Detecting Toxins: The Future of Farming!  #sciencefather #researchawards #scientist #pesticide 

The Cobalt-Modified Exfoliated Zirconium Phosphate/Histidine-Functionalized Graphene Quantum Dots-Based Electrochemical Biosensor is an advanced sensing platform designed to enable the ultra-sensitive detection of methyl parathion (MP)—a hazardous organophosphorus pesticide—in agricultural food products 🥦🍎 and environmental water samples 💧🌾. This innovative biosensor integrates cobalt-modified exfoliated zirconium phosphate (Co-ZrP) with histidine-functionalized graphene quantum dots (His-GQDs) to achieve exceptional electrocatalytic activity ⚡, selectivity 🧪, and signal amplification 📈. The unique synergy between these nanomaterials facilitates rapid electron transfer and enhances the biosensor’s responsiveness to MP even at trace levels 🔬, ensuring accurate monitoring and safer consumption of agricultural goods and cleaner aquatic environments. Its practical application showcases potential for real-time, on-site environmental monitoring 🌍 and food safety assurance 🛡️, representing a significant step forward in sustainable agrochemical management and public health protection.

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Nano Biosensors: Plant Disease Detectives!#sciencefather #NanoBiosensors...

Discover the groundbreaking world of **nano-enabled biosensors** , "Nano Biosensors: Plant Disease Detectives!"  Learn how these innovative sensors can revolutionize the **early detection of plant diseases**, ensuring healthier crops and sustainable farming practices. , we’ll guide you through the science behind these tiny but mighty technologies.

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Bioinstrumentation

Bioinstrumentation is a specialized branch of biomedical engineering that focuses on the development, design, and application of instruments and devices used for diagnosing, monitoring, and treating biological and medical conditions. It integrates principles from electronics, biology, physics, and engineering to create advanced tools that enhance healthcare, research, and clinical practice.

Bioinstrumentation plays a critical role in modern healthcare by enabling the accurate measurement of biological signals, such as heart rate, brain activity, blood pressure, and other physiological parameters. These devices can be used in various medical settings, including hospitals, research laboratories, and home healthcare environments.

Key Components of Bioinstrumentation:

Sensors: These are vital components used to detect biological signals and convert them into electrical signals. Common examples include ECG (Electrocardiogram) sensors, EEG (Electroencephalogram) sensors, and pulse oximeters.

Signal Processing: Once the biological signals are detected, signal processing methods filter, amplify, and interpret these signals to ensure accuracy and usability.

Data Acquisition and Analysis: This involves collecting data from sensors, digitizing it, and analyzing it using software tools to provide meaningful insights about a patient's condition.

Display and Output Devices: These instruments provide visual feedback to users in the form of graphs, images, or numerical data. Examples include monitors used for displaying heart rhythms or brain activity.

Applications of Bioinstrumentation:

Medical Diagnostics: Devices like MRI (Magnetic Resonance Imaging), CT (Computed Tomography) scanners, and X-ray machines help diagnose diseases and internal conditions.

Therapeutic Devices: These include pacemakers, defibrillators, and dialysis machines that aid in treatment.

Wearable Health Technology: Smartwatches, fitness trackers, and continuous glucose monitors are examples of wearable bioinstrumentation.

Laboratory Research: Bioinstrumentation is also used in biochemistry, genetics, and molecular biology research for tasks like DNA sequencing, cell analysis, and tissue imaging.

Emerging Trends in Bioinstrumentation:

Artificial Intelligence (AI) Integration: AI and machine learning are increasingly being used in bioinstrumentation to enhance data analysis, predict outcomes, and improve diagnostics.

Nanotechnology in Bioinstrumentation: Nanobiosensors and nano-scale devices are making diagnostics more precise and non-invasive.

Point-of-Care (POC) Devices: These portable, user-friendly devices allow real-time, on-site testing, improving access to healthcare, especially in remote areas.

Challenges in Bioinstrumentation:

Despite its potential, bioinstrumentation faces challenges, including:

Ethical concerns surrounding data privacy and the use of AI in healthcare.

Regulatory hurdles related to device approvals and patient safety.

High development costs and the need for interdisciplinary collaboration.

