Metallic　photonic　lattices　are　promising　in　their　application　to　plasmonic　optical　devices;　however,　scalable　fabrication　strategies　are　limited　by　sample　size,　response　wavelength　(mostly　in　the　visible　range),　cost,　and　duration.　This　paper　proposes　a　direct　imprinting　strategy　to　fabricate　large-area　metallic　photonic　lattices,　which　present　a　strong　plasmonic　response　and　broadband　angle-resolved　tuning　properties　in　the　infrared　region.　This　simple　fabrication　strategy　combines　solution-synthesized　Au　nanoparticle　colloid　and　imprinting　technology,　which　does　not　require　the　use　of　photoresist　or　lithography.　Thus,　the　feature　size　and　response　wavelength　can　exceed　the　limitations　of　the　beam　size　and　wave　band,　thereby　offering　the　advantages　of　a　low　cost　and　high　throughput.