Litcius/Paper detail

A Critical Review: Gel-Based Edible Inks for 3D Food Printing: Materials, Rheology–Geometry Mapping, and Control

Qin Zhou, Yang Yang, Zhaomin Zhang, Fanfan Li, Ziqing Hou, Zhihua Li, Jiyong Shi, Tingting Shen

2025Gels10 citationsDOIOpen Access PDF

Abstract

Edible hydrogels are the central material class in 3D food printing because they reconcile two competing needs: (i) low resistance to flow under nozzle shear and (ii) fast recovery of elastic structure after deposition to preserve geometry. This review consolidates the recent years of progress on hydrogel formulations-gelatin, alginate, pectin, carrageenan, agar, starch-based gels, gellan, and cellulose derivatives, xanthan/konjac blends, protein-polysaccharide composites, and emulsion gels alongside a critical analysis of printing technologies relevant to food: extrusion, inkjet, binder jetting, and laser-based approaches. For each material, this review connects gelation triggers and compositional variables to rheology signatures that govern printability and then maps these to process windows and post-processing routes. This review consolidates a decision-oriented workflow for edible-hydrogel printability that links formulation variables, process parameters, and geometric fidelity through standardized test constructs (single line, bridge, thin wall) and rheology-anchored gates (e.g., yield stress and recovery). Building on these elements, a "printability map/window" is formalized to position inks within actionable operating regions, enabling recipe screening and process transfer. Compared with prior reviews, the emphasis is on decisions: what to measure, how to interpret it, and how to adjust inks and post-set enablers to meet target fidelity and texture. Reporting minima and a stability checklist are identified to close the loop from design to shelf.

Topics & Concepts

RecipeWorkflowProcess engineeringMaterials scienceRheologyComputer scienceProcess (computing)Nanotechnology3D printingNozzleSelf-healing hydrogelsMicrofluidicsMechanical engineeringEngineering drawingThixotropyInkwellCelluloseProcess controlScripting languageEmulsionClass (philosophy)FidelityHigh fidelityShear stressFlow resistanceDeposition (geology)Additive Manufacturing and 3D Printing Technologies