All‐Aqueous Embedded 3D Printing for Freeform Fabrication of Biomimetic 3D Constructs

Abstract All‐aqueous embedded 3D printing, which involves extruding inks in an aqueous bath, has emerged as a transformative platform for the freeform fabrication of 3D constructs with precise control. The use of a supporting bath not only enables the printing of arbitrarily designed 3D constructs but also broadens ink selection for various soft matters, advancing the wide application of this technology. This review focuses on recent progress in the freeform preparation of 3D constructs using all‐aqueous embedded 3D printing. It begins by discussing the significance of ultralow interfacial tension in all‐liquid embedded printing and highlights the fundamental concepts and properties of all‐aqueous system. The review then introduces recent advances in all‐aqueous embedded 3D printing and clarifies the key factors affecting printing stability and shape fidelity, aiming to guide expansion and assessment of emerging printing systems used for various representative applications. Furthermore, it proposes the potential scope and applications of this technology, including in vitro models, cytomimetic microreactors, and soft ionic electronics. Finally, the review discusses the challenges facing current all‐aqueous embedded 3D printing and offers future perspectives on possible improvements and developments.