Hard silicon carbonitride thin‐film coatings produced by remote hydrogen plasma chemical vapor deposition using aminosilane and silazane precursors. 1: Deposition mechanism, chemical structure, and surface morphology

Abstract: Amorphous silicon carbonitride films were produced by remote hydrogen microwave plasma chemical vapor deposition (RP-CVD) using aminosilanes: (dimethylamino) dimethylsilane, bis(dimethylamino)methylsilane, and tris(dimethylamino)silane, as well as disilazanes: 1,1,3,3-tetramethyldisilazane and 1,3-bis(dimethylsilyl)-2,2,4,4-tetramethylcyclodisilazane as single-source precursors. The effect of substrate temperature (T S ) on the rate and yield of the RP-CVD process, chemical composition, chemical structure, and… Show more

“…The desired properties of SiC x N y films are achieved by the optimization of the deposition process, including the choice of the proper precursor and deposition parameters. (b) Given that the properties of the films, in addition to the above parameters, are affected by the geometry of the reactor, it is interesting to identify the influence of the design of the precursors in a series of works in which the processes using various organosilicon compounds were studied with the same experimental setup [15][16][17][18][19][20][21][22]. (c) Films obtained at low synthesis temperatures (below 300 • C) and a low input power of plasma are a polymer-like hydrogenated material.…”

“…They contain organic functionalities, such as Si-CH 3 , CH x , NH x and Si-H bonds. The compositions of these films are described by the general formula of SiC x N y (O z ):H. The high input power or the high substrate temperature contribute to the destruction of organic groups and hydrogen-containing bonds and to the formation of a silicon carbonitride network, leading to the growth in the density of SiC x N y films [15]. (d) High decomposition temperatures (≥500 • C) of the precursor promote the appearance of an additional phase of amorphous graphite-like carbon in the films.…”

“…A smooth change in the element composition of the films makes tuning the functional performance possible, such as the refractive index and band gap. (i) The increase in the content of Si−C bonds in a-SiCN films causes an increase in their density, refractive index, adhesive critical load, hardness, elastic modulus and plasticity index [15,16]. (j) A limited number of works are devoted to studying the aging and stability of the composition and functional properties of silicon carbonitride films during storage in air and upon annealing.…”

1,4-Bis(trimethylsilyl)piperazine—Thermal Properties and Application as CVD Precursor

“…The desired properties of SiC x N y films are achieved by the optimization of the deposition process, including the choice of the proper precursor and deposition parameters. (b) Given that the properties of the films, in addition to the above parameters, are affected by the geometry of the reactor, it is interesting to identify the influence of the design of the precursors in a series of works in which the processes using various organosilicon compounds were studied with the same experimental setup [15][16][17][18][19][20][21][22]. (c) Films obtained at low synthesis temperatures (below 300 • C) and a low input power of plasma are a polymer-like hydrogenated material.…”

“…They contain organic functionalities, such as Si-CH 3 , CH x , NH x and Si-H bonds. The compositions of these films are described by the general formula of SiC x N y (O z ):H. The high input power or the high substrate temperature contribute to the destruction of organic groups and hydrogen-containing bonds and to the formation of a silicon carbonitride network, leading to the growth in the density of SiC x N y films [15]. (d) High decomposition temperatures (≥500 • C) of the precursor promote the appearance of an additional phase of amorphous graphite-like carbon in the films.…”

“…A smooth change in the element composition of the films makes tuning the functional performance possible, such as the refractive index and band gap. (i) The increase in the content of Si−C bonds in a-SiCN films causes an increase in their density, refractive index, adhesive critical load, hardness, elastic modulus and plasticity index [15,16]. (j) A limited number of works are devoted to studying the aging and stability of the composition and functional properties of silicon carbonitride films during storage in air and upon annealing.…”

1,4-Bis(trimethylsilyl)piperazine—Thermal Properties and Application as CVD Precursor

“…[41] In recent papers we have summarized the most important results of our study, on the formation of a-SiCN films of very useful properties by remote microwave hydrogen plasma CVD using methylsilazane and methylaminosilane precursors and hydrogen as an upstream gas for plasma generation. [42,43] The aim of these reviews was to show the effect of molecular structure of the precursor on the chemical structure and properties of resulting a-SiCN films.…”

Amorphous silicon carbonitride (a‐SiCN) thin film coatings by remote plasma chemical vapor deposition using organosilicon precursor: Effect of substrate temperature

“…It is worth noting separately that ammonia is used in the treatment and modification of polymers [37]. In organosilicon chemistry, ammonia is a key reagent in the synthesis of silazanes, an important class of organosilicon compounds [40].…”

A Versatile Equilibrium Method for the Synthesis of High-Strength, Ladder-like Polyphenylsilsesquioxanes with Finely Tunable Molecular Parameters