標題: Evaluation of PTFE nanoemulsion as a low dielectric constant material ILD
作者: Sun, SC
Chiang, YC
Rosenmayer, CT
Teguh, J
Wu, H
交大名義發表
奈米中心
National Chiao Tung University
Nano Facility Center
公開日期: 1997
摘要: Polytetrafluoroethylene (PTFE) has been studied as a low dielectric constant material for ULSI. A novel nanoparticle dispersion of PTFE was developed that permits the spin-coat deposition of PTFE with a thickness range of 0.2 to 1.5 mu m. These PTFE nanoemulsions are aqueous emulsions containing sub-50 nm size PTFE particles and surfactant that are thermodynamically stable, optically clear, and have low viscosity and surface tension. The films cast from this nanoemulsion are uniform in thickness with a standard deviation of < 2%. From FTIR spectra, significant amounts of C-F bonds (1153 cm(-1) and 1211 cm(-1)) are detected in the films. The index of refraction from ellipsometry measurement is about 1.35 and the dielectric constant measured from high frequency C-V curves is about 1.85. The dielectric strength is about 170 V/mu m. TGA data indicates a weight loss rate of less than 0.25%/hr. at 425 degrees C. The moisture absorption is less than 0.01%. After sintering, the films are extremely resistant to chemical attack by sulfuric acid, buffered HF, and positive photoresist developer. The etch rate in an oxygen plasma at 30 W is around 200 nm/min. Stud pull tests indicate good adhesion to SiO2, Al, and Cu. Results of thermal, dielectric, chemical, and adhesion tests indicate that these PTFE films have potential for use as an integrated circuit dielectric material.
URI: http://hdl.handle.net/11536/19636
ISBN: 1-55899-347-9
ISSN: 0272-9172
期刊: LOW-DIELECTRIC CONSTANT MATERIALS II
Volume: 443
起始頁: 85
結束頁: 90
Appears in Collections:Conferences Paper