| name | sei-layer-analysis |
| description | Domain knowledge for solid electrolyte interphase (SEI) and battery electrode interface analysis. Covers SEI layer thickness ranges, lithium plating, battery material SLDs, and electrochemical cell conventions. Use when the sample involves batteries, electrochemistry, SEI, lithium plating, anodes, or cathodes.
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| metadata | {"author":"aure","version":"1.0"} |
SEI Layer Properties
The solid electrolyte interphase (SEI) forms between the electrolyte and the
electrode surface in battery systems.
- Typical thickness: 50–200 Å
- SLD range: 1.0–4.0 × 10⁻⁶ Å⁻² (composition-dependent)
- Thickness bounds for fitting: 5–500 Å
- Position: between the electrolyte (ambient) and the electrode surface
When adding an SEI layer:
- Set initial thickness to 100 Å (midpoint of typical range)
- Use wide SLD bounds (0.5–5.0) since SEI composition varies widely
- NEVER add with thickness < 5 Å — such layers cannot be resolved
Lithium Plating
Lithium metal plating appears between the SEI and the electrode (e.g., copper).
- Typical thickness: 10–100 Å
- SLD: −0.9 × 10⁻⁶ Å⁻² (pure Li)
- SLD range for fitting: −1.5 to 0.5 × 10⁻⁶ Å⁻²
- Thickness bounds: 5–300 Å
Battery Material SLDs (×10⁻⁶ Å⁻²)
| Material | SLD |
|---|
| Lithium metal | -0.9 |
| LiF | 2.25 |
| Li₂CO₃ | 2.0 |
| Li₂O | 1.4 |
| LiPF₆ (in solution) | ~2.5 |
Electrochemical Cell Conventions
- If the description says the native oxide "reduces away", do NOT include an
oxide layer; replace it with the hypothesized SEI/plating layer(s).
- Layer ordering for a typical battery electrode (substrate to ambient):
substrate → electrode metal → (plating) → SEI → electrolyte (ambient)
- Back-reflection geometry is common for in-situ electrochemical cells
(neutrons through the substrate).
Electrolyte Solvents
Common battery electrolyte solvents and their SLDs:
| Solvent | SLD (H) | SLD (D) |
|---|
| EC (ethylene carbonate) | ~1.0 | ~5.5 |
| DMC (dimethyl carbonate) | ~0.5 | ~5.0 |
| THF | 0.18 | 6.35 (d8-THF) |
Refinement Strategy — Battery Interfaces
When refining battery/SEI models:
- SEI thickness uncertainty: SEI layers are inherently diffuse. If the fitted
SEI thickness is very different from the 50–200 Å typical range AND χ² is high,
first try widening the SLD bounds (0.5–5.0) rather than changing thickness bounds.
SEI composition (and therefore SLD) varies more than its thickness.
- Lithium plating detection: If residual fringes suggest a thin (~10–50 Å)
unmodeled layer between the electrode and SEI, consider adding a Li plating
layer (SLD ≈ -0.9). Only add if the BIC supports it.
- Oxide reduction: If the sample description says the native oxide "reduces
away" but an oxide layer is still in the model, remove it and replace with
SEI/plating layers as described.
- Electrode roughness: Battery electrodes can have high roughness (10–30 Å).
If the electrode roughness is pinned at its upper bound, widen the roughness
range before adding interface layers.
- Electrolyte SLD: Verify the fitted electrolyte (ambient) SLD matches the
stated solvent. Battery electrolytes are often deuterated for contrast — check
for isotope confusion.