Interface energy, adhesion work and electronic structure of Ti3AlC2/Ag interface calculated from first principles
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Elsevier BV
Reference43 articles.
1. Performance studies of Ag, Ag‐graphite, and Ag‐graphene coatings on Cu substrate for high‐voltage isolation switch[J/OL];Lv;Mater. Corros.,2018
2. Frictional behavior and wear mechanisms of Ag/MoS2/WS2 composite under reciprocating microscale sliding;Zhua;Tribol. Int.,2023
3. The Mn+1AXn phases: materials science and thin-film processing[J/OL];Eklund;Thin Solid Films,2010
4. The Mn+1AXn phases: a new class of solids;Barsoum;Frog. Solid St. Chem.,2000
5. Elastic and mechanical properties of the MAX phases[J];Barsoum;Annu. Rev. Mater. Res.,2011
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1. Achieving highly conductive Ag/Ti3AlC2 composite by inhibiting interdiffusion;Scripta Materialia;2025-01
2. Enhanced nucleation at Al(111)/Ti3AlC2(0001) interfaces: The role of doping in adhesion and interfacial stability;Vacuum;2024-11
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