论文信息 - Methods to explore and prevent pattern collapse in thin film lithography

Methods to explore and prevent pattern collapse in thin film lithography

Pattern collapse is becoming a critical issue as integrated circuit fabrication continues to advance towards the 32 nm node and below. Though line edge roughness and resolution are certainly important in moving forward, pattern collapse by both deformation and adhesion failure must be addressed. In this work, a post-development strategy to reduce pattern collapse by bending was developed whereby the hydroxyl functional groups on the surface of the resist were crosslinked via a dicarboxylic acid using carbodiimide chemistry. The pattern collapse of a hydroxystyrene-based, positive tone resist was then studied before and after the application of the reactive rinse. SEM analysis of the samples showed that application of the reactive rinse resulted in a clear increase in the printing capabilities of the resist, as the photoresist lines could be printed with smaller space widths corresponding to higher stresses after the rinse treatment.

Clifford L. Henderson | Wei-Ming Yeh | David E. Noga | Richard A. Lawson | Laren M. Tolbert

[1] Clifford L. Henderson,et al. Understanding pattern collapse in high-resolution lithography: impact of feature width on critical stress , 2009, Advanced Lithography.

[2] Harun H. Solak,et al. Overcoming pattern collapse on e-beam and EUV lithography , 2006, SPIE Advanced Lithography.

[3] Kenji Kurihara,et al. Dimensional limitations of silicon nanolines resulting from pattern distortion due to surface tension of rinse water , 1995 .

[4] J. Simon,et al. Overcoming pattern collapse of ultra high resolution dense lines obtained with EUV resists , 2005, SPIE Advanced Lithography.

[5] Mingxing Wang,et al. Photosensitivity and line-edge roughness of novel polymer-bound PAG photoresists , 2007, SPIE Advanced Lithography.

[6] Bryan D. Vogt,et al. Elastic Moduli of Ultrathin Amorphous Polymer Films , 2006 .

[7] Karina Grundke,et al. The adsorption of cationic surfactants on photoresist surfaces and its effect on the pattern collapse in high aspect ratio patterning , 2007 .

[8] Nobufumi Atoda,et al. Mechanism of Resist Pattern Collapse during Development Process , 1993 .

[9] Kwon Taek Lim,et al. Surfactant-aided supercritical carbon dioxide drying for photoresists to prevent pattern collapse , 2007 .

[10] P. Nealey,et al. A two-dimensional model of the deformation of photoresist structures using elastoplastic polymer properties , 2004 .