Bioinspired Hierarchical Porous Structures for Engineering Advanced Functional Inorganic Materials

• Published in: Advanced materials (Weinheim) Vol. 30; no. 41; pp. e1706349 - n/a
• Main Authors: Diab, Mahmud, Mokari, Taleb
• Format: Journal Article
• Language: English
• Published: Germany Wiley Subscription Services, Inc 01.10.2018
• Subjects: 3D structures; Biomimetics; Catalysis; diatoms; Drug delivery systems; foraminifera; Inorganic materials; inorganic nanomaterials; Materials science; Metal sulfides; microorganism scaffolds; Microorganisms; Plankton; Scaffolds; Structural hierarchy; Three dimensional printing; foraminifera; inorganic nanomaterials; diatoms; microorganism scaffolds; 3D structures
• ISSN: 0935-9648; 1521-4095
• DOI: 10.1002/adma.201706349

Tremendous efforts have been directed at designing functional and well‐defined 3D structures in recent decades. Many approaches have been devised and are currently used to create 3D structures, including lithography, 3D printing, assembly, and template‐mediated (natural or synthetic) methods. Natural scaffolds offer some unique traits, as compared to their artificial counterparts, presenting highly ordered, porous, identical, abundant, and diverse structures. Various organisms, such as viruses, bacteria, diatoms, foraminifera, and others, are used as templates to form 3D structures. Herein, advancements made in using the shell of marine microorganisms, diatoms, and foraminifera, as scaffolds for designing functional 3D structures are reported. Furthermore, a succinct overview of various synthetic methods used to coat these scaffolds with inorganic materials (i.e., metals, metal oxides, and metal sulfides) is provided. Finally, the use of such fabricated functional 3D structures in a wide range of applications, such as catalysis, sensing, drug delivery, photo‐electrochemical uses, batteries, and others, is considered. Marine organisms such as diatoms and foraminifera are good candidates to serve as scaffolds for designing 3D structures. These unique shells are abundant, identical, and highly complex structures. Coating the microorganism template with organic or inorganic materials creates functional 3D structures with superior properties and performances.