Future Prospects:

With continuous advancements in technology, bioinstrumentation is expected to become even more sophisticated, personalized, and accessible. Future innovations may include implantable biosensors, brain-computer interfaces (BCIs), and fully autonomous diagnostic systems.

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Bacterial infections remain a critical public health concern worldwide, necessitating the development of efficient and sensitive diagnostic tools. Nanobiosensors, comprising nanomaterials, offer a novel approach to bacterial pathogen detection. The present review aimed to explore the current research and applications of nanobiosensors for bacterial pathogen detection. Recent discoveries in nanotechnology have facilitated the development of nanobiosensors with remarkable sensitivity and specificity. These nanoscale sensors are designed to detect specific bacterial pathogens through various mechanisms, including aptamers, antibodies, and molecular recognition elements. Furthermore, miniaturization and integration with microfluidic systems have enabled the rapid and point-of-care detection of bacterial infections. Incorporating nanomaterials such as carbon nanotubes, quantum dots, and graphene into biosensing platforms has significantly enhanced their performance, leading to ultrasensitive detection of bacterial antigens and nucleic acids. Additionally, using nanobiosensors with advanced analytical techniques, such as electrochemical, optical, and piezoelectric methods, has expanded the possibilities for accurate and real-time monitoring of bacterial pathogens. Nanobiosensors represent a promising frontier in the battle against bacterial infections. Their exceptional sensitivity, rapid response times, and potential for multiplexed detection make them invaluable tools for the early diagnosis and monitoring of bacterial pathogens. Developing cost-effective and portable nanobiosensors for resource-limited settings becomes increasingly possible as nanotechnology advances.

Label-free RNA-based electrochemical nanobiosensor for detection of Hepatitis C  

https://inpst.net/label-free-rna-based-electrochemical-nanobiosensor-for-detection-of-hepatitis-c/  

#CRBIOTECH #Biosensor More from #DHPSP, INPST, and CRBIOTECH: https://www.linkedin.com/pulse/social-media-atanas-g-atanasov/

Nano Biosensors - Market Detailed Strategies, Competitive Landscaping and Developments for next 5 years

Global Nano Biosensors - Market Report from AMA Research highlights deep analysis on market characteristics, sizing, estimates and growth by segmentation, regional breakdowns & country along with competitive landscape, player’s market shares, and strategies that are key in the market. The exploration provides a 360° view and insights, highlighting major outcomes of the industry. These insights help the business decision-makers to formulate better business plans and make informed decisions to improved profitability. In addition, the study helps venture or private players in understanding the companies in more detail to make better informed decisions. Major Players in This Report IncludeAbbott Point of Care, Inc. (United States)

 F. HOFFMAN-LA ROCHE LTD. (Switzerland)

Medtronic Inc. (United States)

Universal Biosensors, Inc. (Australia)

Siemens Ag (Germany)

Lifescan, Inc. (United States)

Lifesensors, Inc. (United States)

Nova Biomedical Corporation (United States)

Acon Laboratories, Inc. (United States)

Pharmaco-Kinesis Corporation (United States) Nanobiosensors are actually the sensors that consist of nanomaterials and it is noteworthy that these are not the advanced sensors that can identify movements and activities on a nanoscale. Nano biosensors are also referred to as nanotube-based sensors when they involve carbon nanotubes as augmentations of reaction specificity as well as efficiency, while biosensors are referred to as nanotube-based sensors and carriers as nanowire biosensors. Recent advancements in nanotechnology and modern electronic technology converge towards the creation of a new collection of biosensors called nano biosensors and have led to a new era in disease detection bionanotechnology. Market Drivers Significant Advances in Technology over the Recent Years

Increasing Usage of Nano Biosensors in Various Application

Market Trend Technological Advancements in Nano Biosensors Technology

Opportunities High-Growth Opportunities in Biodefense, as well as the Food Industry

Growing Demand from Emerging Market such as China, India and others

Rising Health Care Sector in Emerging Economies

Challenges Government Regulations regarding Long Certification as well as Approval Cycles

