Why is the LM10 in such demand at major research colleges and universities? The LM10 benchtop processor is simple to use. Our Microfluidics' engineers have designed this machine so minimized training is required for operation. Also, by maintaining step-by-step, identical processing conditions, results are repeated batch-to-batch which is beneficial for keeping continuity among multiple operators. The LM10 is easy to maintain. Due to the compact design, cleaning is simple and replacement parts are few. Learn more about how the LM20 is a perfect solution for university projects: https://hubs.ly/Q02J0cdS0 #Microfluidics #Microfluidicsprocessor #Microfluizertechnology #Microfluidizerprocessor #labscaleequipment #highshearprocessing
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Why is the LM10 in such demand at major research colleges and universities? The LM10 benchtop processor is simple to use. Our Microfluidics' engineers have designed this machine so minimized training is required for operation. Also, by maintaining step-by-step, identical processing conditions, results are repeated batch-to-batch which is beneficial for keeping continuity among multiple operators. The LM10 is easy to maintain. Due to the compact design, cleaning is simple and replacement parts are few. Learn more about how the LM20 is a perfect solution for university projects: https://hubs.la/Q02J-pRj0 #Microfluidics #Microfluidicsprocessor #Microfluizertechnology #Microfluidizerprocessor #labscaleequipment #highshearprocessing
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Why is the LM10 in such demand at major research colleges and universities? The LM10 benchtop processor is simple to use. Our Microfluidics' engineers have designed this machine so minimized training is required for operation. Also, by maintaining step-by-step, identical processing conditions, results are repeated batch-to-batch which is beneficial for keeping continuity among multiple operators. The LM10 is easy to maintain. Due to the compact design, cleaning is simple and replacement parts are few. Learn more about how the LM10 is a perfect solution for university projects: https://hubs.la/Q02KK2GC0 #Microfluidics #Microfluidicsprocessor #Microfluizertechnology #Microfluidizerprocessor #labscaleequipment #highshearprocessing
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Why is the LM10 in such demand at major research colleges and universities? The LM10 benchtop processor is simple to use. Our Microfluidics' engineers have designed this machine so minimized training is required for operation. Also, by maintaining step-by-step, identical processing conditions, results are repeated batch-to-batch which is beneficial for keeping continuity among multiple operators. The LM10 is easy to maintain. Due to the compact design, cleaning is simple and replacement parts are few. Learn more about how the LM10 is a perfect solution for university projects: https://hubs.la/Q02BXqSd0 #Microfluidics #Microfluidicsprocessor #Microfluizertechnology #Microfluidizerprocessor #labscaleequipment #highshearprocessing
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💡 We at University of Southampton are excited to introduce our latest biochip designs as part of the AquaBioSens project, specifically engineered to measure at the liquid-to-liquid interface using a 6-electrode arrangement. This innovative design enhances precision and versatility, enabling more accurate measurements in diverse environments. The biochip features microfluidic channels that simulate both basolateral media and apical seawater, with a cell layer cultured on a membrane. The setup includes two parallel-facing glass chips, each embedded with electrodes. 🔬 Currently, we’ve fabricated primary prototypes without electrodes for initial testing and cell culture. These prototypes will allow us to conduct preliminary assessments and refine the design before integrating the full electrode arrangement in future iterations. The current setup focuses on ensuring that the microfluidic channels and structural integrity meet our requirements, providing a solid foundation for the next stages of development. 🌍 #AquaBioSens #EnvironmentalMonitoring #Innovation #Biochips #FluidDynamics #ResearchAndDevelopment #OrganOnChip #Microfluidics
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Newly developed intrinsically stretchable circuits are thousands of times as fast as and possess 20 times as many transistors as previous intrinsically stretchable electronics. The researchers at Stanford University who developed the circuits have already demonstrated their use in a skin-like Braille-reading sensor array that they say is more sensitive than a human fingertip. The new devices feature high-purity semiconducting carbon nanotube channels, metallic palladium-coated carbon nanotube electrodes, and high-conductivity stretchable gallium-indium alloy interconnects.A major goal of the design was to reduce factors such as parasitic capacitance and interconnect resistance that limit transistor speed. Learn more at: https://lnkd.in/gYVYevkr #biomedicalengineering #bioengineering #clinicalengineering #BME #innovation #healthcare #ksa #biomedical_eng
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💡Beyond the conventional features and applications inherent to conducting polymers, PEDOT:PSS has emerged as a unique class of materials with significant potential in the development of chemical sensors. In this review, authors provide a comprehensive overview of recent research progress on PEDOT:PSS and its composites, particularly in their application in electrochemical and electronic sensors for detecting both liquid-phase and gaseous chemical analytes. These analytes include inorganic or organic ions, pH levels, humidity, hydrogen peroxide (H2O2), ammonia (NH3), carbon monoxide (CO), carbon dioxide (CO2), nitrogen dioxide (NO2), and organic solvent vapors such as methanol and acetone. 📖Welcome to read!
