Is this you? As a journalist, you can create a free Muck Rack account to customize your profile, list your contact preferences, and upload a portfolio of your best work.
Claim your profile
Get in touch with Vera Michaela
Contact Vera Michaela, search articles and posts on X, monitor coverage, and track replies from one place.
Learn more about Muck RackActions
Is this you?
As a journalist, you can create a free Muck Rack account to customize your profile, list your contact preferences, and upload a portfolio of your best work.Articles
Enhanced Stability in Zero-Excess Li-Metal Batteries via Prelithiated Carbon Nanofiber Interlayers
1 Introduction The pursuit of higher-energy rechargeable batteries has intensified interest in replacing conventional graphite anodes with lithium metal, which offers the highest known theoretical capacity (3860 mAh g−1) and the low electrochemical potential (−3.04 V vs. Li/Li+) [1]. However, despite these remarkable properties, traditional Li-metal anodes introduce substantial excess lithium metal to compensate for severe irreversible losses, side reactions, and unstable cycling behavior [2, 3].
Actions
Is this you?
As a journalist, you can create a free Muck Rack account to customize your profile, list your contact preferences, and upload a portfolio of your best work.Get in touch with Vera Michaela
Contact Vera Michaela, search articles and posts on X, monitor coverage, and track replies from one place.
Learn more about Muck Rack