NanoBiosensing
Principles, Development and Application
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Wearable optical sensors have emerged as a promising technology, opening up a new way to monitor human sweat. With the advancement of integrated optical devices, optical materials, and structure design, the cu...
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High-performance wearable electronics are highly desirable for the development of body warming and human health monitoring devices. In the present study, high electrically conductive and photothermal cotton ya...
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Natural polyphenols (NPPs) are of widespread interest in material engineering; however, only a small fraction of NPPs have been utilized in biomedical applications because of their poor solubility and instabil...
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Wearable sweat sensors with various sensing systems can provide noninvasive medical diagnostics and healthcare monitoring. Here, we demonstrate a wearable microfluidic nanoplasmonic sensor capable of refreshab...
Article
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With the rapid development of smart products, flexible and stretchable smart wearable electronic devices gradually play an important role, and they are considered as the pioneers of the new generation of flexi...
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Yolk@shell mesoporous nanoparticles have received close attention due to their controllable structures and integrated functions. However, most yolk@shell nanosystems lack self-propulsion. Herein, yolk@spiky-sh...
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Two-dimensional (2D) ultrathin SiC has received intense attention due to its broad band gap and resistance to large mechanical deformation and external chemical corrosion. However, the synthesis and applicatio...
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Gold nanoparticle (Au NP)@ZnO nanorod (NR) (Au@ZnO) hybrids with various ZnO:Au molar ratios were developed to enhance the generation of reactive oxygen species (ROS) in photodynamic therapy (PDT) applications...
Book
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Since nitric oxide (NO) was biologically identified as an endothelium-derived relaxing factor in 1987 [1], there has been a great increase in the research of its chemistry, biology, and therapeutic actions. In...
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Taste and smell are the two human senses that are chemical in nature. However, they have not been as successfully replicated with sensors, probably because of the complexity of the human system [1]. Although ...
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The unique properties of nanoscale materials (1–200 nm) offer excellent platforms for electronic or optical signal transduction and the design of a new generation of bioelectronic and biosensing devices. Howev...
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Carbohydrates, which are defined as polyhydroxyaldehydes or polyhydroxyketones, or larger compounds that can be hydrolyzed into such units, are ubiquitous in the living world. Carbohydrates act as the sources ...
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Accurate, rapid, inexpensive, and selective analysis is required today for use in clinical diagnostics and the food industry. The majority of known electrochemical biosensors are based on immobilized specific ...
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Nucleic acids, including deoxyribonucleic acid (DNA) and ribonucleic acid (RNA), are required for the storage and expression of genetic information. DNA is present not only in chromosomes in the nucleus of euk...
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The history of carbon nanofiber (CNF) can go back more than a century. It was reported in a patent published in 1889 that carbon filaments are grown from carbon-containing gases using a metallic crucible as th...
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Technological platforms that provide the reliable, rapid, quantitative, cheap, and high-throughput identification of biomolecules play a significant role in the clinical deployment of personalized treatment [1...
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Since their discovery, carbon nanotubes (CNTs) have been extensively investigated as essential platforms in constructing electrochemical biosensors. CNTs can be classified into two basic varieties: single-wall...
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Chemical sensors and biosensors have attracted considerable attention within the field of modern analytical chemistry, as seen both from the number of publications and from the diversity of approaches and tech...