Acoustic Microscopy Market
Acoustic Microscopy Market Analysis By Offering (Services, Microscopes, Accessories & Software), By Application (Non-destructive Testing, Failure Analysis, Quality Control), By End Use (Semiconductors, Nanotechnology, Life Sciences) & By Region - Global Market Insights 2023 to 2033
Analysis of Acoustic Microscopy Market Covering 30+ Countries Including Analysis of US, Canada, UK, Germany, France, Nordics, GCC countries, Japan, Korea and many more
Acoustic Microscopy Market Outlook (2023 to 2033)
The global acoustic microscopy market is estimated at US$ 1.29 billion in 2023 and is projected to reach a market valuation of US$ 2.2 billion by 2033. The global demand for acoustic microscopy technologies is predicted to increase at a CAGR of 5.5% from 2023 to 2033.
Acoustic microscopy uses high- or ultrahigh-frequency ultrasound. Acoustic microscopes are non-destructive devices that can see through most solid components to produce visual images of interior characteristics such as cracks, deformations, and voids.
Acoustic microscopy makes it easier to inspect various gadgets, including printed circuit boards, optical equipment, and other electrical gadgets. With the use of acoustic microscopy, various conventional non-destructive imaging methods, such as X-ray radiography and infrared imaging, can be replaced. Acoustic microscopy delivers highly precise information for applications in not only fields such as semiconductors, biology, materials science, and nanotechnology but also in several other fields of study.
Based on offerings, acoustic microscopes are segmented into services, microscopes, and accessories & software. The market for microscopy services is expected to expand at a CAGR of 6% from 2023 to 2033. This can be attributed to the rising innovations in non-destructive testing (NDT) technologies and the high demand for NDT services from the semiconductor and automotive industries.
The C-mode scanning acoustic microscope (C-SAM) and confocal scanning acoustic microscope (CSAM) are examples of scanning acoustic microscopes (SAMs). Recently, the use of sub-optical wavelengths and ultrasonic frequencies reaching multiple gigahertz was shown in the acoustic imaging of cells, achieved through the application of acoustic microscopes constructed on picosecond ultrasonic systems. C-SAM-type devices make up the vast bulk of acoustic microscopes currently in use. Thus, the demand for scanning acoustic microscopy services is growing.
Increasing adoption of acoustic microscopy technologies for detecting errors and evaluating the quality standards of products is boosting sales of acoustic microscopes. This can be ascribed to the effective identification qualities of acoustic microscopes.
Acoustic Microscopy Market Size (2023E)
US$ 1.29 Billion
Forecasted Market Value (2033F)
US$ 2.2 Billion
Global Market Growth Rate (2023 to 2033)
China Market Growth Rate (2023 to 2033)
Japan Market Growth Rate (2023 to 2033)
Germany Market Growth Rate (2023 to 2033)
Canada Market Growth Rate (2023 to 2033)
Key Companies Profiled
Which Factors are Driving the Demand for Acoustic Microscopes?
“Advanced Capabilities of Photoacoustic Microscopy Boosting Product Sales Growth”
Photoacoustic microscopy (PAM) utilizes the photoacoustic effect to identify optical differences. It is an efficient hybrid imaging approach that goes beyond optical diffusion by using the slight acoustic scattering of tissues. This method can provide high-resolution images with maximum imaging depths of a few millimeters owing to the superior scaling capabilities of the devices.
Compared to optical coherence tomography and confocal microscopy, which rely on the backscattering method, these cutting-edge photoacoustic machines have several advantages. Photoacoustic microscopy provides absorption contrast as an alternative to scattering contrast.
At the specified absorption wavelength, the target device in photoacoustic microscopy can image a greater number of molecules, both exogenous and endogenous. Therefore, photoacoustic imaging has an advantage over fluorescence-based techniques such as wide-field, confocal, and multi-photon microscopy.
A key characteristic of photoacoustic imaging is its ability to provide simultaneous in vivo imaging of metabolic contrast, anatomy, flow dynamics, functionality, and molecular information. The biomedical field is significantly benefitting from such cutting-edge features.
“Increasing Adoption of Acoustic Microscopes in Research Institutes”
The use of scanning acoustic microscopes in research is anticipated to remain high as the demand for advanced research investigations in the pharmaceutical, healthcare, and biotechnology industries grow. Researchers are increasingly adopting advanced equipment as a result of the rising demand for precise picture analysis to comprehend the effects of environmental issues and the consumption of pharmaceuticals on the human body.
A scanning acoustic microscope allows researchers to closely examine images for precise measurements and come up with effective solutions. A rise in the demand for scanning acoustic microscopes in various research institutes is anticipated to boost their sales during the forecast period.
“Wide Use of Acoustic Microscopy Equipment in Analysis of Chronic Disorders”
Acoustics is one of the innovative technologies being developed to streamline processing, enhance quality, and ensure the safety of chemical, food, and pharmaceutical products. Acoustic spectroscopy primarily involves the measurement of the strength and phase of the ultrasonic pulse after it has passed through a sample. This method aims to analyze opaque and even highly structured systems through the characterization of colloidal dispersions without dilution.
In recent years, this method has found wide applications at various stages of the drug development process. Furthermore, acoustic spectroscopy sales are anticipated to be driven by the development of cutting-edge technologies for unique applications during the forecast period.
- For instance, scientists from the University of Surrey used the mass spectrometry (MS) method to expedite the development of the COVID-19 vaccine.