Lack of Awareness Regarding Nano Biosensors

The Nano Biosensors - market study is being classified by Application (Biological Application {DNA Sensors, Immunosensors, Cell based Sensor, Point of care Sensors, bacteria sensors, others}, Environmental Application {Agricultural Monitoring, Ground Water Screening, Ocean Monitoring, Others}), Type (Nanoparticle-Based Sensors {Acoustic wave biosensor, Magnetic biosensor, Electrochemical Biosensor}, Nanotube-Based Sensors, Nanowire Based Sensors), Industry vertical (Healthcare,, Consumer Electronics, Food & Beverage, Aerospace & Defense, Others) Presented By

AMA Research & Media LLP

Farming often abuses chemical fertilizers and insecticides. Mercury in solvents More food is needed as the world & population expand. Nanotechnology has improved crop yields and soil quality in sustainable agriculture.  Many ways agriculture employs nanotechnology: Nanopesticides, Biofertilizer nanoparticles, etc.

Biosensors Market with COVID-19 Impact by Type, Product (Wearable, Non-wearable), Technology, Application (POC, Home Diagnostics, Research Lab, Environmental Monitoring, Food & Beverages, Biodefense) and Region - Global Forecast to 2026 published on

https://www.sandlerresearch.org/biosensors-market-with-covid-19-impact-by-type-product-wearable-non-wearable-technology-application-poc-home-diagnostics-research-lab-environmental-monitoring-food-beverages-biodefense.html

Biosensors Market with COVID-19 Impact by Type, Product (Wearable, Non-wearable), Technology, Application (POC, Home Diagnostics, Research Lab, Environmental Monitoring, Food & Beverages, Biodefense) and Region - Global Forecast to 2026

“Emergence of nanotechnology-based biosensors is set to drive the biosensors market”

The biosensors market is valued at USD 25.5 billion in 2021 and is projected to reach USD 36.7 billion by 2026; it is expected to grow at a CAGR of 7.5% from 2021 to 2026. Metal-based nanoparticles can be efficiently used to detect nucleic acid sequences by exploiting their optoelectronic properties. Recent advancements in the field of nanotechnology have led to the utilization of nanomaterials, such as metal nanoparticles, oxide nanoparticles, magnetic nanomaterials, carbon materials, quantum dots, and metallophthalocyanines, to improve the electrochemical signals of biocatalytic events that occur at electrode/electrolyte interface. Nanomaterials, such as carbon nanotubes and indium oxide nanowires, are widely used to manufacture nanotechnology-based biosensors or nanobiosensors. Nanobiosensors have revolutionized the future of disease diagnosis. They are gaining importance in areas such as catalysis, optics, biomedical sciences, mechanics, magnetic, and energy science.

The cost pressure is adversely affecting the growth of the global POC market. This is attributed to reimbursement cuts and lack of sufficient budgets. For instance, in 2013, the US government passed the healthcare reform bill, according to which, manufacturers have to pay a heavy 2.3% annual excise tax on medical devices. Similarly, France has explicitly targeted medical devices for cost containment to recover from the recession. The 2013 French budget included price cuts to the tune of USD 157.6 million on the medical sector (including POC), leading to savings of USD 102.8 million from the ambulatory care sector and USD 54.8 million from hospitals. Expenditure on medical devices (including POC) worldwide is also at risk due to a decrease in the list of healthcare products eligible for reimbursements. These factors create pressure on the global medical devices industry. As a result, manufacturers are finding it increasingly challenging to support prices and preclude margin erosion, with rising competition. Thus, price-cutting measures on medical devices, including POC diagnostics, will pose a key challenge to the growth of the market in the coming years.

“Sensor Patch Devices: The fastest type of biosensors market .”

Sensor patches are devices that are attached to a human body for monitoring a range of vital signs and providing specific treatments when required. Sensor patches are categorized under wearable devices, which have embedded intelligence, connectivity, and increased usability. Sensor patches offer unique opportunities for condition/activity monitoring, feedback, and actuation/delivery services, such as drug delivery or stimulation, localization, identification, personal contextual notifications, information display, and virtual assistance. In simpler terms, these devices can monitor, document, and augment lives, and they can be used to assist people in specialized professional and personal activities. These devices also help in sending information directly to caregivers, as well as allowing remote patient monitoring and detecting diseases at early stages.

“Wearable Biosensors: The fastest product segment of the biosensors market .”

