How can RFID nano be used in liquids?
Best insight from top research papers
RFID nano can be used in liquids for various applications. One application is the measurement of RFID tag antennas inside pipes filled with liquids. A test bed has been designed specifically for this purpose, allowing for the characterization of fixed or mobile tags deployed in distribution pipes . Another application is the wireless sensing of dielectric properties for organic aqueous solutions. An ultra-high frequency passive label antenna design attached to containers such as borosilicate glass bottles or Petri plates allows for the unobtrusive monitoring of liquid solutions. The frequency characteristics of the meandered dipole antenna adjust with shifting dielectric properties, enabling the detection and identification of different liquids . Additionally, a wireless sensing system has been developed for the evaluation of the complex dielectric permittivity of solvent liquids. Two sensing tags based on cavity resonators and the epsilon-near-zero effect are used, allowing for wireless measurements and real-time monitoring applications .
Answers from top 5 papers
More filters
| Papers (5) | Insight |
|---|---|
21 Jun 2009 22 Citations | The provided paper does not specifically mention the use of RFID nano in liquids. |
03 Nov 2011 1 Citations | The provided paper does not mention the use of RFID nano in liquids. The paper is about an experimental test bed for measuring RFID tag antennas inside pipes filled with liquids. |
26 Citations | The provided paper does not specifically mention the use of RFID nano in liquids. |
67 Citations | The provided paper does not mention the use of RFID nano in liquids. |
02 Jun 2013 | The provided paper does not mention the use of RFID nano in liquids. |
Related Questions
What is the nanofluids?5 answersNanofluids are innovative fluids consisting of nanoparticles suspended in a base fluid, exhibiting enhanced thermophysical properties like thermal conductivity, diffusivity, and heat transfer coefficients compared to the base fluid alone. These nanoparticles, which can vary from oxides to metallic particles, enable the customization of nanofluids for specific applications, such as in automotive, biomedical, and even carbon capture processes. Despite their promising attributes, challenges like scalability, production costs, dispersion stability, and toxicity hinder their widespread commercialization. Nanofluids offer greener solutions to industrial challenges and hold potential for advancements in various sectors, including pharmaceuticals for targeted drug delivery. Further research is crucial to optimize production costs, enhance stability, and unlock the full potential of nanofluid technology.
What nanoparticle is used to stabilize emulsions in sauce?5 answersCurcumin-loaded particles produced by the solid dispersion technique are used to stabilize emulsions in sauce. Dendritic mesoporous silica nanoparticles (DMSNs) and hybrid dendritic mesoporous silica titanium nanoparticles (DMSTNs) are also used for stabilizing emulsions. Hydrophilic bovine bone gelatin (BBG) nanoparticles encapsulating curcumin are another option for stabilizing emulsions. Fly ash nanoparticles are used to stabilize emulsions for improved mobility control. Food-grade Spirulina platensis protein (SPP) nanoparticles are obtained using a top-down approach and are used to stabilize emulsions.
How are nano materials used in the real world?5 answersNanomaterials have a wide range of applications in various fields. They are used in catalysis, sensors, medicine, electronics, health screenings, drug delivery, filtering, textile industry, biosensors, food industry, and packaging materials. In the field of organic synthesis, nanoparticles have been found to have good efficiency, selectivity, and yield of catalytic processes, making them safer and more environmentally friendly. In the drilling process of ultra-deep oil and gas reservoirs, nanomaterials such as nano-SiO2 have been used to improve wellbore stability and plugging rate. In the textile industry, nanomaterials are used for functional finishing of textiles, providing properties such as water repellency, antimicrobial effects, self-cleaning, anti-odor, UV protection, anti-static, wrinkle resistance, and flame-retardant finishing. These applications demonstrate the diverse and significant impact of nanomaterials in the real world.
What are the possible applications of ionic liquids in the development of nanofluids?3 answersIonic liquids have various applications in the development of nanofluids. They can be used to improve the thermal and chemical stability of nanomaterials, increase conductivity and reactivity, and enhance the characteristics of existing nanoparticles ^[Koutsoukos et al.]. Ionic liquids can also act as templates for the synthesis of nanoparticles, which can be used in sensors, electrodes, and catalysts ^[Ray and Pilania]. Furthermore, the combination of nanoparticles with ionic liquids, known as ionanofluids, has been studied for their thermophysical properties and electrical conductivity, making them suitable for applications in solar energy, energy storage systems, and lubricants ^[Liu et al.]. Ionanofluids have also shown potential in biomedical research, such as drug delivery systems and antibacterial activities ^[1Z0-1056-21 Exam Dumps]. Overall, ionic liquids offer a wide range of possibilities for the development of nanofluids with improved properties and diverse applications.
Can nano bubbles be used to improve the flow of liquids?5 answersNano bubbles can be used to improve the flow of liquids. By introducing micro- and/or nano-sized bubbles into the liquid, the viscosity of the liquid can be reduced, resulting in improved flow. One application of nano bubbles is in fish farming, where the use of nano oxygen bubbles has been found to significantly enhance the growth rate of fish. Additionally, a nano-bubble generator and a liquid solution including nano-bubbles with high density have been developed, along with a system and method for manufacturing the liquid solution. Furthermore, a flow path member has been designed to generate nano-bubbles, allowing for the maximization of frictional area per volume of fluid and the ability to generate high-density nano-bubbles. Therefore, nano bubbles have the potential to improve the flow of liquids in various applications.
How does nanofluidics work?3 answersNanofluidics involves miniaturized fluidic devices with at least one dimension in the nanoscale. It is used for various applications such as sensing and diagnosis of single molecules, separation of nanoscale objects like DNA, and studying cancer cell migration. Nanofluidics utilizes techniques like photolithography-based semiconductor processing, soft lithography, and femtosecond laser processing for fabrication. Femtosecond laser processing offers high resolution, flexibility, and 3D fabrication capability, making it advantageous for nanofluidic fabrication. Two-photon polymerization is a bottom-up scheme used in femtosecond laser processing to create 3D micro- and nanostructures with high resolution. Nanofluidics allows for the study of single DNA molecules and their interactions with proteins, providing advantages like DNA stretching without chemical modifications and high throughput measurements. Nanofluidic devices with tunable confinement can trap extracellular vesicles (EVs) and modulate their dynamics based on size and charge, enabling profiling of EV populations without sacrificing single EV level detail. Nanofluidics-based single-cell analysis offers advantages like small sample volume, rapid turnaround time, and efficient processing, and has been used for operations like single cell capture, separation, and detection.