F
Fariba Ghaderinezhad
Researcher at University of Connecticut
Publications - 13
Citations - 575
Fariba Ghaderinezhad is an academic researcher from University of Connecticut. The author has contributed to research in topics: Microfluidics & Nanocomposite. The author has an hindex of 7, co-authored 13 publications receiving 425 citations. Previous affiliations of Fariba Ghaderinezhad include Sharif University of Technology.
Papers
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Journal ArticleDOI
3D-printed microfluidic devices.
Reza Amin,Stephanie Knowlton,Alexander Hart,Bekir Yenilmez,Fariba Ghaderinezhad,Sara Katebifar,Michael Messina,Ali Khademhosseini,Ali Khademhosseini,Ali Khademhosseini,Savas Tasoglu +10 more
TL;DR: A broad range of approaches for the application of 3D printing technology to fabrication of micro-scale lab-on-a-chip devices are discussed, making microfluidics more accessible to users.
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Preparation of conductive polyaniline/graphene nanocomposites via in situ emulsion polymerization and product characterization
TL;DR: In this paper, the authors reported the synthesis of highly conductive binary-doped polyaniline nanoparticles using a standard four-point probe technique with FTIR and UV-vis studies.
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Paper-based assays for urine analysis.
TL;DR: This review of the recent progress in the application of paper-based microfluidics to urine analysis as a solution to providing continuous health monitoring for proactive care and an overview of select biomarker research tailored towards urine diagnostics.
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High-throughput rapid-prototyping of low-cost paper-based microfluidics
TL;DR: This work demonstrates an inexpensive, rapid method for high-throughput fabrication of paper-based microfluidics by patterning hydrophobic barriers using a desktop pen plotter integrated with a custom-made, low-cost paper feeder.
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Continuous-Ink, Multiplexed Pen-Plotter Approach for Low-Cost, High-Throughput Fabrication of Paper-Based Microfluidics.
Reza Amin,Fariba Ghaderinezhad,Lu Li,Eric Lepowsky,Bekir Yenilmez,Stephanie Knowlton,Savas Tasoglu +6 more
TL;DR: This study demonstrated a cost- and time-effective method for high-throughput, easily accessible fabrication of paper-based microfluidics using a desktop pen plotter integrated with a custom-designed multipen holder and proposed an ink supply system connected to commercial technical pens to allow continuous flow of the ink, thereby increasing the printing capacity of the system.