Wearable biosensors have attracted considerable attention because of their potential to change the classical medical diagnostics and continuous health monitoring concepts. Wearable biosensor applications aim to change centralized hospital-based care systems to home-based personal medicine and reduce healthcare cost and time for diagnosis. Nowadays, we can see that wearable biosensors are bringing out a wave of innovation to society. Their comfort and better use can provide a new level of exposure to a patient’s real-time health status. This real-time data availability allows better clinical decisions and results in better health results and more efficient use of health systems. For human society, wearable biosensors may help in the early detection of health events and the avoidance of hospitalization. Such events are expected to boost the market growth of wearable biosensors.

“Home Diagnostics: Fastest growing application of Biosensors market”

Home diagnostics are not limited to checking body weight and measuring body temperature during sickness, it also includes monitoring health and fitness at home without the intervention of physicians. Tests to monitor blood glucose level, fertility, cholesterol, HIV, vitamin D, influenza, and testosterone can be conducted at home by taking a small sample and loading it into a testing cartridge of biosensor units. These biosensor units are intelligent enough to sense the information and transfer it to the consumer’s smartphone through Bluetooth, providing instant test results and suggestions for improving health. Home diagnostics offers various advantages, such as privacy, convenience, and ease-of-use, and low cost.

“North America: The leading region in the global biosensors market .”

North America is projected to account for the largest size of the global biosensors market from 2021 to 2026. The presence of key industrial players and the early adoption of new technological advancements such as nanotechnology are the main factors for the growth of the biosensors market in North America. The market’s growth is mostly driven by the rise in funding for the research and development of medical devices containing biosensors. Research and development of medical devices are largely dependent on funding and grants. For instance, in 2017, Senseonics Holdings (US), a medical technology company, raised USD 41 million to commercialize its Eversense continuous glucose monitoring system and to support research and development for next-generation versions of the sensor. Similarly, in 2016, Endotronix (US), a developer of wireless and implantable pressure sensors, raised USD 32 million in a series C round of financing. These investments resulted in the development of biosensors for a range of medical equipment and this drove the market in the historic period.

The study contains insights from various industry experts, ranging from component suppliers to Tier 1 companies and OEMs. The break-up of the primaries is as follows:

By Company Type: Tier 1 – 40%, Tier 2 – 25%, and Tier 3 – 35%

By Designation: C-level Executives – 35%, Directors – 28%, and Others – 37%

By Region: North America – 48%, Europe – 22%, APAC – 20%, RoW – 10%

Abbott (US), Roche (Switzerland), Medtronic (Ireland), Bio-Rad Laboratories, Inc. (US), DuPont (US), Biosensors International Group, Ltd. (Singapore), Cytiva (UK), Dexcom, Inc. (US), Lifescan IP Holdings, LLC (US), Masimo (US), Nova Biomedical (US), Universal Biosensors (Australia), ACON Laboratories, Inc. (US), CARDEA BIO INC., (US), Conductive Technologies (US), EarlySense (Israel), Innovative Sensor Technology IST AG (Switzerland), LifeSignals (US), NeuroSky (US), Pinnacle Technology Inc. (US), SD Biosensor, INC. (South Korea), VitalConnect (US), and Xsensio (Switzerland) are a few of the key players in the biosensors market.

Research Coverage:

The report segments the biosensors market and forecasts its size, by value, based on Type(Sensor Patch, Embedded Device), Product (Wearable Biosensors, Non-Wearable Biosensors), Technology (Electrochemical, Optical, Piezoelectric, Thermal, Nanomechanical), Application (POC, Home Diagnostics, Research Labs, Environmental Monitoring, Food & Beverages, Biodefense), and Region (North America, Europe, APAC, and RoW),.

The report also provides a comprehensive review of market drivers, restraints, opportunities, and challenges in the biosensors market. The report also covers qualitative aspects in addition to the quantitative aspects of these markets.

Key Benefits of Buying the Report

The report will help the leaders/new entrants in this market with information on the closest approximations of the revenue numbers for the overall market and the sub-segments. This report will help stakeholders and gain more insights to better position their businesses and plan suitable go-to-market strategies. The report also helps stakeholders understand the pulse of the biosensors market and provides them information on key market drivers, restraints, challenges, and opportunities. Report also covers COVID-19 impact on biosensors market.

