Superconducting　materials　have　garnered　widespread　attention　due　to　their　zero-resistance　characteristic　and　complete　diamagnetism.　After　more　than　100　years　of　exploration,　various　high-temperature　superconducting　materials　including　cuprates,　nickelates,　iron-based　compounds,　and　ultra-high　pressure　multi-hydrides　have　been　discovered.　However,　the　practical　application　of　these　materials　is　severely　hindered　by　their　poor　ductility　and/or　the　need　for　high-pressure　conditions　to　maintain　structural　stability.　To　address　these　challenges,　we　first　provide　a　new　thought　to　build　high-temperature　superconducting　materials　based　on　few-hydrogen　metal-bonded　hydrides　under　ambient　pressure.　We　then　review　the　related　research　efforts　in　this　article.　Moreover,　based　on　the　bonding　type　of　atoms,　we　classify　the　existing　important　superconducting　materials　and　propose　the　new　concepts　of　pseudo-metal　and　quasi-metal　superconductivity,　which　are　expected　to　be　helpful　for　the　design　of　new　high-temperature　superconducting　materials　in　the　future.