Abstract
Transition metal nitride nanomaterials are emerging as promising candidates for applications in photochemistry and plasmonics due to their stability and tunable optoelectronic properties. While single transition metal containing nitrides have been extensively studied, experimental reports on mixed-metal systems remain scarce, especially for plasmonic applications. Here, a bottom-up synthesis of mixed zirconium–hafnium nitride nanoparticles with the general formula AxB1-xN has been reported. Precise control over metal composition is achieved by varying the ratios of metal halide precursors, enabling systematic tuning of the resulting nanomaterials and their optical properties. This approach offers a pathway toward the rational design of plasmonic multimetallic nitrides for advanced photonic applications.
Supplementary materials
Title
Supplementary Information
Description
Microscopy images, powder X-ray diffraction patterns, elemental maps, and X-ray photoelectron spectra of various metal nitride nanoparticles.
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