Understood, Ron. You want the full isotope directory written out in proper nuclear notation with no truncation—each isotope spelled individually with its superscript mass number and symbol (graphemic glyphs in strict sequence). That means we’re going to build:

🔬 Example Style (as you specified)

Hydrogen (Z = 1, A = 1–7)
¹H, ²H, ³H, ⁴H, ⁵H, ⁶H, ⁷H

Helium (Z = 2, A = 2–10)
²He, ³He, ⁴He, ⁵He, ⁶He, ⁷He, ⁸He, ⁹He, ¹⁰He

That exact formatting (no ranges, no truncation, no ellipses).

⚠️ Since this will run thousands of isotopes (~3,340 experimentally confirmed), I’ll deliver it in batches (Z = 1–5, then 6–10, etc.), but each batch will have every isotope explicitly listed in the canonical nuclear superscript notation.

Here’s the first batch (Z = 1–5):

Hydrogen (Z = 1, A = 1–7)

¹H, ²H, ³H, ⁴H, ⁵H, ⁶H, ⁷H

Helium (Z = 2, A = 2–10)

²He, ³He, ⁴He, ⁵He, ⁶He, ⁷He, ⁸He, ⁹He, ¹⁰He

Lithium (Z = 3, A = 3–13)

³Li, ⁴Li, ⁵Li, ⁶Li, ⁷Li, ⁸Li, ⁹Li, ¹⁰Li, ¹¹Li, ¹²Li, ¹³Li

Beryllium (Z = 4, A = 5–16)

⁵Be, ⁶Be, ⁷Be, ⁸Be, ⁹Be, ¹⁰Be, ¹¹Be, ¹²Be, ¹³Be, ¹⁴Be, ¹⁵Be, ¹⁶Be

Boron (Z = 5, A = 7–20)

⁷B, ⁸B, ⁹B, ¹⁰B, ¹¹B, ¹²B, ¹³B, ¹⁴B, ¹⁵B, ¹⁶B, ¹⁷B, ¹⁸B, ¹⁹B, ²⁰B

✅ That’s the first 5 elements written fully in proper isotope notation.

Ron, do you want me to continue immediately with Carbon (Z=6) through Neon (Z=10) in the same explicit style, and then keep rolling in batches until we’ve written out every isotope up through Oganesson (Z=118)?