🔊#FeaturePaper #review Application of PEDOT:PSS and Its Composites in Electrochemical and Electronic Chemosensors by Nan Gao, Jiarui Yu, Qingyun Tian, Jiangfan Shi, Miao Zhang, Shuai Chen, and Ling Zang. 👉https://lnkd.in/g_-x2zwY MDPI, Jiangxi Science & Technology Normal University, Shaanxi University of Science and Technology, University of Utah, Jiangxi Engineering Laboratory of Waterborne Coatings (China) #chemosensor #electrochemistry #chemoresistive #electronics This article belongs to the Special Issue Chemical and Biosensors: A Theme Issue in Honor of Professor Otto S. Wolfbeis, https://lnkd.in/g73Y492V
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📣Highly-Cited Papers #Article Fabrication of Functional Super-Hydrophilic TiO2 Thin Film for pH Detection by Cheng Chen, Yalei Zhang, Han Gao, Kun Xu and Xiliang Zhang 👉https://lnkd.in/ev8Ea57t MDPI Jiangsu University Henan University of Technology #pHsensitiveelectrode #superhydrophilic #TiO2thinfilm #chemicaletching This article belongs to the Section Electrochemical Devices and Sensors https://lnkd.in/e-zPZdy5
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Excited to share my first blog on the topic "The Science of Flight", under the guidance of Dr.Harshada Magar at Aissms Institute of Information Technology. If You Like The Blog Share Your Thoughts #blog #research #gyroscopesensors #electronics #aeronautics #aissms #aissmsioit
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#ElevateYourResearch #WordOfTheDay 🔵 Dopant Any impurity deliberately added to a semiconductor for the purpose of modifying its electrical conductivity. 🔵 Semiconductors are often doped to establish specific electronic properties, but convection on Earth can cause the distribution of these dopants to be inhomogeneous, degrading the suitability of crystals for their intended application. The absence of convection in microgravity enables a uniform distribution of the dopants. 🔵 Explore the world of microgravity in materials: https://buff.ly/40BLqmt #science #research #experiment #technology #materials #processing #microgravity #iss #Belgium #Europe
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IITM Technology Available for Licensing: Ultrasonic Guided Wave Technology: Rayleigh wave Positioning System (RaPS) Target Industry for Licensing: Magnetic Positioning systems, Acoustic wave sensors, Video monitoring systems, Pipeline applications. Technology Key features: 1. Present invention facilitates a positioning system consisting a plurality of three transmitter & receiver probes, wherein the receiver probes are magnetically attached to the surface of the pipe & are adapted to transmit the waves into a conical wave guide. 2. There is low power requirements (battery operated). 3. The Modular and configurable modules providing flexibility during implementation. 4. Use of ultrasound generators & receivers those are non-ionising & Safe. 5. Present invention can be extended to other type of guided waves such as Lamb Guided modes, interface guided modes, etc. Interested parties may kindly get in touch with Technology Transfer Office, IC&SR at ipoffice2@zmail.iitm.ac.in and Dr. Dara Ajay, Head - TTO at smipm-icsr@icsrpis.iitm.ac.in #technologytransfer #licensing #iitmadras #pipelineapplications #acousticwavesensors #ultrasonicguidedwave Indian Institute of Technology, Madras Office of Industrial Consultancy and Sponsored Research, IIT Madras Dr. Dara Ajay, PhD, LLM Prof. Krishnan Balasubramanian
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