Nina Reger scite author profile

Nina Reger

5Publications

59Citation Statements Received

55Citation Statements Given

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189

Affiliations

Duquesne University, Bayer (United States)

Publications

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Route to Universally Tailorable Room-Temperature Liquid Metal Colloids via Phosphonic Acid Functionalization

et al. 2018

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Eutectic gallium–indium nanoparticles (EGaIn NPs) were produced and subsequently functionalized with decylphosphonic acid under various conditions with the goal of producing highly stable room-temperature liquid metal colloids. Fourier transform infrared spectroscopy was used to determine phosphonic acid (PA) bonding modes (e.g., bidentate, tridentate) as a function of treatment conditions. The strongest bonding modes (i.e., predominantly tridentate) were found to take place under elevated temperature (reflux in hexanes), whereas lower bulk temperature processing such as bath or probe sonication produced largely weaker modes (bidentate). It is then shown that PA ligands can be chosen, which include click-chemistry reactive functionalities, opening up a universal route to chemically bespoke self-assembled monolayers on liquid metal colloids. These results carry important implications for robust functionalization of EGaIn NPs for use in inks, composites, and other materials.

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Chapter 1a Metallic Biomaterials: Introduction

Breme

Biehl

Reger

et al. 2016

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Chapter 1c Metallic Biomaterials: Titanium and Titanium Alloys

Breme

Biehl

Reger

et al. 2016

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Reducing Escherichia coli growth on a composite biomaterial by a surface immobilized antimicrobial peptide

Buckholtz

Reger

Anderton

et al. 2016

Materials Science and Engineering: C

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Surface modification of PLGA nanoparticles to deliver nitric oxide to inhibit Escherichia coli growth

Reger

Meng

Gawalt

2017

Applied Surface Science

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Nina Reger

Route to Universally Tailorable Room-Temperature Liquid Metal Colloids via Phosphonic Acid Functionalization

Chapter 1a Metallic Biomaterials: Introduction

Chapter 1c Metallic Biomaterials: Titanium and Titanium Alloys

Reducing Escherichia coli growth on a composite biomaterial by a surface immobilized antimicrobial peptide

Surface modification of PLGA nanoparticles to deliver nitric oxide to inhibit Escherichia coli growth

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