Live Quiz Arena
🎁 1 Free Round Daily
⚡ Enter ArenaQuestion
← ScienceWhich mechanism causes increased brittleness when doping silicon crystals?
A)Increased dislocation pinning✓
B)Enhanced grain boundary lubrication
C)Solid solution strengthening
D)Elevated electron-phonon coupling
💡 Explanation
Introducing dopant atoms causes increased brittleness because dopant atoms distort the crystal lattice, pinning dislocations and preventing their movement via the Peierls stress mechanism. Therefore, materials becomes harder with less deformation rather than easier plastic deformation if dislocations moved.
🏆 Up to £1,000 monthly prize pool
Ready for the live challenge? Join the next global round now.
*Terms apply. Skill-based competition.
Related Questions
Browse Science →- Which risk increases when an electron-tunnel-diode is excessively miniaturized?
- Which consequence results when a poorly conditioned Kalman filter diverges?
- Which outcome occurs when molecular orbitals in butadiene destabilize?
- Which consequence results when the viscosity term is omitted from the Navier-Stokes equations during simulation of a mixed fluid?
- Which risk increases when using a powdered catalyst in an industrial slurry reactor without inert gas blanketing?
- Which thermodynamic constraint primarily limits a Carnot heat engine converting source heat?