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IM-SURE Fellow: Georges Siddiqi Department of Chemical Engineering University of California, Los Angeles Mentor: Professor Regina Ragan Post-Doctoral Researcher:

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Presentation on theme: "IM-SURE Fellow: Georges Siddiqi Department of Chemical Engineering University of California, Los Angeles Mentor: Professor Regina Ragan Post-Doctoral Researcher:"— Presentation transcript:

1 IM-SURE Fellow: Georges Siddiqi Department of Chemical Engineering University of California, Los Angeles Mentor: Professor Regina Ragan Post-Doctoral Researcher: Dr. Ju H. Choi Department of Chemical Engineering and Materials Science University of California, Irvine Study of Self Assembled Nanoparticle Arrays on Diblock Copolymer Templates

2 Outline Our motivations Introduction to concepts Project goals Experimental outline Results and discussion

3 Motivation Create biosensors that are both Cost effective Highly sensitive Existing biosensors are large, mechanically complicated and expensive Difficult, time consuming and expensive to detect many biological molecules

4 Introduction Use plasmon resonance spectroscopy to create highly sensitive biosensors Van Duyne R.P. et al, Nano Lett., Vol. 4, No. 6, 2004

5 Diblock copolymers form two distinct phases depending on fraction of each Using poly(styrene-b-methyl methacrylate) (PS-b-PMMA) Introduction

6 Combine diblock copolymer templates with nanoparticles PMMA PS Creates cost effective templates Combine nanoparticle arrays with plasmon resonance spectroscopy Creates highly sensitive biosensor

7 PMMA Polymer substrate Project Goals Three goals for this project: Create size-controlled nanoparticles Create diblock copolymer Attach nanoparticles Monolayer protected Au/Ag nanoparticle synthesis Diblock-copolymer templates (PS-b-PMMA) (What I did)

8 Convert –COOCH 3 group to carboxylic acid Experimental Outline React with EDC and Sulfo-NHS to form amine reactive ester Attach functionalized nanoparticle

9 Results Initial Results

10 Results Complications with morphology

11 Results Spin speed & Conc. of PS-b-PMMA 3000 rpm4000 rpm5000 rpm 1 wt%55nm (70%) 50nm (60%) 49nm (64%) 2 wt%88nm (92%) 88nm (87%) 85nm (75%) Control of film thickness

12 Results Problems with template damage and their solutions

13 Results Problems with nanoparticle aggregation

14 Results Controlling nanoparticle size Expected NP size ~10nmExpected NP size ~20nm

15 Results Finally some good stuff

16 Acknowledgements Professor Regina Ragan Dr. Ju H. Choi Jere. A Wilson for some bangin’ NPs UCI IM-SURE Program NSF REU Program Carl Zeiss Center of Excellence

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