Abstract: Embodiments include semiconductor processing methods to form low-K films on semiconductor substrates are described. The processing methods may include flowing one or more deposition precursors to a semiconductor processing system, wherein the one or more deposition precursors include a silicon-containing precursor. The silicon-containing precursor may include a carbon chain. The methods may include generating a deposition plasma from the one or more deposition precursors. The methods may include depositing a silicon-and-carbon-containing material on the substrate from plasma effluents of the deposition plasma. The silicon-and-carbon-containing material as-deposited may be characterized by a dielectric constant less than or about 3.0.

Abstract: Embodiments include semiconductor processing methods to form low-? films on semiconductor substrates are described. The processing methods may include flowing one or more deposition precursors to a semiconductor processing system. The one or more deposition precursors may include a silicon-containing precursor that may be a cyclic compound. The methods may include generating a deposition plasma from the one or more deposition precursors. The methods may include depositing a silicon-and-carbon-containing material on the substrate from plasma effluents of the deposition plasma. The silicon-and-carbon-containing material as-deposited may be characterized by a dielectric constant less than or about 3.0.

Abstract: A crested barrier memory device may include a first electrode, a first self- rectifying layer, and a combined barrier and active layer. The first self-rectifying layer may be between the first electrode and the active layer. A conduction band offset between the first self-rectifying layer and the combined barrier and active layer may be greater than approximately 1.5 eV. A valence band offset between the first self-rectifying layer and the combined barrier and active layer may be less than approximately ?0.5 eV. The device may also include a second electrode. The active layer may be between the first self-rectifying layer and the second electrode.