Deposition of epitaxial Si/Si-Ge/Ge and novel high-K gate dielectrics using remote plasma chemical vapor deposition

Chen, Xiao, 1972-

29 June 2011

Not available / text

Epitaxy

Thin films

Dielectrics

Theoretical Routes for c-BN Thin Film Growth

Karlsson, Johan

January 2013

Cubic boron nitride (c-BN) has been in focus for several years due to its interesting properties. The possibility for large area chemical vapor deposition (CVD) is a requirement for the realization of these different properties in various applications. Unfortunately, there are at present severe problems in the CVD growth of c-BN. The purpose with this research project has been to theoretically investigate, using density functional theory (DFT) calculations, the possibility for a layer-by-layer CVD growth of c-BN.  The results, in addition with experimental work by Zhang et al.57,  indicate that plasma-enhanced atomic layer deposition (PEALD), using a BF3-H2-NH3-F2 pulse cycle and a diamond substrate, is a promising method for deposition of c-BN films. The gaseous species will decompose in the plasma and form BFx, H, NHx, and F species (x = 0, 1, 2, 3). The H and F radicals will uphold the cubic structure by completely hydrogenate, or fluorinate, the growing surface. Surface radical sites will appear during the growth process as a result of atomic H, or F, abstraction reactions. However, introduction of energy (e.g., ionic bombardment) is probably necessary to promote removal of H from the surface. The addition of NHx growth species (x = 0, 1, 2) to the B radical sites, and BFx growth species (x = 0, 1, 2) to N radical sites, will then result in a continuous growth of c-BN.

cubic boron nitride

chemical vapor deposition

density functional theory

Silicon Refining Through Chemical Vapor Deposition

LI, Mark Xiang

03 January 2011

Currently the cost of solar grade silicon accounts for approximately one third of the total solar cell cost, therefore a new silicon refining process is being proposed with the goal of lowering the cost of producing solar grade silicon. In this new process, Si-Cu alloys were used as the silicon source. One to one molar ratio H2-HCl gas mixtures were used as transport agents to extract Si out from the Si-Cu alloy at about 300-700oC, with following reaction taking place: Si+3HCl(g)=HSiCl3(g)+H2(g) While at about 1000-1300oC, pure Si deposits onto a hot silicon rod according to: Si+3HCl(g)=HSiCl3(g)+H2(g) The role of the copper in the alloy was to trap impurities in the Si and catalyze the gas solid reaction. A study on determining the rate limiting step and impurity behavior was done. A possible silicon extraction reaction mechanism was also addressed.

Solar Silicon

Chemical Vapor Deposition

Silicon Refining

0794

Silicon Refining Through Chemical Vapor Deposition

LI, Mark Xiang

03 January 2011

Currently the cost of solar grade silicon accounts for approximately one third of the total solar cell cost, therefore a new silicon refining process is being proposed with the goal of lowering the cost of producing solar grade silicon. In this new process, Si-Cu alloys were used as the silicon source. One to one molar ratio H2-HCl gas mixtures were used as transport agents to extract Si out from the Si-Cu alloy at about 300-700oC, with following reaction taking place: Si+3HCl(g)=HSiCl3(g)+H2(g) While at about 1000-1300oC, pure Si deposits onto a hot silicon rod according to: Si+3HCl(g)=HSiCl3(g)+H2(g) The role of the copper in the alloy was to trap impurities in the Si and catalyze the gas solid reaction. A study on determining the rate limiting step and impurity behavior was done. A possible silicon extraction reaction mechanism was also addressed.

Solar Silicon

Chemical Vapor Deposition

Silicon Refining

0794

Level set model of microstructure evolution in the chemical vapor infiltration process

Wang, Xuelei

12 1900

No description available.

Level set methods

Studies of diamond film formation

Newson, Pamela Lynn

12 1900

No description available.

Diamonds, Artificial

Diamond thin films

Chemical vapor deposition

Synthetic, mechanistic, structural, and dynamic NMR investigations of zinc bis(amide) compounds

Gaul, David Allen

05 1900

No description available.

Chemical vapor deposition

Zinc selenide

Nuclear magnetic resonance

Mechanistic analysis of the thermally induced decomposition of certain metal beta-diketonate precursors for chemical vapor deposition of electronic materials

Obi-Johnson, Bettie Jeanne

05 1900

No description available.

High temperature superconductors

Thin films

Chemical vapor deposition

Patterning etch masks via the "Grafting-from polymerization

Chen, Xiao Hua

05 1900

No description available.

Polymerization

Thin films

Preparation of high density particulate preforms and their consolidation by the thermal gradient-forced flow diamond CVI process

Lee, Jong-Heon

12 1900

No description available.

Diamond thin films