Evaluating the Scalability of the Sonication Method of Graphene oxide Synthesis Evan Dexter.

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Presentation transcript:

Evaluating the Scalability of the Sonication Method of Graphene oxide Synthesis Evan Dexter

Graphene Single or few layers of carbon atoms 200 times stronger than steel High thermal conductivity No band gap – extremely low electrical resistance Magnetic properties Catalyst Very hard to make in large amounts

Synthesis Mechanical Exfoliation Chemical Vapor Deposition Sonication (Liquid-Phase Exfoliation)

Previous research Lots of researchers interested in graphene Effect of graphite concentration Surfactant choice and concentration Thermal effects Vessel geometry Sonication time with non-oxidative synthesis Sonication volume with non-oxidative synthesis

question How does sonication volume and time affect the synthesis of graphene oxide? How does this translate to synthesis on a production scale?

setup

Sonication Ultrasonic wave energy bombarding suspended particles VirTis VirSonic 475

SONication

Centrifugation Forces leftover non-graphene material to bottom of solution

drying

Experimental Factor levels Sonication Volume 100mL, 200mL, 500mL, 1000mL Sonication Time 1 hour, 2 hours, 3 hours, 4 hours 16 Possible combinations of factor levels

Detection / Quantification Raman Spectroscopy Shows Purity, Thickness Not Available at Olivet - University of Louisville Higher D/G ratio indicates sheet defects 2D peak is symmetric and sharp for fewer layers Raman Spectroscopy Example

Completed Experimental Trials Research challenges Not all factor levels tested Raman spectroscopy results Completed Experimental Trials Sonication Time Factor (minutes) Sonication Volume Factor (mL) 100 200 500 1000 60 Completed - 120 180 240

results Sonication Volume (mL) Sonication Time (minutes) Product Collected (grams) Extrapolated Product (grams) Percent Yield (%) Rate of Production (grams · L-1 · min-1) 100 60 0.335 0.419 20.9 0.0698 120 0.422 0.528 26.4 0.0440 180 0.261 0.326 16.3 0.0181 200 0.234 0.585 14.6 0.0488 0.225 0.563 14.1 0.0234 500 0.370 2.313 23.1 0.0385

results

conclusions Rate of synthesis can be sustained at higher sonication volumes Increasing volumes do not require longer sonication times Liquid sonication is a promising method for future graphene oxide synthesis Additional research suggested at larger scales

acknowledgements Mentoring/Advising Assistance/Logistics Funding Dr. John Tatarko Dr. Daniel Sharda Assistance/Logistics ONU Dept. of Chemistry Dr. Greg Long Dr. Willa Harper Dr. Gamini Sumanasekera – University of Louisville Funding Olivet Honors Program

Thank you! Questions?