Nanobiotechnology is an interdisciplinary field that merges nanotechnology and biotechnology to develop innovative applications in medicine, agriculture, environmental science, and bioengineering. It involves manipulating biological molecules, such as proteins, DNA, RNA, lipids, and enzymes, at the nanoscale (1–100 nm) to create functional nanomaterials, nanodevices, and nanosensors.

Key areas in nanobiotechnology include:

Nanomedicine – Using nanoparticles for targeted drug delivery, cancer therapy, and regenerative medicine.

Bionanostructures – Engineering biomolecules into nanoscale frameworks for biosensors, bioelectronics, and tissue scaffolds.

Nanobiosensors – Developing highly sensitive diagnostic tools for disease detection and environmental monitoring.

Nanocarriers – Liposomes, micelles, and dendrimers designed for precise drug and gene delivery.

Quantum Dots & Nanoprobes – Fluorescent nanomaterials for biomedical imaging and cellular tracking.

Nanozymes – Enzyme-mimicking nanomaterials used for catalysis and biosensing.

CRISPR-based Nanotools – Enhancing gene editing precision through nanotechnology integration.

Green Nanobiotechnology – Biodegradable nanomaterials for eco-friendly applications in food safety, water purification, and sustainable agriculture.

Nanobiotechnology holds transformative potential in oncology, infectious disease treatment, tissue engineering, and vaccine development, with ongoing advancements in RNA-based nanomedicine, smart nanotheranostics, and artificial organ design.

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#sciencefather#researchawards#Scientist#Scholar#Researcher #Nanobiotechnology #Nanomedicine #Bionanotech #NanoDelivery #Nanosensors #NanoTherapeutics #CRISPRNano #BioImaging #Nanocarriers #QuantumDots #SmartNanoparticles #Nanozymes #GeneDelivery #NanoCancerTherapy #Nanoparticles #RNAtherapeutics #Bioelectronics #Microfluidics #ExosomeNanotech #Biophotonics #NanoEngineering #PersonalizedMedicine #Nanomaterials #Biosensing #RegenerativeNanomedicine

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Meet Jason Occidental, data scientist and technology innovator

1) What do you do?

I'm an innovator, sounds quite broad right? Because I always have that urge to know more about something unknown to me, I became an expert generalist in this world full of specialists.

First, I'm a data scientist specializing in computer vision and AI. I worked on building a recurrent neural network model for identifying individuals based on keystroke dynamics. I run my models on a deep learning software called caffe, which like coffee keeps me awake since it takes 2 days to a week to train them.

Next off, I'm also a biomedical engineer working with nanobiosensors. During my Master's, I coincidentally met a professor in my university who's also Filipino. It was funny because we were talking in straight english and I already wanted to ask if he was Filipino until he talked about UP which ignited my Filipino pride. Going back to my work, I worked with him in his biosensors that used signals instead of images to do cell monitoring. The sensor is embedded on the cell well/dish which means that its status is monitored in real-time and without staining them with an assay. I tested the sensors on Bovine Aortic Endothelial Cells, or heart cells. I made a hugot joke that my work is taking care of hearts even if no one is taking care of mine. XD

Finally, I'm an electrical engineer working on renewable energy. I'm from Mindanao and I witnessed rotating blackouts first-hand during my undergrad days. This inspired me to work on renewable energy. I worked on powering streetlight using energy harvesters. Currently, I am doing a few solar projects with a local startup for commercial and remote communities.

2) Where do you work?

Apart from my project work, I teach part-time at Ateneo de Davao University and work as a business analyst for Gluon Consulting.

3) Tell us about the photos!

[Top:] Here I am in my graduation regalia with the Filipino flag stole and medal. I'm a scholar of the USAID STRIDE PSM scholarship where I studied at Rutgers University in the US. My Fil-Am friend liked my regalia a lot and told me that I looked like I was in a Pinoy Justice League. Hahaha.

