correlated with trends in exposure latitude, resolution and the frequency spectrum of line edge roughness. The relationship between acid diffusion length and exposure latitude as well as the relationship between acid diffusion and line edge roughness are addressed in a more fundamental way. The results of this paper highlight the major impact of acid diffusion on important lithographic process characteristics, and the investigated scaling behavior gives guidelines for optimizing exposure latitude and line edge roughness for future technology nodes.

Manufacturing method of electronic device

Abstract: A method for manufacturing an electronic device includes the steps of forming a first resist pattern on a primary surface of a SAW element, the first resist pattern having openings at positions corresponding to those at which bumps and a sealing frame are to be formed, sequentially forming metals over the first resist pattern, the metals being formed into adhesion layers, barrier metal layers, and solder layers, removing the first resist pattern on the SAW element such that the bumps and the sealing frame are simultaneously formed. When the bumps and the sealing frame of the SAW element are bonded to bond electrodes of the bond substrate, the solder layers are melted and alloyed by heating.

Electron beam lithography for 0.13 μm manufacturing

Abstract: General requirements for the use of electron beam lithography in direct write manufacturing of silicon integrated circuits are discussed. 50 keV is suggested as an optimum beam energy, since this is the minimum beam energy that can achieve high aspect ratio structures (4:1) in single layer resists in a manufacturing environment. Higher beam energies result in an inefficient exposure process requiring larger currents; this combination will lead to excessive resist and wafer heating. Lower voltages will require the use of top surface imaging or multilayer resists, which have concerns of processing complexity, resist charging, and defects. At 50 keV, some form of proximity correction is required to achieve reasonable control of critical dimensions. While one of the principle arguments for low voltage lithography is that it avoids the need for proximity correction, proximity correction is a solvable problem for large chips and is therefore a less risky approach than developing a reliable surface imaging resis...