SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4386867046> ?p ?o ?g. }

Showing items 1 to 70 of 70 with 100 items per page.

W4386867046 endingPage "761" @default.
W4386867046 startingPage "761" @default.
W4386867046 abstract "Energy storage systems which meet the requirement for long-duration energy storage (LDES) are critical to enable widespread adoption of intermittent renewables (e.g., solar and wind) on the electric grid. DOE’s Long Duration Storage Shot has set an ambitious goal of reducing energy storage costs ≥90% by 2030. To address this challenge, the proposed work is aimed at developing low-cost, high-energy redox flow batteries (RFBs) based on earth-abundant active materials. Prior work on room temperature Na 2 S x catholytes demonstrated outstanding reversibility and cycling stability in batch and flow cell configurations (e.g., reversible capacities ~200 mAh/g S with negligible fade over 250 cycles and several months of continuous testing). While precipitation of low-order polysulfides (x≤4) during discharge doesn’t negatively impact the performance of lab-scale prototypes, these ionically/electronically insulating species will present major challenges for system scaleup (e.g., inhibited charge transfer due to current collector passivation). As such, the practical cycling window of Na 2 S x is restricted to soluble species (5≤x≤8) with a sulfur utilization of 125 mAh/g S . To improve the viability of room temperature Na/Na 2 S x RFBs, our team recently discovered that the addition of P 2 S 5 greatly increases the solubility of low-order sodium polysulfides through formation of previously unknown Na-P-S solvated complexes. This general class of sodium thiophosphates has tremendous, untapped potential for next-generation nonaqueous catholytes and can potentially enable reversible Na capacities exceeding 1,000 mAh/g. This presentation will describe ongoing efforts aimed at: (i) assessing key properties (electrochemical reversibility, solubility, chemical stability) of sodium thiophosphates in nonaqueous electrolytes, (ii) benchmarking the performance of lab-scale RFB prototypes containing Na-P-S catholytes and ceramic membranes, and (iii) quantifying voltage losses on electrodes polarized far from equilibrium using 3 electrode AC impedance measurements. Acknowledgements This research was conducted at Oak Ridge National Laboratory, managed by UT Battelle, LLC, for the U.S. Department of Energy (DOE) and is sponsored by the U.S. Department of Energy through the Energy Storage Program in the Office of Electricity." @default.
W4386867046 created "2023-09-20" @default.
W4386867046 creator A5048663188 @default.
W4386867046 creator A5075057187 @default.
W4386867046 creator A5084122532 @default.
W4386867046 date "2023-08-28" @default.
W4386867046 modified "2023-09-27" @default.
W4386867046 title "Sodium Metal Hybrid Redox Flow Batteries Containing Sulfide and Thiophosphate Catholytes" @default.
W4386867046 doi "https://doi.org/10.1149/ma2023-013761mtgabs" @default.
W4386867046 hasPublicationYear "2023" @default.
W4386867046 type Work @default.
W4386867046 citedByCount "0" @default.
W4386867046 crossrefType "journal-article" @default.
W4386867046 hasAuthorship W4386867046A5048663188 @default.
W4386867046 hasAuthorship W4386867046A5075057187 @default.
W4386867046 hasAuthorship W4386867046A5084122532 @default.
W4386867046 hasConcept C121332964 @default.
W4386867046 hasConcept C127413603 @default.
W4386867046 hasConcept C163258240 @default.
W4386867046 hasConcept C171250308 @default.
W4386867046 hasConcept C178790620 @default.
W4386867046 hasConcept C179104552 @default.
W4386867046 hasConcept C185592680 @default.
W4386867046 hasConcept C192562407 @default.
W4386867046 hasConcept C2777878547 @default.
W4386867046 hasConcept C2778278100 @default.
W4386867046 hasConcept C2779227376 @default.
W4386867046 hasConcept C33574316 @default.
W4386867046 hasConcept C42360764 @default.
W4386867046 hasConcept C555008776 @default.
W4386867046 hasConcept C55904794 @default.
W4386867046 hasConcept C73916439 @default.
W4386867046 hasConcept C97355855 @default.
W4386867046 hasConceptScore W4386867046C121332964 @default.
W4386867046 hasConceptScore W4386867046C127413603 @default.
W4386867046 hasConceptScore W4386867046C163258240 @default.
W4386867046 hasConceptScore W4386867046C171250308 @default.
W4386867046 hasConceptScore W4386867046C178790620 @default.
W4386867046 hasConceptScore W4386867046C179104552 @default.
W4386867046 hasConceptScore W4386867046C185592680 @default.
W4386867046 hasConceptScore W4386867046C192562407 @default.
W4386867046 hasConceptScore W4386867046C2777878547 @default.
W4386867046 hasConceptScore W4386867046C2778278100 @default.
W4386867046 hasConceptScore W4386867046C2779227376 @default.
W4386867046 hasConceptScore W4386867046C33574316 @default.
W4386867046 hasConceptScore W4386867046C42360764 @default.
W4386867046 hasConceptScore W4386867046C555008776 @default.
W4386867046 hasConceptScore W4386867046C55904794 @default.
W4386867046 hasConceptScore W4386867046C73916439 @default.
W4386867046 hasConceptScore W4386867046C97355855 @default.
W4386867046 hasIssue "3" @default.
W4386867046 hasLocation W43868670461 @default.
W4386867046 hasOpenAccess W4386867046 @default.
W4386867046 hasPrimaryLocation W43868670461 @default.
W4386867046 hasRelatedWork W2021099451 @default.
W4386867046 hasRelatedWork W2021116773 @default.
W4386867046 hasRelatedWork W2140946262 @default.
W4386867046 hasRelatedWork W2408218962 @default.
W4386867046 hasRelatedWork W2748952813 @default.
W4386867046 hasRelatedWork W2899084033 @default.
W4386867046 hasRelatedWork W2936188404 @default.
W4386867046 hasRelatedWork W2949894407 @default.
W4386867046 hasRelatedWork W2952478468 @default.
W4386867046 hasRelatedWork W4232552561 @default.
W4386867046 hasVolume "MA2023-01" @default.
W4386867046 isParatext "false" @default.
W4386867046 isRetracted "false" @default.
W4386867046 workType "article" @default.