[Bottom:] I barely have pictures of myself because I'm a photographer and I travel alone a lot. This photo is my most favorite. I did a solo travel to Colorado since I wanted to see the mighty buffalo. Apart from travelling alone, I rely of public transport a LOT. In Colorado, once you go outside of downtown, buses are scarce and you have to walk for the most part. I went to the Rocky Mountain Arsenal National Wildlife Refuge by going down the nearest bus stop and walking for 5 miles just to see the buffalo and take photos of them. I could tell you it was worth it.

4) Tell us about your academic career path so far.

Elementray/HS - Stella Maris Academy of Davao

Undergraduate - BS Computer Engineering at Ateneo de Davao University

Graduate - Master of Business and Science in Biomedical Engineering at Rutgers University

Mini MBA in Supply Chain Management at Rutgers University

5) Anything else you’d like to share?

I'm actively working with the startup community and if you need tech advice, you can hit me up on LinkedIn. Also check out my blog, the Wandering Innovator.

Nanobiosensors in Healthcare Market Key Players, Supply, Consumption, Demand, Growth, Application, Analysis and Forecast

Nanobiosensors in Healthcare Market to Thrive in the Americas

The healthcare sector is making relentless strides to assess health status, the onset and progression of various diseases, and monitor treatment procedures through non-invasive methods. Nanobiosensors have the potential to fulfill these criteria and have attracted the attention of the healthcare industry due to their multifunctional character. Nanobiosensors are analytical devices which are used for molecular detection of biomarkers and other diagnosis and detection purposes. Market Research Future (MRFR) has added a report on the global nanobiosensors in healthcare market to its existing portfolio of reports, which examines the market and its future trajectory over the forecast period of 2019-2024. MRFR's analysis has projected a CAGR of 9.84% in the nanobiosensors in healthcare market over the forecast period.

Intensifying need to develop disease diagnosis and treatment has resulted in the use of nanotechnology in healthcare applications, as it offers unique prospects for the development of the sector. Nanobiosensors are capable of identifying minute biological elements with enhanced sensitivity, specificity, and reliability at the molecule or cell level. Increasing prevalence of chronic diseases and the shift of the healthcare industry towards smart technologies is favoring the growth of the nanobiosensors market.

Of late, researchers across the globe, have exhibited great interest in nanobiosensors and are backed by the governments of multiple countries in the form of R&D grants, which is likely to present growth opportunities to the nanobiosensors in healthcare market.

Concurrently, the growth of the nanobiosensors in healthcare market is likely to be disrupted by high cost of nanobiosensors and unfavorable reimbursement policies.

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Nanobiosensors in Healthcare Market Segmentation

The nanobiosensors in the healthcare market has been segmented based on type, application, and end user.

By type, the nanobiosensors in healthcare market has been segmented into optical nanobiosensors, electrochemical nanobiosensors, acoustic nanobiosensors, and others. The electrochemical nanobiosensors segment is likely to capture the largest share of the market on account of its real-time detection and high-sensitivity features.

By application, the nanobiosensors in healthcare market has been segmented into diabetes, immunoassay, cancer, pathogenic bacteria, and others.

By end user, the nanobiosensors in healthcare market has been segmented into hospitals and clinics, diagnostic centers, point of care, and others. The point of care segment is estimated to dominate the market over the forecast period.

Regional Analysis

Region-wise, the nanobiosensors in healthcare market has been segmented into the Americas, the Middle East & Africa (MEA), Europe, and Asia Pacific (APAC).

The Americas has attained the foremost position in the global nanobiosensors in healthcare market. The surge in the prevalence of various chronic diseases in the region has evoked serious efforts to achieve disease control in the region. The tendency of the region to adopt new technologies at a relatively faster rate has resulted in the exploration of new perspectives on disease eradication, which has led to increased demand for biosensors in the healthcare sector. High healthcare expenditure and government support are other growth drivers.

Europe is following the Americas' lead in the global nanobiosensors in healthcare market. A robust healthcare sector, the outbreak of various chronic diseases, and rigorous R&D efforts supported the governments in the region are underpinning the growth of the market.

APAC is poised to exhibit the highest CAGR over the forecast period. Given the rapid spread of diseases in the region, the governments of the developing countries are endeavoring towards the modernization of the healthcare sector to curb disease transmission and growth, which has reflected positively on the nanobiosensors in healthcare market.

