II.
LibraryProcess JSON
Structured · livelib-process:nanotechnology--in-situ-characterization
specializations/domains/science/nanotechnology/in-situ-characterization json
Inspect the normalized record payload exactly as the atlas UI reads it.
{
"id": "lib-process:nanotechnology--in-situ-characterization",
"_kind": "LibraryProcess",
"_file": "generated-library/processes.yaml",
"_cluster": "generated-library",
"attributes": {
"displayName": "specializations/domains/science/nanotechnology/in-situ-characterization",
"description": "In-Situ Characterization Experiment Design - Design and execute in-situ and operando\ncharacterization experiments to observe dynamic nanoscale processes including synthesis monitoring,\nenvironmental exposure effects, and device operation with real-time data capture, process correlation,\nand phenomenon documentation.",
"libraryPath": "library/specializations/domains/science/nanotechnology/in-situ-characterization.js",
"specialization": "nanotechnology",
"references": [
"- Scanning Probe Microscopy for Nanoscience: https://www.nature.com/articles/nnano.2007.300",
"- Raman Spectroscopy of Nanomaterials: https://pubs.rsc.org/en/content/articlelanding/2020/cs/c9cs00621d",
"- DigitalMicrograph (Gatan): https://www.gatan.com/products/tem-analysis/digitalmicrograph-software"
],
"example": "const result = await orchestrate('specializations/domains/science/nanotechnology/in-situ-characterization', {\n experimentType: 'synthesis-monitoring',\n dynamicProcess: { type: 'nanoparticle-growth', material: 'gold', mechanism: 'citrate-reduction' },\n characterizationTechniques: ['in-situ-TEM', 'UV-Vis', 'SAXS'],\n temporalRequirements: { duration: '30min', samplingRate: '1s' }\n});",
"usesAgents": [
"in-situ-experiment-designer",
"sample-cell-specialist",
"instrument-specialist",
"data-acquisition-specialist",
"experiment-operator",
"process-analyst",
"kinetics-specialist",
"phenomenon-documentor",
"data-validator",
"technical-writer"
]
},
"outgoingEdges": [
{
"from": "lib-process:nanotechnology--in-situ-characterization",
"to": "skill-area:mathematical-reasoning",
"kind": "lib_requires_skill_area",
"attributes": {
"weight": 1
}
},
{
"from": "lib-process:nanotechnology--in-situ-characterization",
"to": "skill-area:physics-simulation",
"kind": "lib_requires_skill_area",
"attributes": {
"weight": 0.7
}
},
{
"from": "lib-process:nanotechnology--in-situ-characterization",
"to": "skill-area:data-analysis",
"kind": "lib_requires_skill_area",
"attributes": {
"weight": 0.5
}
},
{
"from": "lib-process:nanotechnology--in-situ-characterization",
"to": "domain:nanotechnology",
"kind": "lib_applies_to_domain",
"attributes": {
"weight": 1
}
},
{
"from": "lib-process:nanotechnology--in-situ-characterization",
"to": "role:research-engineer",
"kind": "lib_involves_role",
"attributes": {
"weight": 1
}
},
{
"from": "lib-process:nanotechnology--in-situ-characterization",
"to": "workflow:experiment-design",
"kind": "lib_implements_workflow",
"attributes": {
"weight": 1
}
},
{
"from": "lib-process:nanotechnology--in-situ-characterization",
"to": "specialization:nanotechnology",
"kind": "lib_belongs_to_specialization",
"attributes": {
"weight": 0.9
}
},
{
"from": "lib-process:nanotechnology--in-situ-characterization",
"to": "lib-agent:meta--technical-writer",
"kind": "uses_agent",
"attributes": {
"weight": 0.8
}
}
],
"incomingEdges": []
}