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Item:OSW72e733f317ef4cf9b8ca53e906c9acb9: Difference between revisions
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!Year | !Year | ||
!DOI | !DOI | ||
|- | |||
|Autonomous Battery Optimization by Deploying Distributed Experiments and Simulations | |||
|Advanced Energy Materials | |||
|2024 | |||
|https://doi.org/10.1002/aenm.202403263 | |||
|- | |||
|Materials acceleration platforms (MAPs): accelerating materials research and development to meet urgent societal challenges | |||
|Advanced Materials | |||
|2024 | |||
|https://doi.org/10.1002/adma.202407791 | |||
|- | |||
|Surface, Structural, and Electrochemical Analysis of High-Voltage Spinel Cathode LiNi0. 5Mn1. 5O4 Evolution Upon Ambient Storage Conditions | |||
|Journal of the Electrochemical Society | |||
|2023 | |||
|{{Template:Viewer/Link|page=|url=https://doi.org/10.1149/1945-7111/ad0263|label=https://doi.org/10.1149/1945-7111/ad0263}} | |||
|- | |||
|Brokering between tenants for an international materials acceleration platform | |||
|Matter | |||
|2023 | |||
|https://doi.org/10.1016/j.matt.2023.07.016 | |||
|- | |||
|Principles of the Battery Data Genome | |||
|Joule | |||
|2022 | |||
|https://doi.org/10.1016/j.joule.2022.08.008 | |||
|- | |- | ||
|A roadmap for transforming research to invent the batteries of the future designed within the european large scale research initiative battery 2030+ | |A roadmap for transforming research to invent the batteries of the future designed within the european large scale research initiative battery 2030+ | ||
| Line 53: | Line 78: | ||
|2022 | |2022 | ||
|https://doi.org/10.1002/aenm.202102785 | |https://doi.org/10.1002/aenm.202102785 | ||
|- | |||
|Rechargeable batteries of the future—the state of the art from a BATTERY 2030+ perspective | |||
|Advanced Energy Materials | |||
|2022 | |||
|https://doi.org/10.1002/aenm.202102904 | |||
|- | |- | ||
|Digitalization of battery manufacturing: current status, challenges, and opportunities | |Digitalization of battery manufacturing: current status, challenges, and opportunities | ||
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|2021 | |2021 | ||
|https://doi.org/10.1016/j.jpowsour.2020.229309 | |https://doi.org/10.1016/j.jpowsour.2020.229309 | ||
|- | |||
|Data Management Plans: the Importance of Data Management in the BIG‐MAP Project | |||
|Batteries & Supercaps | |||
|2021 | |||
|https://doi.org/10.1002/batt.202100117 | |||
|- | |||
|Cold sintering as a cost-effective process to manufacture porous zinc electrodes for rechargeable zinc-air batteries | |||
|Processes | |||
|2020 | |||
|https://doi.org/10.3390/pr8050592 | |||
|- | |||
|Designing aqueous organic electrolytes for zinc–air batteries: method, simulation, and validation | |||
|Advanced Energy Materials | |||
|2020 | |||
|https://doi.org/10.1002/aenm.201903470 | |||
|- | |||
|Towards Rechargeable Zinc-Air Batteries with Aqueous Chloride Electrolytes | |||
|Journal of Materials Chemistry A | |||
|2019 | |||
|https://doi.org/10.1039/C9TA01190K | |||
|- | |||
|A review of model-based design tools for metal-air batteries | |||
|Batteries | |||
|2018 | |||
|https://doi.org/10.3390/batteries4010005 | |||
|- | |- | ||
|Rational development of neutral aqueous electrolytes for zinc–air batteries | |Rational development of neutral aqueous electrolytes for zinc–air batteries | ||
| Line 73: | Line 128: | ||
|2017 | |2017 | ||
|https://doi.org/10.1002/cssc.201701468 | |https://doi.org/10.1002/cssc.201701468 | ||
|} | |||
=== Book Chapters === | |||
{| class="wikitable" | |||
|+ | |||
!Title | |||
!Book | |||
!Year | |||
!DOI | |||
|- | |||
|<nowiki>Batteries – Battery Types – Zinc Batteries | Overview</nowiki> | |||
|Encyclopedia of Electrochemical Power Sources | |||
|2024 | |||
|https://doi.org/10.1016/B978-0-323-96022-9.00070-0 | |||
|- | |||
|Modeling and simulation of metal-air batteries | |||
|Electrochemical Power Sources: Fundamentals, Systems, and Applications | |||
|2021 | |||
|https://doi.org/10.1016/B978-0-444-64333-9.00009-6 | |||
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=== Datasets === | === Datasets === | ||
==== Battery Test Data ==== | |||
{| class="wikitable" | {| class="wikitable" | ||
!Title | !Title | ||
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|This dataset contains time series data collected during constant-current discharge of a VARTA CR2032 lithium coin cell at 11 mA using a BioLogic battery cycler. | |This dataset contains time series data collected during constant-current discharge of a VARTA CR2032 lithium coin cell at 11 mA using a BioLogic battery cycler. | ||
|https://doi.org/10.5281/zenodo.15067969 | |https://doi.org/10.5281/zenodo.15067969 | ||
|} | |||
==== RDF Resources ==== | |||
{| class="wikitable" | |||
!Title | |||
!Descrption | |||
!DOI | |||
|- | |||
|EMMO | |||
| | |||
| | |||
|- | |||
|BattINFO | |||
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|- | |||
|domain-battery | |||
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|- | |||
|domain-electrochemistry | |||
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|domain-chemical-substance | |||
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|} | |||
=== Software === | |||
{| class="wikitable" | |||
!Title | |||
!Descrption | |||
!Repository | |||
!DOI | |||
|- | |||
|BattMo.m | |||
|A framework for continuum simulations of electrochemical devices in MATLAB | |||
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|BattMo.jl | |||
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|- | |||
|cold | |||
|A python package for creating ontology-based linked data | |||
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|} | |} | ||