Articles with "parasitic reactions" as a keyword



Photo by theshubhamdhage from unsplash

Suppressing the oxygen-related parasitic reactions in NaTi2(PO4)3-based hybrid capacitive deionization with cation exchange membrane.

Sign Up to like & get
recommendations!
Published in 2021 at "Journal of colloid and interface science"

DOI: 10.1016/j.jcis.2021.02.013

Abstract: The parasitic reactions leading to capacity fading and charge loss remain a serious issue for capacitive deionization (CDI). NaTi2(PO4)3 (NTP) has recently emerged as a promising faradaic cathode in hybrid CDI (HCDI) with high Na+… read more here.

Keywords: nati2 po4; cation exchange; capacitive deionization; exchange membrane ... See more keywords
Photo by sharonmccutcheon from unsplash

Interfacial Stabilization of Li2O-Based Cathodes by Malonic-Acid-Functionalized Fullerenes as a Superoxo-Radical Scavenger for Suppressing Parasitic Reactions.

Sign Up to like & get
recommendations!
Published in 2022 at "ACS applied materials & interfaces"

DOI: 10.1021/acsami.2c11844

Abstract: The utilization of an anionic redox reaction as an innovative strategy for overcoming the limitations of cathode capacity in lithium-ion batteries has recently been the focus of intensive research. Li2O-based materials using the anionic (oxygen)… read more here.

Keywords: li2o based; malonic acid; acid functionalized; parasitic reactions ... See more keywords

Chasing protons in lithium-ion batteries.

Sign Up to like & get
recommendations!
Published in 2022 at "Chemical communications"

DOI: 10.1039/d2cc03970b

Abstract: Parasitic reactions between delithiated cathode materials and non-aqueous electrolytes have been a major barrier that limits the upper cutoff potential of cathode materials. It is of great importance to suppress such parasitic reactions to unleash… read more here.

Keywords: ion batteries; lithium ion; parasitic reactions; cathode materials ... See more keywords