BYD

Last updated February 1, 2026

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Selective ion exchange adsorbent matrix: BYDRecent Research Landscape

Low lithium recovery rates from complex brines and waste streams increase raw material costs. These innovations engineer specific adsorbent surface chemistries and thermal coupling to maximize extraction efficiency.

What technical problems is BYD addressing in Selective ion exchange adsorbent matrix?

Low lithium recovery efficiency

(16)evidences

Conventional extraction methods suffer from poor selectivity and low yield when processing complex waste streams or dilute brines. Improving recovery rates enables economically viable lithium sourcing from non-traditional materials.

Low resource recovery efficiency

(12)evidences

Irreversible loss of active lithium during cycling and extraction processes reduces energy density and resource recovery efficiency. Addressing this loss extends battery cycle life and improves material sustainability.

Inefficient brine lithium recovery

(7)evidences

Low extraction yields and high energy requirements in salt lake processing. Improving recovery efficiency enables economical lithium sourcing for battery supply chains.