Global Metal Nanoparticle Thermistor Market 2023-2030

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    GLOBAL METAL NANOPARTICLE THERMISTOR MARKET

     

    INTRODUCTION

    Based on the notion that temperature influences electrical resistivity, Metal Nanoparticle Thermistor are tools used to measure temperature. Metal Nanoparticle Thermistors are usually made of metals or semiconductors. The resistivity of semiconductors reduces as temperature rises, whereas the resistivity of metals increases.

     

    Although it is less common, Metal Nanoparticle Thermistor can be made of composite materials, such as a composite with a conducting filler and a less conductive (or nonconductive) matrix. The resistivity of the composite material fluctuates with temperature as a result of the microstructure being altered by temperature.

     

    An example of a thermistor in the form of a composite material is carbon black-filled polymer; as the temperature rises, thermal expansion occurs . The interlaminar interface of a continuous carbon fiber polymer matrix composite is another illustration of a thermistor in the form of a composite material .

     

    The electrical resistance of the interlaminar interface decreases as temperature rises due to an increase in the likelihood of electrons hopping from one lamina to the next .

     

    A 2D array of thermistors and a 2D grid of electrical connections are created for the purpose of spatially resolved temperature sensing by using two laminae in a cross-ply configuration (i.e., the fibers in the two laminae are perpendicular to one another). Another example is short carbon fiber-filled cement , whose resistivity falls as the cement’s moisture content rises.

     

    GLOBAL METAL NANOPARTICLE THERMISTOR MARKET SIZE AND FORECAST

     

    infographic: Metal Nanoparticle Thermistor Market, Metal Nanoparticle Thermistor Market Size, Metal Nanoparticle Thermistor Market Trends, Metal Nanoparticle Thermistor Market Forecast, Metal Nanoparticle Thermistor Market Risks, Metal Nanoparticle Thermistor Market Report, Metal Nanoparticle Thermistor Market Share

     

    The Global Metal Nanoparticle Thermistor market accounted for $XX Billion in 2022 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2023 to 2030.

     

    RECENT DEVELOPMENT

    The Metal Nanoparticle Thermistor, typically made from metallic oxides, is a type of resistor whose electrical resistance is dependent on its temperature.

     

    Despite the wide usage, the limitations of ceramic thermistors become increasingly apparent as devices with improved performances are sought and as new applications emerge. Herein, a thermistor that is shown with a beta (B) value of 10 000 K can be made exclusively from metal nanoparticles functionalized with charged organic ligands.

     

    This B value is hard to achieve for ceramic devices, which is due to the increase of effective counterion concentration and its mobility upon thermal activation. Importantly, the performance of the Metal Nanoparticle Thermistor is maintained when it is fabricated on a flexible substrate and experiences reversible bending.

     

    Demos of thermistor arrays for heat transfer, distribution, and comparison of their performance with commercial products are also demonstrated. Owing to the low temperature and simple casting process, conformably flexible characteristics, stable solid states, and ultra-high sensitivities, this device is expected to be practically used soon.

     

    COMPANY PROFILE

    • Mitsubishi Materials Corporation
    • Honeywell International Inc.
    • Emerson Electric Company
    • Texas Instruments Incorporated
    • Panasonic Corporation

     

    THIS REPORT WILL ANSWER FOLLOWING QUESTIONS

    1. How many Metal Nanoparticle Thermistors are manufactured per annum globally? Who are the sub-component suppliers in different regions?
    2. Cost breakup of a Global Metal Nanoparticle Thermistor and key vendor selection criteria
    3. Where is the Metal Nanoparticle Thermistor manufactured? What is the average margin per unit?
    4. Market share of Global Metal Nanoparticle Thermistor market manufacturers and their upcoming products
    5. Cost advantage for OEMs who manufacture Global Metal Nanoparticle Thermistor in-house
    6. key predictions for next 5 years in Global Metal Nanoparticle Thermistor market
    7. Average B-2-B Metal Nanoparticle Thermistor market price in all segments
    8. Latest trends in Metal Nanoparticle Thermistor market, by every market segment
    9. The market size (both volume and value) of the Metal Nanoparticle Thermistor market in 2023-2030 and every year in between?
    10. Production breakup of Metal Nanoparticle Thermistor market, by suppliers and their OEM relationship

     

    Sl no Topic
    1 Market Segmentation
    2 Scope of the report
    3 Abbreviations
    4 Research Methodology
    5 Executive Summary
    6 Introduction
    7 Insights from Industry stakeholders
    8 Cost breakdown of Product by sub-components and average profit margin
    9 Disruptive innovation in the Industry
    10 Technology trends in the Industry
    11 Consumer trends in the industry
    12 Recent Production Milestones
    13 Component Manufacturing in US, EU and China
    14 COVID-19 impact on overall market
    15 COVID-19 impact on Production of components
    16 COVID-19 impact on Point of sale
    17 Market Segmentation, Dynamics and Forecast by Geography, 2023-2030
    18 Market Segmentation, Dynamics and Forecast by Product Type, 2023-2030
    19 Market Segmentation, Dynamics and Forecast by Application, 2023-2030
    20 Market Segmentation, Dynamics and Forecast by End use, 2023-2030
    21 Product installation rate by OEM, 2023
    22 Incline/Decline in Average B-2-B selling price in past 5 years
    23 Competition from substitute products
    24 Gross margin and average profitability of suppliers
    25 New product development in past 12 months
    26 M&A in past 12 months
    27 Growth strategy of leading players
    28 Market share of vendors, 2023
    29 Company Profiles
    30 Unmet needs and opportunity for new suppliers
    31 Conclusion
    32 Appendix
     
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