April 22 - 26, 2024
Seattle, Washington
May 7 - 9, 2024 (Virtual)
Symposium Supporters
2024 MRS Spring Meeting & Exhibit
MF01.11.07

Intelligentsia of Additively Manufactured Hierarchical Materials

When and Where

Apr 24, 2024
4:30pm - 5:00pm
Room 325, Level 3, Summit

Presenter(s)

Julia Greer, California Institute of Technology

Co-Author(s)

Julia Greer1,Seola Lee1,Seneca Velling1,Wenxin Zhang1,Cyrus Fiori1

California Institute of Technology1

Abstract

Julia Greer1,Seola Lee1,Seneca Velling1,Wenxin Zhang1,Cyrus Fiori1

California Institute of Technology1
Creation of reconfigurable and multi-functional materials can be achieved by incorporating architecture into material design. In our research, we design and fabricate three-dimensional (3D) nano-architected materials that can exhibit superior and often tunable thermal, photonic, electrochemical, biochemical, and mechanical properties at extremely low mass densities (lighter than aerogels), which renders them useful and enabling in technological applications. Dominant properties of such meta-materials are driven by their multi-scale hierarchy: from characteristic material microstructure (atoms) to individual constituents (nanometers) to structural components (microns) to overall architectures (millimeters and above).<br/>Our research is focused on fabrication and synthesis of nano- and micro-architected materials using 3D lithography, nanofabrication, and additive manufacturing (AM) techniques, as well as on investigating their mechanical, biochemical, electrochemical, electromechanical, and thermal properties as a function of architecture, constituent materials, and microstructural detail. Additive manufacturing (AM) represents a set of processes that fabricate complex 3D structures using a layer-by-layer approach, with some advanced methods attaining nanometer resolution and the creation of unique, multifunctional materials and shapes derived from a <i>photoinitiation-based chemical reaction</i> of custom synthesized resins and thermal post-processing. A type of AM, vat polymerization, has allowed for using hydrogels as precursors, and exploiting novel material properties, especially those that arise at the nano-scale and do not occur in conventional materials. The focus of this talk is on <u>additive manufacturing via vat polymerization and function-containing chemical synthesis</u> to create 3D nano- and micro-architected metals, ceramics, multifunctional metal oxides (nano-photonics, photocatalytic, piezoelectric, etc.), and metal-containing polymer complexes, etc., as well as demonstrate their potential in some real-use biomedical, protective, and sensing applications. I will describe how the choice of architecture, material, and external stimulus can elicit stimulus-responsive, reconfigurable, and multifunctional response.

Keywords

additive manufacturing

Symposium Organizers

Emily Davidson, Princeton University
Michinao Hashimoto, Singapore University of Technology and Design
Emily Pentzer, Texas A&M University
Daryl Yee, École Polytechnique Fédérale de Lausanne

Symposium Support

Silver
UpNano US Inc.

Session Chairs

Emily Pentzer
Daryl Yee

In this Session