Properties on demand in CQDs for tailored design of liquid separation performance in membranes

•The past decade has witnessed an explosion in the field of sustainable materials, spearheaded by the design and synthesis of novel CQDs.•The key selling points of CQDs pave the path for a brand-new generation of liquid membrane processes.•Practical control of CQDs is a precondition for breaking the...

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Bibliographic Details
Published in:Chemical engineering journal (Lausanne, Switzerland : 1996) Switzerland : 1996), 2024-10, Vol.497, p.154862, Article 154862
Main Authors: Nazari, Safoora, Akbar Zinatizadeh, Ali, Rezaei, Hooman, Mohammadi, Parviz, Zinadini, Sirus, Li, Qin
Format: Article
Language:English
Subjects:
Carbon quantum dots
Liquid separation
Membrane
Properties on demand
Property-performance relationship
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Summary:•The past decade has witnessed an explosion in the field of sustainable materials, spearheaded by the design and synthesis of novel CQDs.•The key selling points of CQDs pave the path for a brand-new generation of liquid membrane processes.•Practical control of CQDs is a precondition for breaking the trade-off between benchmark parameters in membrane separation technologies.•Properties on demand’ may now be reliably obtained in CQD-incorporated membranes. The key to developing synthetic membranes for large-scale, energy-efficient liquid separations is materials research. In the domains of materials science and chemistry, carbon quantum dot (CQD) is a rising star. Whereas the efficiency of membrane separation applications can be proven only when commercial products are available, CQD no longer requires any added layer of its importance in terms of fundamental chemistry. Albeit still in its infancy, this strictly zero-dimensional material has already revealed a cornucopia of potential membrane separation applications, serving as a fertile groundfor this technology. More broadly, a new paradigm of properties on demand has emerged as a consequence of CQDs’ exceptionally high tunability and biocompatibility, allowing for the tailored design of liquid-separation membranes in table-topinvestigations, all of which are systematically discussed here. In this review, we highlight the key selling points of CQDs in the property-performance relationships of CQD-incorporated membranes, delivering insights into these materials’ potential that may eventually lead to their use in membrane separation. These cutting-edge materials pave the path for a brand-new generation of membrane processes that surpass the boundaries of existing approaches and materials.
ISSN:1385-8947
DOI:10.1016/j.cej.2024.154862