- According to a study published in June 2020, the MALDI MS imaging technology can be used to examine the quantitative, physical, or physiological characteristics of tissues. As a result, the method can be applied to cancer proteomics research, cancer diagnostics, and cancer prognosis, and in the treatment of malignancies.
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What is Restricting the Sales of Acoustic Microscopes?
“Lack of Awareness and Scarcity of Skilled Personnel”
High manufacturing and operational costs as well as a lack of awareness are a threat to the market for acoustic microscopy. Additional potential hindrances to the growth of the acoustic microscopy market include the imposition of high excise taxes and customs duties on acoustic microscopes, as well as a shortage of qualified professionals. All these factors may restrict the sales of acoustic microscopes.
Why Does the United States Hold a Leading Share of the Market for Acoustic Microscopes?
“Growing Prevalence of Chronic Disorders in the Country”
The acoustic microscopy market in the United States is currently dominating the North American market due to the availability of advanced healthcare facilities in the country. The presence of key market players and increasing cases of chronic disorders are boosting the demand for acoustic imaging in the United States.
- According to the American Cancer Society, approximately 1.9 million cancer cases were diagnosed in the United States in 2021.
The government of the United States is investing heavily in healthcare and research activities to develop advanced acoustic microscopy software and solutions. The increasing use of microscopy techniques is observed in the healthcare sector.
What is the Demand Outlook for Acoustic Microscopes in Germany?
“Key Biotechnological Companies Based in Germany”
Sales of acoustic microscopes in Germany are expected to increase at a CAGR of 5% from 2023 to 2033.
Due to the presence of leading biotechnology companies and state-of-the-art research facilities and substantial funding for research, Germany is regarded as the premier biotechnology hub in Europe. Advancements in research in the country offer promising prospects and a well-established market for acoustic microscopes.
- In April 2019, the German microscope manufacturer Leica Microsystems became the first company to receive FDA certification for a blue light fluorescence filter for detecting cancer.
Fiber-optic microscopy offers potential for the diagnosis of cancer at early stages and surgical guidance.
What is the Approach Used by Japanese Acoustic Microscopy Providers?
“Advanced Microscopy Services Attracting International Players to Japan”
Japanese businesses are focusing on creating sophisticated microscopes with advanced technologies, such as the introduction of artificial intelligence (AI), to enhance their revenue share and attract international players.
- Olympus, a major producer of optical microscopes, launched the IXplore microscope line to meet the demands of the life sciences industry. This gadget has an automatic imaging technology component for precise and successful investigations, as well as the IXplore Live capability for accurate live cell imaging.
- The Nikon Instruments Inc.'s Eclipse Ti2 inverted research microscope provides a wide range of views while enhancing stability and ease of operation. Nikon is enhancing the imaging capabilities of its devices to help researchers carry out in-depth analyses.
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Which Industry Widely Employs Acoustic Microscopy?
“Increasing Adoption of Non-destructive Testing in Healthcare Sector”
The method of non-destructive testing (NDT) detects faults or deviations in a product, component, or assembly without hindering its operational ability. This method is widely utilized across industries to ensure the quality of their products.
Ensuring the integrity of medical equipment and devices is a crucial component of healthcare solutions. Producers of medical devices use NDT inspection services to identify fault lines to avoid product recalls and ensure patient safety. The need for NDT to determine compatibility with the human body, fatigue strength, yield stress, ductility, and wear resistance over time has been greatly influenced by the rise in procedures requiring prostheses. From a diagnostics perspective, NDT inspection is equally significant. To deliver accurate results and diagnoses, lab testing equipment must always function with precision.
The arrival of the COVID-19 pandemic increased the need for NDT inspection services in the manufacturing of diagnostic equipment. The need for reliable instruments is anticipated to rise due to a surge in patient visits and the intense strain on the healthcare system. To a significant degree, this demand will be met through NDT inspection.
Key players in the acoustic microscopy market are focusing on reducing recalls of products and increasing their profits. Manufacturers are concentrating on the integration of software-based innovations.
- In November 2020, Qnami launched the Qnami ProteusQ a comprehensive quantum microscope system that was created using the HORIBA AFM technology. It is a scanning nitrogen-vacancy (NV) microscope created for the atomic-scale investigation of magnetic materials. The Qnami ProteusQ system has cutting-edge electronics, software, and an AFM optical platform. Future adjustments, scaling, growth, and capability enhancements are possible due to its flexible design.
Fact.MR, a market research and competitive intelligence provider, reveals key marketing trends and strategies adopted by several leading companies in the acoustic microscopy market including changes in pricing trends, local supply and demand, quality standards, and more.
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Key Segments of Acoustic Microscopy Industry Research
By Offering :
- Accessories & Software
By Application :
- Non-destructive Testing
- Product Reliability Testing/Quality Control
- Failure Analysis
By End Use :
- Life Sciences
- Materials Science
By Region :
- North America
- Latin America
- East Asia
- South Asia & Oceania
- FAQs -
Sonoscan, Hitachi Power Solutions, and Sonix are market leaders in acoustic microscopy.
Global demand for acoustic microscopes is valued at US$ 1.29 billion in 2023.
The global market for acoustic microscopes is expected to reach US$ 2.2 billion in 2033.
Global sales of acoustic microscopes are predicted to increase at a CAGR of 5.5% from 2023 to 2033.
North America accounts for a leading share of the global acoustic microscopy market.