Yoshiyuki Utsumi scite author profile

Seshimo

Komuro

et al. 2009

jjap

In current optical lithography, resolution is required to reach for 45 nm half-pitch and a chemically amplified resist (CAR) is used for a wide variety of applications. For ArF lithography beyond the 45 nm half-pitch, it is important to control pattern quality. The molecular design of a photo acid generator (PAG) is very important in the study to control not only acid strength but also acid diffusion length. Various novel PAGs that have different characteristics were synthesized for resist performance improvement. Acid molecular size was determined by molecular orbital (MO) calculation, and the acid diffusion coefficients (D) of these PAGs were evaluated by a bilayer method. As a result, it was found that acid diffusion coefficient (D) could not be controlled simply by adjusting anion molecular size. It may be presumed that the molecular interaction between acid generated by the exposure and polymer matrix areas is one of the most important key factors for controlling acid diffusion.

Acid generation mechanism in anion-bound chemically amplified resists used for extreme ultraviolet lithography

Komuro

Yamamoto

Kobayashi

et al. 2014

Jpn. J. Appl. Phys.

Extreme ultraviolet (EUV) lithography is the most promising candidate for the high-volume production of semiconductor devices with half-pitches of sub-10 nm. An anion-bound polymer (ABP), in which the anion part of onium salts is polymerized, has attracted much attention from the viewpoint of the control of acid diffusion. In this study, the acid generation mechanism in ABP films was investigated using electron (pulse), γ, and EUV radiolyses. On the basis of experimental results, the acid generation mechanism in anion-bound chemically amplified resists was proposed. The major path for proton generation in the absence of effective proton sources is considered to be the reaction of phenyl radicals with diphenylsulfide radical cations that are produced through hole transfer to the decomposition products of onium salts.

Electron and Hole Transfer in Anion-Bound Chemically Amplified Resists Used in Extreme Ultraviolet Lithography

Komuro

Yamamoto

et al. 2013

Appl. Phys. Express

The uniformity of acid generator distribution and the length of acid diffusion are serious problems in the development of resist materials used for the 16 nm node and below. Anion-bound polymers in which the anion part of onium salts is polymerized have attracted much attention for solving these problems. In this study, the reaction mechanism of an anion-bound polymer in cyclohexanone was clarified using pulse radiolysis. The design of an efficient electron and hole transfer system is essential to the enhancement of resist performance.

Perpendicular orientation control in thin films of POSS-containing block copolymer domains with a top-coat surface treatment

Seshimo

Dazai

et al. 2016

Polym J

Growth of an oriented graphitic layer on a TiC nanocube

Suzuki

Sasaki

et al. 1995

Cubic-shaped titanium carbide (Tic), 30-60 nm in size, was sprayed onto aluminum oxide powder and hot pressed at 1800 "C. The preferential evaporation of Ti atoms out of the surface resulted in the formation of graphitic layers on the (100) planes of Tic with the following crystallographic relationships: (0 lO)TiCII( 1120) graphite; (00 l)TiCII(OQOl)graphite. The oriented graphite layers form a continuous nanocube of carbon, closely analogous to carbon nanotubes. 0 1995 American Institute of Physics.