Your search keyword '"Neal, William G."' showing total 8 results

1. One hour road to high-quality arrays of gold nanoparticles coated with organic ligands.

Author

Degousée, Thibault, Neal, William G., Edwards, Zach, Singh, Saumya, Selvarajah, Jotham, Talha-Dean, Teymour, Palma, Matteo, Schroeder, Bob C., and Mol, Jan A.

Abstract

Arrays of gold nanoparticles (AuNP) covered with organic molecules have promising applications in biology, electronics, energy, and fundamental physics, among other areas. Here we consider different approaches to synthesise, coat the AuNP with a ligand and to induce their self-assembly into a network within one hour. Arrays formed from aqueous AuNP are stabilised with small ions or alkane chains of 8 to 18 carbons long as the assembly is induced. Alternatively, the AuNP are exchanged to an organic solvent and covered with alkanethiols or oleylamine before the array formation. Beside the length of the ligand, the network morphology and electronic properties are highly affected by the deposition conditions. By using a solid-state exchange strategy, we alternately replaced the ligand on the AuNP with long and short alkanethiols, for which the change of the network's resistance appears reversible. Using this ligand exchanged strategy, we replaced a commercially available alkanethiol with a bespoke naphthalene diimide, resulting in improved conductivity of the networks and their stability in air. Crucially, this simple, rapid, and versatile AuNP–organic network formation offers a platform to the scientific community to investigate the physical and chemical properties of complex molecules. [ABSTRACT FROM AUTHOR]

Published

2023

2. Aqueous processing of organic semiconductors enabled by stable nanoparticles with built-in surfactants

Author

Marcial-Hernandez, Raymundo, primary, Giacalone, Sofia, additional, Neal, William G., additional, Lee, Chang-Seuk, additional, Gilhooly-Finn, Peter A., additional, Mastroianni, Giulia, additional, Meli, Dilara, additional, Wu, Ruiheng, additional, Rivnay, Jonathan, additional, Palma, Matteo, additional, and Nielsen, Christian B., additional

Published

2023

3. High‐Efficiency Ion‐Exchange Doping of Conducting Polymers

Author

Jacobs, Ian E., primary, Lin, Yue, additional, Huang, Yuxuan, additional, Ren, Xinglong, additional, Simatos, Dimitrios, additional, Chen, Chen, additional, Tjhe, Dion, additional, Statz, Martin, additional, Lai, Lianglun, additional, Finn, Peter A., additional, Neal, William G., additional, D'Avino, Gabriele, additional, Lemaur, Vincent, additional, Fratini, Simone, additional, Beljonne, David, additional, Strzalka, Joseph, additional, Nielsen, Christian B., additional, Barlow, Stephen, additional, Marder, Seth R., additional, McCulloch, Iain, additional, and Sirringhaus, Henning, additional

Published

2021

4. Controlling morphology, adhesion, and electrochromic behavior of PEDOT films through molecular design and processing

Author

Kousseff, Christina J., primary, Taifakou, Fani Eirini, additional, Neal, William G., additional, Palma, Matteo, additional, and Nielsen, Christian B., additional

Published

2021

5. High‐Efficiency Ion‐Exchange Doping of Conducting Polymers.

Author

Jacobs, Ian E., Lin, Yue, Huang, Yuxuan, Ren, Xinglong, Simatos, Dimitrios, Chen, Chen, Tjhe, Dion, Statz, Martin, Lai, Lianglun, Finn, Peter A., Neal, William G., D'Avino, Gabriele, Lemaur, Vincent, Fratini, Simone, Beljonne, David, Strzalka, Joseph, Nielsen, Christian B., Barlow, Stephen, Marder, Seth R., and McCulloch, Iain

Published

2022

6. Controlling morphology, adhesion, and electrochromic behavior of PEDOTfilms through molecular design and processing

Author

Kousseff, Christina J., Taifakou, Fani Eirini, Neal, William G., Palma, Matteo, and Nielsen, Christian B.

Abstract

Poly(3,4‐ethylenedioxythiophene) (PEDOT) is a well‐known semiconducting polymer with favorable properties which find it often applied as the active material in biological sensors and electrochromic devices. However, PEDOThas several drawbacks which can prohibit its effective or long‐term use, including weak adhesion to substrates such as ITO‐coated glass, poorly controlled surface morphology, and reduced electrochemical stability over time. While a diverse range of approaches have been explored to overcome these issues, most involve additives or substrate modification, while solutions based on direct covalent adaptation are relatively lacking. We present a novel polymer based on covalently modified EDOT (PEDOT‐Crown), featuring polar motifs and a 15‐crown‐5 moiety. Compared to PEDOT, PEDOT‐Crowndemonstrates a wealth of advantageous properties including: superior adhesion to ITO under physical and electrochemical duress; a more uniform surface morphology; and electrochemical properties including a higher contrast ratio, red‐shifted polaron and bipolaron absorption features, bleaching of the neutral absorption band across a narrower voltage range, and more Faradaic rather than capacitive behavior. Additionally, we note that in the presence of Na+, PEDOT‐Crownappears to show modified behavior in long‐term electrochemical experiments. These features make PEDOT‐Crowna material with improved suitability for application in biological sensing and electrochromic devices, compared to PEDOT.

Published

2022

7. Nontechnical Behaviors and Attitudes for Employability of Students in Post-Secondary Cooperative Programs.

Author

Neal, William G.

Abstract

Discusses a comprehensive examination of employers' ratings of nontechnical behaviors and attitudes for the employability of cooperative education students. (JOW)

Published

1983

8. Focusing on Nonverbal Communication in Business.

Author

Neal, William G.

Abstract

Consideration of the role of nonverbal communication equips students with the ability to maintain effective relationships in a business setting. (SK)

Published

1982