Optical characteristics and biosensing application of core@shell nanomaterials

IF 2.2 Q3 MATERIALS SCIENCE, MULTIDISCIPLINARY
Sarita Shaktawat , Kshitij RB Singh , Sushma Thapa , Ranjana Verma , Jay Singh , Ravindra Pratap Singh
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引用次数: 0

Abstract

Core@shell nanomaterials are a class of materials containing a core and a shell, both at the nanometer scale, as they have become a consequential research interest owing to their optical, electrical, and magnetic properties. Moreover, various core@shell nanomaterials have also emerged in many other fields, such as catalysis, pharmaceuticals, and biomedical due to their less toxicity, surface area, good biocompatibility, adequate penetration power for biological tissue, and selectivity for target molecules. Hence, this review covers the optical properties of core@shell nanomaterials and biosensors based on various core@shell nanomaterials, for example, inorganic@inorganic (Au@Ag), organic@inorganic (polyurethane@Au), inorganic@organic (CeO2@polyaniline), and organic@organic (poly(vinylidene difluoride)@dopamine) for biomedical applications; along with this, it also discusses the advantage and disadvantage of core@shell nanomaterials.

Abstract Image

core@shell纳米材料的光学特性及生物传感应用
Core@shell纳米材料是一类包含核和壳的材料,都是在纳米尺度上,因为它们已经成为一个重要的研究兴趣,因为它们具有光学,电学和磁性。此外,各种core@shell纳米材料由于其毒性小、表面积大、生物相容性好、对生物组织有足够的穿透能力、对靶分子有选择性等优点,也出现在催化、制药、生物医学等许多其他领域。因此,本综述涵盖了核壳纳米材料的光学性质和基于各种核壳纳米材料的生物传感器,例如:无机无机(Au@Ag),有机无机(聚氨酯@ au),无机有机(ceo2 @聚苯胺)和有机有机(聚(乙烯二氟乙烯)@多巴胺)用于生物医学应用;同时,还讨论了core@shell纳米材料的优缺点。
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来源期刊
CiteScore
3.10
自引率
0.00%
发文量
50
审稿时长
114 days
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