dielectric thin films
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2021 ◽  
Author(s):  
Kun Feng ◽  
Qingyuan Li ◽  
Jin-tong Liu ◽  
Yu-Si Wang ◽  
nan chen ◽  
...  

2021 ◽  
pp. 2208-2217
Author(s):  
José P. B. Silva ◽  
Koppole C. Sekhar ◽  
Hao Pan ◽  
Judith L. MacManus-Driscoll ◽  
Mário Pereira

Materials ◽  
2021 ◽  
Vol 14 (9) ◽  
pp. 2284
Author(s):  
Y. K. Sa ◽  
Junghwan Bang ◽  
Junhyuk Son ◽  
Dong-Yurl Yu ◽  
Yun-Chan Kim

This paper reported the enhancement in thermo-mechanical properties and chemical stability of porous SiCOH dielectric thin films fabricated with molecularly scaled pores of uniform size and distribution. The resulting porous dielectric thin films were found to exhibit far stronger resistance to thermo-mechanical instability mechanisms common to conventional SiCOH dielectric thin films without forgoing an ultralow dielectric constant (i.e., ultralow-k). Specifically, the elastic modulus measured by nano-indentation was 13 GPa, which was substantially higher than the value of 6 GPa for a porous low-k film deposited by a conventional method, while dielectric constant exhibited an identical value of 2.1. They also showed excellent resistance against viscoplastic deformation, as measured by the ball indentation method, which represented the degree of chemical degradation of the internal bonds. Indentation depth was measured at 5 nm after a 4-h indentation test at 400 °C, which indicated an ~89% decrease compared with conventional SiCOH film. Evolution of film shrinkage and dielectric constant after annealing and plasma exposure were reduced in the low-k film with a self-organized molecular film. Analysis of the film structure via Fourier-transform infrared (FTIR) spectroscopy and X-ray photoelectron spectroscopy (XPS) indicated an increase in symmetric linear Si–O–Si molecular chains with terminal –CH3 bonds that were believed to be responsible for both the decrease in dipole moment/dielectric constant and the formation of molecular scaled pores. The observed enhanced mechanical and chemical properties were also attributed to this unique nano-porous structure.


Cellulose ◽  
2021 ◽  
Author(s):  
Yasir Beeran Pottathara ◽  
Vid Bobnar ◽  
Yves Grohens ◽  
Sabu Thomas ◽  
Rupert Kargl ◽  
...  

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