Fiona C Strobridge

Overview

Explore the profile of Fiona C Strobridge including associated specialties, affiliations and a list of published articles.

Snapshot

Articles 8

Citations 129

Followers 0

Related Specialties

Biology

Science

Chemistry

Top 10 Co-Authors

Clare P Grey

Young-Sang Yu

Jordi Cabana

John Joseph

Raphaele J Clement

Peter J Chupas

Rich Celestre

Chunjoong Kim

Karena W Chapman

Maryam Farmand

Published In

Nano Lett

Chem Commun (Camb)

Chem Mater

Nat Commun

J Am Chem Soc

Affiliations

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Recent Articles

Three-dimensional localization of nanoscale battery reactions using soft X-ray tomography

Yu Y, Farmand M, Kim C, Liu Y, Grey C, Strobridge F, et al.

Nat Commun . 2018 Mar; 9(1):921. PMID: 29500344

Battery function is determined by the efficiency and reversibility of the electrochemical phase transformations at solid electrodes. The microscopic tools available to study the chemical states of matter with the...

Localized concentration reversal of lithium during intercalation into nanoparticles

Zhang W, Yu H, Wu L, Liu H, Abdellahi A, Qiu B, et al.

Sci Adv . 2018 Jan; 4(1):eaao2608. PMID: 29340302

Nanoparticulate electrodes, such as Li FePO, have unique advantages over their microparticulate counterparts for the applications in Li-ion batteries because of the shortened diffusion path and access to nonequilibrium routes...

Nanoscale Detection of Intermediate Solid Solutions in Equilibrated LiFePO Microcrystals

May B, Yu Y, Holt M, Strobridge F, Boesenberg U, Grey C, et al.

Nano Lett . 2017 Nov; 17(12):7364-7371. PMID: 29166027

Redox-driven phase transformations in solids determine the performance of lithium-ion batteries, crucial in the technological transition from fossil fuels. Couplings between chemistry and strain define reversibility and fatigue of an...

Dependence on Crystal Size of the Nanoscale Chemical Phase Distribution and Fracture in LixFePO₄

Yu Y, Kim C, Shapiro D, Farmand M, Qian D, Tyliszczak T, et al.

Nano Lett . 2015 Jun; 15(7):4282-8. PMID: 26061698

The performance of battery electrode materials is strongly affected by inefficiencies in utilization kinetics and cycle life as well as size effects. Observations of phase transformations in these materials with...

Identifying the Structure of the Intermediate, LiCoPO, Formed during Electrochemical Cycling of LiCoPO

Strobridge F, Clement R, Leskes M, Middlemiss D, Borkiewicz O, Wiaderek K, et al.

Chem Mater . 2015 May; 26(21):6193-6205. PMID: 25960604

In situ synchrotron diffraction measurements and subsequent Rietveld refinements are used to show that the high energy density cathode material LiCoPO (space group ) undergoes two distinct two-phase reactions upon...

Batteries. Capturing metastable structures during high-rate cycling of LiFePO₄ nanoparticle electrodes

Liu H, Strobridge F, Borkiewicz O, Wiaderek K, Chapman K, Chupas P, et al.

Science . 2014 Jun; 344(6191):1252817. PMID: 24970091

The absence of a phase transformation involving substantial structural rearrangements and large volume changes is generally considered to be a key characteristic underpinning the high-rate capability of any battery electrode...

Spin-transfer pathways in paramagnetic lithium transition-metal phosphates from combined broadband isotropic solid-state MAS NMR spectroscopy and DFT calculations

Clement R, Pell A, Middlemiss D, Strobridge F, Miller J, Whittingham M, et al.

J Am Chem Soc . 2012 Sep; 134(41):17178-85. PMID: 23004936

Substituted lithium transition-metal (TM) phosphate LiFe(x)Mn(1-x)PO(4) materials with olivine-type structures are among the most promising next generation lithium ion battery cathodes. However, a complete atomic-level description of the structure of...

Mechanochemistry of magnesium oxide revisited: facile derivatisation of pharmaceuticals using coordination and supramolecular chemistry

Chow E, Strobridge F, Friscic T

Chem Commun (Camb) . 2010 Aug; 46(34):6368-70. PMID: 20714540

Liquid-assisted grinding allows the rapid, waste-free and one-pot synthesis of a variety of magnesium drug derivatives directly from the excipient MgO; such reactivity is relevant for the behaviour of ibuprofen...