Underdevelopment of the healthcare sector, lack of technical knowledge, and inadequate medical facilities are hindering the growth of the nanobiosensors market in MEA.

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Nanobiosensors in Healthcare Market Competitive Landscape

Biosensors International Pte. Ltd., Bio-Rad Laboratories, Inc., Medtronic Inc., Nano-Proprietary, Inc., Pharmaco-Kinesis Corporation, Lifesensors, Inc., ACON Laboratories, Inc., F. Hoffman-LA Roche Ltd., bbott Point of Care, Inc., Illuminex Corporation, Bayer Healthcare AG, Lifescan, Inc., and Sysmex Corporation are the eminent players in the global nanobiosensors in healthcare market.

Then and now. Nanotechnology Promises.

Then and now. Nanotechnology Promises.

Spot the difference between

… applications of nanoscience are revolutionizing the fields of biology and medicine. Nano-sized artificial molecular motors and machines are created using biological molecules, while nanomedicine is utilized to target cancer cells, deliver drugs and fight antibiotic resistant bacteria

The recent coronavirus crisis shows how the field of nanobiosensors may be…

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MEMS: Biosensors and Nanosensors -Market Demand, Growth, Opportunities and Analysis Of Top Key Player Forecast To 2024

MEMS: Biosensors and Nanosensors Industry

Description

Wiseguyreports.Com Adds “MEMS: Biosensors and Nanosensors -Market Demand, Growth, Opportunities and Analysis Of Top Key Player Forecast To 2023” To Its Research Database

MEMS technology integrates four components: microsensors, microactuators, microelectronics, and microstructures in a silicon chip. Biochips aremicrotechnology based microsensors which are used for the delivery, analysis, processing and detection of proteins, DNA, microorganisms or nucleic acids. Nanosensors are used to detect nanoparticles or any other nanoscaled parameters.

According to BCC Research estimates, the globalMEMS: biosensors and nanosensors market was valued at nearly REDACTED in 2016 and is estimated to grow at a CAGR of REDACTED to reach nearly REDACTED by 2022.

The growth of the total microsensors.market is driven by stringent standards in the automotive vertical, support from government agencies, the need for better diagnostics and advancement in the production process of nanosensors.

Potential opportunities for this market include: emergence of autonomous vehicles, Internet of Things (IoT) and increased demand for nanoelectromechanical systems (NEMS). However, factors such as problems in biochip development and price erosion of microsensors are some of the major hurdles expected for this sector on its road to market penetration and development.

The global microsensors market has been segmented based on type, end user industry and geography. Based on type, the market has been classified into MEMS sensors, biochips and nanosensors. End user industries include: life sciences, automotive, consumer products, process industries, information technology, military & aerospace and energy and environmental.

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Microsensors have been further classified by types. The MEMS sensor market has been segmented into accelerometers, gyroscopes, pressure sensors, chemical and gas sensors, thermal sensors, magnetic sensors, microphone sensors and other MEMS sensors. Biochips have been segmented into DNA microarrays, protein microarrays, emerging microarrays, labs-on-a-chip and next-generation sequencing. Based on geography, the market has been segmented into North America, Europe, Asia- Pacific and ROW.

The global microsensors market was nearly REDACTED in 2016 and is expected to reach nearly REDACTED by 2022 growing at a CAGR of REDACTED from 2017 to 2022. North America accounts for the largest market share of the globalMEMS sensors market, followed by Asia-Pacific and Europe. Key market participants include Robert Bosch GmbH, STMicroelectronics N.V., Denso Corporation, Knowles Corporation and TDK Corporation.

Report Scope

The scope of the report includes an overview of the global market for the MEMS sensors, biochips and nanosensors as well as analyses of global market trends, with data from 2015, considering base year of 2016 and estimates for 2017 to 2022 with projection of CAGR in the forecast period.

The report includes a discussion of technological, regulatory and competitive elements as well as economic trends affect the market. It also explains the major drivers and regional dynamics of the global microsensor market and current trends within the industry.

