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Meeting 2024 TMS Annual Meeting & Exhibition
Symposium Bio-Nano Interfaces and Engineering Applications
Presentation Title Aerosol Jet Printing MXenes: On-demand Manufacturing of Wearable Electronics
Author(s) Alejandra Almaraz, Fereshteh Rajabi-Kouchi, Hailey M Burgoyne, Naqsh E Mansoor, Jessica Koehne, David Estrada
On-Site Speaker (Planned) Alejandra Almaraz
Abstract Scope Development of wearable electronics with biological sensors has emerged as a significant area of focus in additive manufacturing. However, current methods pose a substantial ecological footprint. To address this issue, it is imperative to explore diverse additive manufacturing techniques, among which aerosol jet printing (AJP) is a prominent candidate. AJP requires the optimization of variables such as gas flow rates and ink rheology to achieve high-resolution printed structures. Notably, MXenes demonstrate the mitigation of ecological footprint while enhancing device functionality. This work demonstrates the synthesis of titanium carbide MXene using the minimally intensive layered delamination method. Resultant nanoparticles are characterized and formulated to an ink compatible with AJP. Experimental synthesis of such ink yields a viscosity of 3.5 cP, surface tension of 45 mN/m, density of 1055 kg/m3, and a contact angle of approximately 58 when printed onto a Kapton substrate. MXene inks are then used to print wearable biosensors.
Proceedings Inclusion? Planned:
Keywords Additive Manufacturing, Nanotechnology, Other

OTHER PAPERS PLANNED FOR THIS SYMPOSIUM

A Nanoscale Perspective on Charge Carrier Transport in Melanin Biopigments for Sustainable Electronics
A Neoteric Antibacterial Silver-Ceria Nanozyme for Abiotic Surfaces
Aerosol Jet Printing MXenes: On-demand Manufacturing of Wearable Electronics
Architected Interfaces in Biological Systems that Mitigate Failure
Continuous Flow Process of Surface-engineered, pH-responsive CeO2 Nanozymes With Tumour-killing Potency
Durability Performance of Enzymatic Self-healing Concrete
Durable Enzymatic Construction Materials (ECM-σ)
Effect of Ice Nucleation Proteins on the Structure-property Relationships of Ice: A Combined Simulation and Experimental Approach
Enamel Formation: Bioinspired Interfacial Design
Exploring the 3-Dimensional Structure and Composition of Dental Enamel at the Nanoscale
H-10: Cooperative Surface Self-assembly Kinetics of Metal Binding Peptides by Spectral Rate Distribution
H-11: Low-cost Customizable 3D Printed Biohybrid Scaffolds
H-12: Machine Learning-guided Identification of Antimicrobial Peptides Targeting Oral Health
H-13: Multi-functional Peptide-polymer Hybrids for Dental Tissue Repair
H-14: siRNA and Cerium Oxide Delivery With Ultrasound-sensitive Nanobubbles for Bone Disease Treatment
H-15: The Nanoscale Interface and Structure Function Properties of Cortical Bone
H-7: Broad Spectrum, Potent and Durable Ceria Nanoparticles Inactivate RNA Virus Infectivity by Targeting Virion Surfaces and Disrupting Virus-receptor Interactions
H-8: Carbon Negative Deeply Structured Hierarchical Ceramics Derived From Biogenic Silica
H-9: Collagen Platform Exploring Antimicrobial Peptide-polymer Hybrids
Inkjet-printed Nanopatterned Aptasensors for Lateral Flow Detection of Foodborne Pathogens
Interpenetrating Polymer Network as Interface Material in Bioinspired Composites
Matrix Assisted Pulsed Laser Evaporation for Layer-by-Layer Processing of Thin Films for Biomedical Applications
Measuring and Calibrating Interfacial Forces at Hard and Soft Interfaces via Force Spectroscopy for Quantitative Materials Description
Mechanically and Biologically Tunable Biomaterials
Molecular Insights Into Mineral Nanoparticle Interactions With Proteins
Nanomechanical Mapping in Bone
Quantifying Surface Topographies on Antimicrobial Copper
Rapid Prototyping of Additively Manufactured Cell Culture Chambers With Integrated Nano-biosensors
Surface Modified Nanomaterials for Viral Interactions
Tailoring the Micro- and Nanostructure of Freeze-cast Scaffolds for Biomaterials
The Difference of Trabecular and Cortical Bone Material Properties at the Proximal Hip May Influence Bone Fragility
Towards Effective Therapies for Bone Metastasis of Breast Cancer Using Novel Phenolic Compounds

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