Advanced organic materials for lithographic applications

Strahan, Jeffrey Ryan

20 October 2011

The microelectronics industry is driven by the need to produce smaller transistors at lower costs, and this requires an ever-changing approach to the chemistry involved in their fabrication. While photolithography has been able to keep pace with Moore’s law over the past four decades, alternative patterning technologies are now receiving increased attention to keep up with market demand. The first project describes work towards increasing the sensitivity of electron-beam resists by incorporating electron-withdrawing groups into the alpha position of methacrylates. After monomer design and synthesis, several polymers were synthesized that investigated the role of fluorine in the resists performance. G-values, electron-beam contrast curves, and EUV imaging showed that these fluorinated polymethacrylates outperformed current industrial resists. The next project deals with the design, synthesis, and evaluation of a resist that seeks to decouple chemical amplification from acid diffusion. While work was shown that a system comprised of a photo-labile polyphthalaldehyde and x novolak could achieve this process, the high dose required to image was problematic. An aliphatic dialdehyde was envisioned to account for these issues, but its synthesis was never achieved. A polyethylene glycol aldehyde was synthesized and polymerized, but its material properties did not perform the intended function. Ultimately, the stability of aliphatic aldehydes proved to be too unstable for this project to continue. While the synthesis was troublesome, a fundamental study of ceiling temperatures was undertaken. Numerical and analytical solutions were developed that describe the exact nature of the equilibrium constant on a living polymer system. These results were verified by a VT-NMR experiment, which accurately predicted the ceiling temperature of polythalaldehyde with a Van’t Hoff plot. Lastly, the self-assembly of block copolymers was investigated as a means to produce high resolution, high density nano-imprint lithography templates for bit patterned media. The first set of experiments involved synthesizing polymeric cross-linked surface treatments from substituted styrenes. The aryl substituent was shown to largely effect the surface energy, and after anionically synthesizing PS-b-PMMA, these materials were shown to effect block copolymer orientation. To produce a 3-D pattern of the self-assembled features, silicon was incorporated into one block to provide adequate etch resistance. Several monomers were investigated, and two, an isoprene and methacrylate analog, were successfully incorporated into two block copolymers. The silicon containing methacrylate derivative polymer was shown to successfully self-assemble in thin films under solvent annealing conditions. / text

Microelectronics

Electron beam

Polyacetals

Block copolymers

Integration of thin film polymer ceramic nanocomposite capacitor dielectrics in SOP for decoupling applications in high speed digital communications

Hobbs, Joseph Martin

08 1900

No description available.

Microelectronics Design

Dielectrics

Capacitors

Electronic circuits Noise

Work function tuning of reactively sputtered MoxSiyNz metal gate electrodes for advanced CMOS technology

Patel, Pommy

14 July 2008

Due to continued transistor scaling, work function tuning of metal gates has become important for advanced CMOS applications. Specifically, this research has been undertaken to discover the tuning of the MoxSiyNz gate work function through the incorporation of nitrogen. Metal Oxide Semiconductor (MOS) capacitors were fabricated using thermal SiO2 as gate oxide on lightly doped p-type Si wafer. A molybdenum silicide (MoSi2) target was reactively sputtered at 10mTorr in presence of N2 and Ar. The gas flow ratio, RN = N2/ (N2+Ar), was adjusted to vary the nitrogen concentration in MoSiN films. The gate work function (Фm) was extracted from capacitance-voltage (CV) measurements using the VFB-tox method. Interfacial barrier heights were measured using internal photoemission (IPE) as an independent confirmation of the MoSiN gate work function. The work function was found to decrease linearly (from ~4.7eV to ~4.4eV) for increasing gas flow ratios (from 10% to 40%). Secondary ion mass spectrometry (SIMS) depth profiles suggested that the nitrogen concentration was relatively uniform throughout the film. X-Ray Photoelectron Spectroscopy (XPS) surface analysis showed a steady increase in the total nitrogen concentration (from ~20% to 32%) in these films as gas flow ratio was increased. These data suggests that the increase in nitrogen concentration in MoSiN films corresponds directly with the lowering of MoSiN work function. These results clearly demonstrate that the work function of MoxSiyNz can be varied ~0.3 eV by adjusting the nitrogen concentration.

microelectronics

CMOS

capacitor

metal work function

Substrate-film interaction in noble metal/polymer multichip modules

Hodge, Thomas C.

05 1900

No description available.

Multichip modules (Microelectronics)

Precious metals

Polymers

Chemical-mechanical planarization of lithium gallate

Taylor, Andre D.

12 1900

No description available.

Grinding and polishing

Microelectronics Materials

Semiconductors Surfaces

Logic and algorithm partitioning

Khan, Shoab Ahmad

12 1900

No description available.

Algorithms

Modeling, optimization, and control of via formation by photosensitive polymers for MCM-D applications

Kim, Tae Seon

12 1900

No description available.

Multichip modules (Microelectronics)

Neural networks (Computer science)

Design of normal-incidence waveguide-imbedded phase gratings for optical interconnects in multi-chip modules

Jones, Mark Lehi

12 1900

No description available.

Integrated optics

Electromagnetic theory

Multichip modules (Microelectronics)

An investigation of high-performance logic circuitry in BiCMOS

Eckhardt, James P.

08 1900

No description available.

Integrated circuits

Microelectronics

Electronic circuit design

Experimental temperature measurements of microelectronic computer boards using an infrared camera

Krempel, Louis A.

12 1900

No description available.

Heat Transmission

Computer input-output equipment

Microelectronics