Your search keyword '"Louise E. Horsfall"' showing total 5 results

1. Palladium Nanoparticles from Desulfovibrio alaskensis G20 Catalyze Biocompatible Sonogashira and Biohydrogenation Cascades

Author

Yuta Era, Jonathan A. Dennis, Louise E. Horsfall, and Stephen Wallace

Subjects

green chemistry, biocompatible chemistry, microorganisms, nanopatricles, cascade

Abstract

Transition-metal nanoparticles produced by living bacteria are emerging as novel catalysts for sustainable synthesis. However, the scope of their catalytic activity and their ability to be integrated within metabolic pathways for the bioproduction of non-natural small molecules has been underexplored. Herein we report that Pd nanoparticles synthesized by the sulfate-reducing bacterium Desulfovibrio alaskensis G20 (DaPdNPs) catalyze the Sonogashira coupling of phenyl acetylenes and aryl iodides, and the subsequent one-pot hydrogenation to bibenzyl derivatives using hydrogen gas generated from d-glucose by engineered Escherichia coli DD-2. The formal hydroarylation reaction is biocompatible, occurs in aqueous media at ambient temperature, and affords products in 70–99% overall yield. This is the first reported microbial nanoparticle to catalyze the Sonogashira reaction and the first demonstration that these biogenic catalysts can be interfaced with the products of engineered metabolism for small molecule synthesis.

Published

2022

2. Tracking the Chemical Diversity of Enzymatically Oxidised Lignin

Author

Zak Towle, Faye Cruickshank, C. Logan Mackay, David J. Clarke, and Louise E. Horsfall

Abstract

Lignin is a complex heteroaromatic polymer which is one of the most abundant and diverse biopolymers on the planet. It comprises approximately one third of all woody plant matter, making it an attractive candidate as an alternative, renewable feedstock to petrochemicals to produce fine chemicals. However, the inherent complexity of lignin makes it difficult to analyse and characterise using common analytical techniques, proving a hindrance to the utilisation of lignin as a green chemical feedstock. Herein we outline the comprehensive tracking of lignin degradation by an alkaliphilic laccase in a semi-quantitative manner using a combined chemical analysis approach utilising Fourier transform ion cyclotron resonance mass spectrometry (FT-ICR MS) to characterise shifts in chemical diversity and relative abundance of ions, and NMR to highlight changes in the structure of lignin. Specifically, an alkaliphilic laccase was used to degrade an industrially relevant lignin, with compounds such as syringaresinol being almost wholly removed (95%) after 24 hours of treatment. Additionally, structural analyses reinforced these findings, indicating a >50% loss of signal relating to β-β linkages, of which syringaresinol is representative. Ultimately, this work underlines a combined analytical approach that can be used to gain a broader semi-quantitative understanding of the enzymatic activity of laccases within a complex, non-model mixture.

Published

2023

3. Roadmap for a sustainable circular economy in lithium-ion and future battery technologies

Author

Gavin D J Harper, Emma Kendrick, Paul A Anderson, Wojciech Mrozik, Paul Christensen, Simon Lambert, David Greenwood, Prodip K Das, Mohamed Ahmeid, Zoran Milojevic, Wenjia Du, Dan J L Brett, Paul R Shearing, Alireza Rastegarpanah, Rustam Stolkin, Roberto Sommerville, Anton Zorin, Jessica L Durham, Andrew P Abbott, Dana Thompson, Nigel D Browning, B Layla Mehdi, Mounib Bahri, Felipe Schanider-Tontini, D Nicholls, Christin Stallmeister, Bernd Friedrich, Marcus Sommerfeld, Laura L Driscoll, Abbey Jarvis, Emily C Giles, Peter R Slater, Virginia Echavarri-Bravo, Giovanni Maddalena, Louise E Horsfall, Linda Gaines, Qiang Dai, Shiva J Jethwa, Albert L Lipson, Gary A Leeke, Thomas Cowell, Joseph Gresle Farthing, Greta Mariani, Amy Smith, Zubera Iqbal, Rabeeh Golmohammadzadeh, Luke Sweeney, Vannessa Goodship, Zheng Li, Jacqueline Edge, Laura Lander, Viet Tien Nguyen, Robert J R Elliot, Oliver Heidrich, Margaret Slattery, Daniel Reed, Jyoti Ahuja, Aleksandra Cavoski, Robert Lee, Elizabeth Driscoll, Jen Baker, Peter Littlewood, Iain Styles, Sampriti Mahanty, and Frank Boons

Subjects

HB Economic Theory, Q Science, General Energy, Materials Science (miscellaneous), Materials Chemistry, ddc:530, QD Chemistry, T Technology

Abstract

JPhys energy 5(2), 021501 (2023). doi:10.1088/2515-7655/acaa57, Published by IOP Publishing, Bristol

Published

2023

4. Selective bacterial separation of critical metals:Towards a sustainable method for recycling lithium ion batteries

Author

Virginia Echavarri-Bravo, Houari Amari, Jennifer Hartley, Giovanni Maddalena, Caroline Kirk, Maarten W. Tuijtel, Nigel D. Browning, and Louise E. Horsfall

Subjects

Environmental Chemistry, Pollution

Abstract

The large scale recycling of lithium ion batteries (LIBs) is essential to satisfy global demands for the raw materials required to implement this technology as part of a clean energy strategy. However, despite what is rapidly becoming a critical need, an efficient and sustainable recycling process for LIBs has yet to be developed. Biological reactions occur with great selectivity under mild conditions, offering new avenues for the implementation of more environmentally sustainable processes. Here, we demonstrate a sequential process employing two bacterial species to recover Mn, Co and Ni, from vehicular LIBs through the biosynthesis of metallic nanoparticles, whilst Li remains within the leachate. Moreover the feasibility of Mn recovery from polymetallic solutions was demonstrated at semi-pilot scale in a 30 L bioreactor. Additionally, to provide insight into the biological process occurring, we investigated selectivity between Co and Ni using proteomics to identify the biological response and confirm the potential of a bio-based method to separate these two essential metals. Our approach determines the principles and first steps of a practical bio-separation and recovery system, underlining the relevance of harnessing biological specificity for recycling and up-cycling critical materials.

Published

2022

5. Palladium Nanoparticles from

Author

Yuta, Era, Jonathan A, Dennis, Louise E, Horsfall, and Stephen, Wallace

Abstract

Transition-metal nanoparticles produced by living bacteria are emerging as novel catalysts for sustainable synthesis. However, the scope of their catalytic activity and their ability to be integrated within metabolic pathways for the bioproduction of non-natural small molecules has been underexplored. Herein we report that Pd nanoparticles synthesized by the sulfate-reducing bacterium

Published

2022