The report includes discussion of the types of MEMS sensors including accelerometers, gyroscopes, magnetic sensors, chemical and gas sensors, pressure sensors, thermal sensors, microphone sensors and others. It also includes biochips such as DNA chips, lab-on-a-chips, protein chips and other arrays; nanosensors including nanochemical sensors, nanoforce sensors, nanobiosensors, nano-radiation sensors and nano-thermal sensors have also been covered. However, nanoforce sensors are the only nanosensor technology that has been commercialized, and so market numbers for all the other nanosensors have not been covered under the scope of the report. This report also covers the following end user industries: automotive, life sciences, consumer products, process industries, information technology, military/aerospace/public safety, energy/environment and other end user industries.

The report concludes with detailed profiles of the major vendors in the global MEMS sensor, biochip and nanosensors market.

Report Includes

– 56 data tables and 34 additional tables – An overview of the global markets for microelectromechanical systems (MEMS) – Analyses of global market trends, with data from 2016 and 2017, and projections of compound annual growth rates (CAGRs) through 2022 – Discussion of historical perspective and milestones in the development of microsensors – Evaluation of current and developmental microsensor technologies and their potential applications – Detailed company profiles of the top players of the industry are, Abbott Laboratories, Agilent Technologies, Inc., Bruker Corp., Robert Bosch Gmbh, Thermo Fisher Scientific Inc., Panasonic Corp.

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Summary Table : Global Market for MEMS Biosensors and Nanosensors, by Type, Through 2022

Table 1 : Global Market for MEMS Biosensors and Nanosensors, by Type, Through 2022 Table 2 : Global Market for MEMS Biosensors and Nanosensors, by End User Industry, Through 2022 Table 3 : Global Market for MEMS Sensor, by Type, Through 2022 Table 4 : Global Market for MEMS Sensor, by End User Industry, Through 2022 Table 5 : Global Market for Accelerometer, by End User Industry, Through 2022 Table 6 : Global Market for Gyroscope, by End User Industry, Through 2022 Table 7 : Global Market for Pressure Sensor, by End User Industry, Through 2022 Table 8 : Global Market for Chemical and Gas Sensor, by End User Industry, Through 2022 Table 9 : Global Market for Thermal Sensor, by End User Industry, Through 2022 Table 10 : Global Market for Magnetic Sensor, by End User Industry, Through 2022 Table 11 : Global Market for Microphone Sensor, by End User Industry, Through 2022 Table 12 : Global Market for Other MEMS Sensor, by End User Industry, Through 2022 Table 13 : Global Market for Biochip, by Type, Through 2022 Table 14 : Global Market for Biochip, by End User Industry, Through 2022 Table 15 : Global Market for Biochip, by Application, Through 2022 Table 16 : Global Market for DNA Microarray, by End User Industry, Through 2022 Table 17 : Global Market for DNA Microarray, by Application, Through 2022 Table 18 : Global Market for Protein Microarray, by End User Industry, Through 2022 Table 19 : Global Market for Protein Microarray, by Application, Through 2022 Table 20 : Global Market for Emerging Microarray, by End User Industry, Through 2022 Table 21 : Global Market for Emerging Microarray, by Application, Through 2022 Table 22 : Global Market for Next Generation Sequencing, by End User Industry, Through 2022 Table 23 : Global Market for Next Generation Sequencing, by Application, Through 2022 Table 24 : Global Market for Lab-On-A-Chip, by End User Industry, Through 2022 Table 25 : Global Market for Lab-On-A-Chip, by Application, Through 2022 Table 26 : Global Market for Nanosensor, by End User Industry, Through 2022 Table 27 : Global Market for Nanosensor, by Region, Through 2022 Table 28 : Global MEMS: Biosensors and nanosensors Market, by Region, Through 2022 Table 29 : Global MEMS Sensor Market, by Region, Through 2022 Table 30 : Global Biochip Market, by Region, Through 2022 Table 31 : North American Market for MEMS Sensor, by Type, Through 2022 Table 32 : North American Market for Biochip, by Type, Through 2022 Table 33 : European Market for MEMS Sensor, by Type, Through 2022 Table 34 : European Market for Biochip, by Type, Through 2022 Table 35 : Asia Pacific Market for MEMS Sensor, by Type, Through 2022 Table 36 : Asia Pacific Market for Biochip, by Type, Through 2022 Table 37 : Rest of the World’s Market for MEMS Sensor, by Type, Through 20

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