Farzad Liravi scite author profile

The exceptional properties of graphene have inspired widespread efforts to integrate this two-dimensional (2D) material in functional applications in recent years. Within the broad spectrum of graphene processing frameworks, low-cost methods such as scalable, liquid-phase patterning are typically considered among the most straightforward routes for device integration. These ink-based printing methods require parallel research in graphene dispersion engineering, print process optimization, and post-processing methods to enhance target functional properties for a wide range of device applications in flexible electronics, energy storage, display technologies, and sensing. This review examines the current state-of-the-art and future prospects for integrating graphene and graphene composites with these versatile printing techniques to accelerate the development of scalable and low-cost graphene-based devices.

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Separation force analysis and prediction based on cohesive element model for constrained-surface Stereolithography processes

Liravi

Das

Zhou

2015

Computer-Aided Design

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A hybrid additive manufacturing method for the fabrication of silicone bio-structures: 3D printing optimization and surface characterization

Liravi

Toyserkani

2018

Materials & Design

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Additive manufacturing of 3D structures with non-Newtonian highly viscous fluids: Finite element modeling and experimental validation

Liravi

Darleux

Toyserkani

2017

Additive Manufacturing

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Farzad Liravi

Additive manufacturing of silicone structures: A review and prospective

2D printing of graphene: a review

Separation force analysis and prediction based on cohesive element model for constrained-surface Stereolithography processes

A hybrid additive manufacturing method for the fabrication of silicone bio-structures: 3D printing optimization and surface characterization

Additive manufacturing of 3D structures with non-Newtonian highly viscous fluids: Finite element modeling and experimental validation

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