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Biosensing Articles & Analysis
14 articles found
Advantages of Using Fluorescent Polystyrene Particles in Biosensing High brightness and tunable emission wavelengths for multiplexing Fluorescent polystyrene particles have extraordinary brightness compared to other labels. This translates into stronger signals in biosensing assays, resulting in increased sensitivity and easier detection of target molecules. ...
PEG can also prolong the cyclic half-life of AuNPs, thus allowing the reticuloendothelial system to uptake and remove nanoparticles. Biosensing In terms of sensitivity and specificity, gold nanoparticles have become an important diagnostic tool, especially in the field of virology. ...
This synergistic integration of AI and advanced automation technologies can significantly accelerate the development of biomaterials with tailored surface characteristics, unlocking new possibilities in areas such as tissue engineering, implant design, and biosensing. The Future of AI-Driven Biomaterials Innovation As the field of biomaterials continues to evolve, the ...
These excellent optical properties are particularly suitable as fluorescence sensors for biological applications, such as fluorescence imaging, biosensing, drug delivery, and disease diagnosis and treatment. Reference Yu Jin Jang, Eunah Kim, Seonghyeon Ahn, Kyungwha Chung, Jihyeon Kim, Heejun Kim, Huan Wang, Jiseok Lee, Dong-Wook Kim, Dong Ha Kim. ...
Contexte Diet and physical activity are key drivers of an individual's health status, however there is no way to assess their effects individually and in real time. There are therefore many generic solutions that aim to fight overweight and promote well-being through diet and physical activity. However, all of the proposed solutions do not take into account the genetic and metabolic ...
The statement above relates very well to the demand to measure more and more about our lives—one option available to achieve this improvement is through the development of electrochemical sensors. Sensor manufacturing is in high demand and is expected to grow exponentially in the coming ...
ByB&W Tek
In particular, MFC-based biosensors are considered to be the next generation biosensing technology for environmental monitoring. This review describes recent advances in this emerging technology of MFC-based biosensors, with a special emphasis on monitoring of biochemical oxygen demand and toxicity in the environment. The progress confirms that MFC-based biosensors could be used ...
This review covers several papers published recently, highlighting the improvement reached in this field of research.Keywords: affinity–based detection, electrochemical biosensors, optical biosensors, environmental monitoring, heavy metals, health hazards, health risks, pollution monitoring, environmental pollution, ...
These results demonstrate that zinc oxide nanostructures have potential applications in biosensors.Keywords: electrochemical biosensors, nanotetrapods, zinc oxide, glucose detection, biosensing, nanotechnology, ...
Two points will be addressed: investigations of protein/lipid interactions using lipid monolayers as membrane models and biosensing applications. The objectives are to highlight advantages of interfacial Langmuir monolayers and supported Langmuir-Blodgett films to investigate molecular interactions between biomolecules and lipid membrane components or to elaborate biomimetic ...
The dimensional parameters for these structures, namely type of lattice, lattice parameter and radius of the holes, were chosen so as to show a photonic band gap relevant to the infrared range, aiming at their subsequent use in the field of chemical sensing and biosensing. The optical behaviour of these structures was determined by calculating the band structure for the TM ...
In this paper, we outline recent progress in our laboratory to develop nanostructured inorganic semiconductors – quantum dots (QDs), and nanostructured organic semiconductors based on polyaniline (PANI), for biosensing applications. Blue luminescent CdTe QDs were prepared directly from an aqueous solution via photo-irradiation and used to demonstrate a simple homogenous DNA ...
The ability of the developed integrated silicon optocoupler for label-free analyte determinations is also discussed.Keywords: monolithic optocouplers, biosensors, lab-on-a-chip, silicon optocouplers, biosensing, microfluidics, real-time sensing, multiple analytes, biotin-streptavidin model assay, molecules, molecular binding, gold nanoparticles, nanotechnology, Greece, multiple ...
The internal nanostructure and optical properties of mesoporous silicon rugate filters prepared on different p+ type silicon substrates are compared for applications in biosensing. Chemical derivatisation of the internal surface by undecenoic acid hydrosilylation results in red-shifting of the resonant wavelength of the filter, whereby the magnitude of the red shift is found to ...