cvd-pvd-process-controller
// Chemical/Physical Vapor Deposition skill for thin film and nanostructure deposition optimization
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updated:March 4, 2026
SKILL.mdreadonly
SKILL.md Frontmatter
namecvd-pvd-process-controller
descriptionChemical/Physical Vapor Deposition skill for thin film and nanostructure deposition optimization
allowed-toolsRead,Write,Glob,Grep,Bash
metadata[object Object]
CVD-PVD Process Controller
Purpose
The CVD-PVD Process Controller skill provides comprehensive vapor deposition process control for thin film and nanostructure fabrication, enabling optimized growth conditions for various material systems.
Capabilities
- CVD precursor chemistry selection
- Temperature and pressure optimization
- Plasma-enhanced CVD protocols
- PVD sputtering/evaporation control
- Film stress management
- Rate and uniformity optimization
Usage Guidelines
Deposition Process Control
-
CVD Optimization
- Select precursor chemistry
- Optimize flow rates
- Control temperature profile
-
PVD Control
- Optimize sputter power
- Control deposition rate
- Manage film stress
-
Quality Assurance
- Monitor thickness in-situ
- Characterize composition
- Verify stoichiometry
Process Integration
- Thin Film Deposition Process Optimization
- Nanodevice Integration Process Flow
Input Schema
{
"deposition_type": "cvd|pecvd|sputtering|evaporation",
"material": "string",
"target_thickness": "number (nm)",
"substrate": "string",
"quality_requirements": {
"uniformity": "number (%)",
"stress": "string (tensile|compressive|neutral)"
}
}
Output Schema
{
"process_parameters": {
"temperature": "number (C)",
"pressure": "number (mTorr)",
"power": "number (W)",
"gas_flows": [{"gas": "string", "flow": "number (sccm)"}]
},
"deposition_rate": "number (nm/min)",
"uniformity": "number (%)",
"film_stress": "number (MPa)",
"composition": [{"element": "string", "fraction": "number"}]
}