SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2977887789> ?p ?o ?g. }

Showing items 1 to 100 of ±167 with 100 items per page.

W2977887789 endingPage "6674" @default.
W2977887789 startingPage "6665" @default.
W2977887789 abstract "Electroplating has been studied for centuries, not only in the laboratory but also in industry for machinery, electronics, automobile, aviation, and other fields. The lithium-metal anode is the Holy Grail electrode because of its high energy density. But the recyclability of lithium-metal batteries remains quite challenging. The essence of both conventional electroplating and lithium plating is the same, reduction of metal cations. Thus, industrial electroplating knowledge can be applied to revisit the electroplating process for lithium-metal anodes. In conventional electroplating, some strategies like using additives, modifying substrates, applying pulse current, and agitating electrolyte have been explored to suppress dendrite growth. These methods are also effective in lithium-metal anodes. Inspired by that, we revisit the fundamental electroplating theory for lithium-metal anodes in this Minireview, mainly drawing attention to the theory of electroplating thermodynamics and kinetics. Analysis of essential differences between traditional electroplating and plating/stripping of lithium-metal anodes is also presented. Thus, industrial electroplating knowledge can be applied to the electroplating process of lithium-metal anodes to improve commercial lithium-metal batteries and the study of lithium plating/stripping can further enrich the classical electroplating technique." @default.
W2977887789 created "2019-10-10" @default.
W2977887789 creator A5001877853 @default.
W2977887789 creator A5010857597 @default.
W2977887789 creator A5022440235 @default.
W2977887789 creator A5023178813 @default.
W2977887789 creator A5026770572 @default.
W2977887789 creator A5051574079 @default.
W2977887789 date "2020-03-24" @default.
W2977887789 modified "2023-10-02" @default.
W2977887789 title "Revisiting the Electroplating Process for Lithium‐Metal Anodes for Lithium‐Metal Batteries" @default.
W2977887789 cites W1500160828 @default.
W2977887789 cites W1536009733 @default.
W2977887789 cites W1615371353 @default.
W2977887789 cites W1972767018 @default.
W2977887789 cites W1973040157 @default.
W2977887789 cites W1976221331 @default.
W2977887789 cites W1987452691 @default.
W2977887789 cites W2012532282 @default.
W2977887789 cites W2019961433 @default.
W2977887789 cites W2023765146 @default.
W2977887789 cites W2026081217 @default.
W2977887789 cites W2026762875 @default.
W2977887789 cites W2038864368 @default.
W2977887789 cites W2047775546 @default.
W2977887789 cites W2049607920 @default.
W2977887789 cites W2059185540 @default.
W2977887789 cites W2060701132 @default.
W2977887789 cites W2063407634 @default.
W2977887789 cites W2065714854 @default.
W2977887789 cites W2070416274 @default.
W2977887789 cites W2081753900 @default.
W2977887789 cites W2090455286 @default.
W2977887789 cites W2104139214 @default.
W2977887789 cites W2109365890 @default.
W2977887789 cites W2113627528 @default.
W2977887789 cites W2143795526 @default.
W2977887789 cites W2144792302 @default.
W2977887789 cites W2155489103 @default.
W2977887789 cites W2166608679 @default.
W2977887789 cites W2169251929 @default.
W2977887789 cites W2170601948 @default.
W2977887789 cites W2199211777 @default.
W2977887789 cites W2232077859 @default.
W2977887789 cites W2236094608 @default.
W2977887789 cites W2265160803 @default.
W2977887789 cites W2270669981 @default.
W2977887789 cites W2287078245 @default.
W2977887789 cites W2314908085 @default.
W2977887789 cites W2320624684 @default.
W2977887789 cites W2321099522 @default.
W2977887789 cites W2321197966 @default.
W2977887789 cites W2321696461 @default.
W2977887789 cites W2475485802 @default.
W2977887789 cites W2517513604 @default.
W2977887789 cites W2562307633 @default.
W2977887789 cites W2563615861 @default.
W2977887789 cites W2587767928 @default.
W2977887789 cites W2594331606 @default.
W2977887789 cites W2602657889 @default.
W2977887789 cites W2604150433 @default.
W2977887789 cites W2605497890 @default.
W2977887789 cites W2611684284 @default.
W2977887789 cites W2742075475 @default.
W2977887789 cites W2745687093 @default.
W2977887789 cites W2748084739 @default.
W2977887789 cites W2761617854 @default.
W2977887789 cites W2775817308 @default.
W2977887789 cites W2789555344 @default.
W2977887789 cites W2794189429 @default.
W2977887789 cites W2794264298 @default.
W2977887789 cites W2809742584 @default.
W2977887789 cites W2809801657 @default.
W2977887789 cites W2812155923 @default.
W2977887789 cites W2884571359 @default.
W2977887789 cites W2889821942 @default.
W2977887789 cites W2893606738 @default.
W2977887789 cites W2895898764 @default.
W2977887789 cites W2905391333 @default.
W2977887789 cites W2906889475 @default.
W2977887789 cites W2915569063 @default.
W2977887789 cites W2928006066 @default.
W2977887789 cites W37786364 @default.
W2977887789 cites W4232179986 @default.
W2977887789 cites W4234432259 @default.
W2977887789 cites W4238248867 @default.
W2977887789 cites W4238599304 @default.
W2977887789 cites W4243857769 @default.
W2977887789 cites W4247677569 @default.
W2977887789 doi "https://doi.org/10.1002/anie.201912217" @default.
W2977887789 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/31587466" @default.
W2977887789 hasPublicationYear "2020" @default.
W2977887789 type Work @default.
W2977887789 sameAs 2977887789 @default.
W2977887789 citedByCount "115" @default.
W2977887789 countsByYear W29778877892020 @default.
W2977887789 countsByYear W29778877892021 @default.
W2977887789 countsByYear W29778877892022 @default.