Solving the Schrödinger equation for a crystalline potential reveals a potential-barrier affinity effect that drives interatomic electron accumulation above the barrier maximum, claimed as the fundamental mechanism for solid bonding and electride formation.
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Potential-Barrier Affinity Effect in Solid Systems
Solving the Schrödinger equation for a crystalline potential reveals a potential-barrier affinity effect that drives interatomic electron accumulation above the barrier maximum, claimed as the fundamental mechanism for solid bonding and electride formation.