Additive　manufacturing　is　increasingly　utilised　in　the　energy　conversion　and　storage　field.　It　offers　great　flexibility　to　fabricate　structural　materials　with　improved　physical　properties,　and　other　advantages　such　as　material　waste　reduction,　fabrication　time　minimisation,　and　cost-effectiveness.　In　this　review,　current　developments　in　additive　manufacturing　of　energy　storage　devices　are　discussed.　The　digital　design　approaches　of　structural　materials　and　mainstream　additive　manufacturing　techniques,　including　vat　photopolymerization,　powder　bed　fusion,　material　jetting,　binder　jetting,　material　extrusion,　and　directed　energy　deposition,　are　summarised.　Then,　a　comprehensive　review　of　recent　advances　in　the　electrochemical　and　thermal　energy　storage　field　is　provided.　In　the　end,　an　integrated　framework　considering　digital　design　and　additive　manufacturing　is　proposed　for　a　wide　range　of　energy　applications.