Since　limited　energy　density　and　intrinsic　safety　issues　of　commercial　lithium-ion　batteries　(LIBs),　solid-state　batteries　(SSBs)　are　promising　candidates　for　next-generation　energy　storage　systems.　However,　their　practical　applications　are　restricted　by　interfacial　issues　and　kinetic　problems,　which　result　in　energy　density　decay　and　safety　failure.　This　review　discusses　the　formation　mechanisms　of　these　issues　from　the　perspective　of　typical　solid-state　electrolytes　(SSEs)　and　provides　an　overview　of　recent　advanced　anode　engineering　for　SSBs　based　on　representative　anodes　including　Li　metal,　graphite-based,　and　Si-based　anodes,　summarizing　the　advantages　and　problems　of　each　strategy.　The　development　of　the　anode-free　batteries　concept　is　demonstrated　as　well.　Finally,　recommendations　are　proposed　for　the　potential　directions　in　future　research　in　anode　engineering　for　SSBs.　©　The　Author(s)　2024.