Journal
MATERIALS TODAY
Volume 50, Issue -, Pages 533-569Publisher
ELSEVIER SCI LTD
DOI: 10.1016/j.mattod.2021.07.025This
Keywords
Zinc oxide; 0D and 1D nanostructures; Cytotoxicity and biocompatibility; Cancer nanotechnology; Cancer management
Categories
Funding
- CONACyT [CVU 860916, PN 4797, IG100320]
- DGAPA project [PAPIIT IA101321]
- Swedish Research Council (VR) [2016-06014]
- Interreg Deutschland-Denmark
- European Regional Development Fund [096-1.1-18]
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0D and 1D zinc oxide (ZnO) show promise as bioapplications in the fields of cancer diagnosis and treatment, offering high performance, biological compatibility, and the ability to identify molecular features of cancer biomarkers. Their use as sensors and treatment tools has the potential to revolutionize cancer diagnostics and patient health monitoring.
As bioapplications of 0D and 1D zinc oxide (ZnO) seem a recent development, they have brought many exciting proposals showing exquisite signs as sensors and assay platforms offering biomolecular selectivity and sensitivity for cancer diagnosis and treatment. Cancer researchers are looking for diagnostic and molecular instruments to identify the cancer-causing agents and subtle molecular shifts. The inclusion of high-performance ZnO materials due to their intrinsic properties such as viability, bio-acceptability, high isoelectric point, tunable morphology, etc., is promising for targeted detection and treatment processes. More specifically, ZnO nanowires (NWs) have offered the opportunity to yield new types of approaches against targeted cancer in contrast to their 0D counterparts. The ability of ZnO NW sensors to identify the molecular features (i.e., biomarker) of cancer and their integration portability has the potential to revolutionize cancer diagnosis and patient health monitoring timely and efficiently. Despite being robust, tunable properties based on surface chemistry and eco-friendly, scalable opportunities are yet to be explored. This review considers captivating research advances to identify and understand fundamental properties and examine various biosensing approaches and nanomedicine (via performing targeted drug delivery or therapeutic) aspects utilizing them while paying attention to different size regimes of ZnO NWs. The high-performance role of 0D and 1D ZnO as biosensors, capture devices, cell imaging complexes, or treatment is addressed on the bases of the controlled functions such as enhanced adsorption, reactivity, surface chemistry, cytotoxicity, and biocompatibility in various biological systems and models. With a comparative viewpoint, 0D and 1D ZnO nanostructures are going to emerge as breakthrough candidates for diagnostics and treatment of cancer effectively and efficiently.
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