MIT 3D prints advanced nozzles for drug and material manufacturing

By PulseAugur Editorial · [1 sources] · 2026-06-10 09:30

Researchers at MIT have developed a novel 3D-printed triaxial electrospray nozzle array capable of simultaneously dispensing multiple liquids into three-layered droplets. This innovation significantly reduces manufacturing costs and complexity, eliminating the need for cleanroom facilities typically required for such intricate devices. The new design promises to revolutionize the production of layered drugs, self-healing materials, and other advanced applications by enabling more efficient, consistent, and customizable droplet fabrication. AI

IMPACT Enables cost-effective, precise fabrication of complex layered materials and drugs, potentially accelerating innovation in medicine and material science.

RANK_REASON The cluster describes a new research development from MIT involving 3D printing for advanced manufacturing applications. [lever_c_demoted from research: ic=1 ai=0.4]

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MIT 3D prints advanced nozzles for drug and material manufacturing

COVERAGE [1]

Tom's Hardware TIER_1 English(EN) · Bruno Ferreira · 2026-06-10 09:30

3D-printed nozzles could revolutionize drug and self-healing material manufacturing — MIT-developed triaxial electrospray design makes cleanroom fabrication optional

MIT's 3D-printed triaxial electrospray nozzles could revolutionize drug and self-healing material manufacturing. By using a relatively inexpensive resin printing approach, the new nozzle fabrication technique removes the need for a semiconductor-class cleanroom facility.

COVERAGE [1]

3D-printed nozzles could revolutionize drug and self-healing material manufacturing — MIT-developed triaxial electrospray design makes cleanroom fabrication optional

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