Microcapsule production by droplet microfluidics: A review from the material science approach

In the last two decades, microfluidics has emerged as a powerful tool of high precision and versatility, mainly applied to biomedicine. As a result of its strengths, the literature concerning its fundamental prin-ciples is comprehensive. Since this field continues to evolve, new areas, such as the production of solid microcapsules, need to be covered and updated. To date, some specific reviews cover microencapsulation by microfluidic focusing on the area of biology and medicine: production of microgels, controlled drug release, bacteria and cell encapsulation, and tissue engineering. Nonetheless, this technique is expanding to other research areas like material science, which can bring these materials to other applications such as food and cosmetics, self-healing materials, and energy storage industry. This work aims to cover these aspects by presenting the latest research trends in microfluidic microcapsule production. The review traces the field's evolution, showing the weaknesses and challenges faced by scientists to fully exploit the advantages of this technique. To this end, the work focuses on different facets of material science: core and shell materials; parameters affecting the capsule structure; shell curing processes; material per-formance; and mass production challenges. The review initially addresses the fundamentals required to understand the microcapsule formation process.CO 2022 The Authors. Published by Elsevier Ltd. This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/).