Samir Farhat is highly suitable for the Advanced Alloys and Materials Award based on his internationally recognized contributions to advanced materials processing and two-dimensional materials. His research has significantly advanced the synthesis and control of graphene, carbon nanotubes, diamond, and hexagonal boron nitride through innovative electromagnetic induction–based approaches, enabling scalable, reproducible, and high-quality material fabrication. Notably, he pioneered inductive synthesis routes for graphene with controlled domain size, developed the first inductive method for large-area single-crystal Cu(111) substrates, and achieved breakthrough synthesis of h-BN, highlighted by a journal cover feature. His work integrates experimental investigation with thermochemical and kinetic modeling, directly impacting advanced alloys, functional substrates, and next-generation materials systems. According to the Scopus profile, he has 1,051 citations, 63 peer-reviewed publications, and an h-index of 17, reflecting strong scholarly impact and sustained research excellence.