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Scanning Electron Microscope (SEM) Market to Grow by USD 1.08 Billion from 2024-2028, Driven by Focus on Nanotechnology and AI’s Role in Market Transformation – Technavio

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NEW YORK, Oct. 1, 2024 /PRNewswire/ — Report on how AI is driving market transformation – The Global Scanning Electron Microscope (SEMS) Market size is estimated to grow by USD 1.08 billion from 2024-2028, according to Technavio. The market is estimated to grow at a CAGR of over 8.09% during the forecast period. Increasing focus on nanotechnology is driving market growth, with a trend towards increased demand for LVEMS. However, high cost of scanning electron microscope poses a challenge – Key market players include Advantest Corp., Agilent Technologies Inc., Bruker Corp., Carl Zeiss Stiftung, COXEM Co. Ltd., Danaher Corp., DELONG INSTRUMENTS AS, Hirox Co. Ltd., Hitachi Ltd., HOVERLABS, JEOL Ltd., Keysight Technologies Inc., Nikon Corp., Nion, Olympus Corp., Seiko Holdings Corp., TESCAN GROUP, Thermo Fisher Scientific Inc., Tokyo Instruments Inc., and Topcon Corp..

Key insights into market evolution with AI-powered analysis. Explore trends, segmentation, and growth drivers- View the snapshot of this report

Scanning Electron Microscope (SEMS) Market Scope

Report Coverage

Details

Base year

2023

Historic period

2018 – 2022

Forecast period

2024-2028

Growth momentum & CAGR

Accelerate at a CAGR of 8.09%

Market growth 2024-2028

USD 1083.8 million

Market structure

Fragmented

YoY growth 2022-2023 (%)

7.32

Regional analysis

APAC, North America, Europe, South America, and Middle East and Africa

Performing market contribution

APAC at 42%

Key countries

US, China, Japan, Germany, and South Korea

Key companies profiled

Advantest Corp., Agilent Technologies Inc., Bruker Corp., Carl Zeiss Stiftung, COXEM Co. Ltd., Danaher Corp., DELONG INSTRUMENTS AS, Hirox Co. Ltd., Hitachi Ltd., HOVERLABS, JEOL Ltd., Keysight Technologies Inc., Nikon Corp., Nion, Olympus Corp., Seiko Holdings Corp., TESCAN GROUP, Thermo Fisher Scientific Inc., Tokyo Instruments Inc., and Topcon Corp.

 

Market Driver

Scanning electron microscopes (SEMs) come in two main varieties: high-voltage electron microscopes (HVEMs) and low-voltage electron microscopes (LVEMs). While HVEMs operate at a high voltage of 100 kilovolts, LVEMs function at a reduced voltage of less than 25 kilovolts. This difference makes LVEMs more compact and cost-effective, allowing them to be used as tabletop or desktop microscopes. LVEMs are particularly suitable for specimens with a low atomic number, such as polymers, composite materials, pigments, minerals, cells, and membranes. These microscopes cause minimal damage to specimens due to lower radiation and offer high contrast. In contrast, HVEMs can damage specimens due to high radiation accumulation. LVEMs have gained popularity in life science, material science, pathology, and nanomaterial applications. Delong America is a leading vendor in this segment, offering products like LVEM5 and LVEM25, which function as both TEM and SEM. Although LVEMs are priced lower than conventional electron microscopes, they do not match their magnification capabilities. The increasing demand for LVEMs in various industries is expected to fuel the growth of the global scanning electron microscope market. 

The Scanning Electron Microscope (SEM) market is experiencing significant growth due to increasing trends in nanotechnology and electronics. With the miniaturization of transistor chips and the demand for high resolution nanoscale imaging, SEMs play a crucial role in surface morphology analysis and chemical composition identification. The market caters to various industries including electronics, life sciences, and material sciences. Nanotechnology applications in areas like nanofibers, nanotubes, temperature superconductors, and alloy strength are driving the demand for SEMs. However, high excise taxes and custom duties pose challenges for market expansion. SEMs are used for failure analysis, drug development, material characterization, and correlative microscopy techniques like light microscopy and atomic force microscopy. Industries like aerospace, defense, and medical devices also rely on SEMs for quality control and clinical trials. Advancements in detector technology and the introduction of compact, high vacuum, low vacuum, cryo-SEM, environmental SEM, field emission SEM, tabletop SEM, dual-beam SEM, and other models continue to boost market growth. 

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 Market Challenges

The Scanning Electron Microscope (SEM) market is currently experiencing a challenge due to the high cost of SEMs, which is limiting demand. SEMs range in price from USD100,000 to USD1,250,000, with non-analytical models costing approximately USD700,000. Most vendors sell SEMs in this price range, while analytical models cost between USD400,000 and USD620,000. The price depends on the model’s specifications and accessories. Organizations face budget constraints, making it difficult to purchase SEMs. Educational institutions and research organizations, which are significant buyers, depend on external funding, leading to uncertain sales. The high cost also impacts overseas sales due to customs taxes, which can reach up to 30% of the product cost. Potential customers often opt for renting SEMs instead, affecting new product sales. The price difference between new and used SEMs can be significant, reaching up to 50% or more. Consequently, the high cost of SEMs is expected to restrict market growth during the forecast period.The Scanning Electron Microscope (SEM) market is experiencing significant growth due to its applications in various industries. Nanotechnology is a key driver, with SEMs used to examine nanofibers, nanotubes, and other nanoscale structures in materials science and biology. Chronic diseases and drug development also benefit from SEMs’ high-resolution imaging capabilities. In industries like aerospace, defense, and environmental science, SEMs are used for material characterization and failure analysis. SEMs are also essential in research institutions for studying temperature superconductors, alloy strength, and other advanced materials. With the increasing demand for user-friendly software, compact models, and correlative microscopy techniques, SEMs are becoming more accessible to a wider range of users. New technologies like Cryo-SEM, Low vacuum SEM, and Field emission SEM are expanding the applications of SEMs, while automated features and intelligent technology enhance their efficiency. SEMs are also used in forensics and semiconductor manufacturing for specimen analysis and high-energy beam applications. Overall, the SEM market is poised for continued growth in various industries due to its versatility and importance in material science, nanotechnology, and research and development.

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Segment Overview 

This scanning electron microscope (sems) market report extensively covers market segmentation by

Type 1.1 Tabletop1.2 ConventionalEnd-user 2.1 Semiconductor2.2 Life sciences2.3 Material sciences2.4 NanotechnologyGeography 3.1 APAC3.2 North America3.3 Europe3.4 South America3.5 Middle East and Africa

1.1 Tabletop- The tabletop segment of the global scanning electron microscope (SEM) market refers to compact and portable SEM systems designed for easy installation and use in laboratories and educational institutions. Their smaller size and affordability make tabletop SEMs an accessible and cost-effective option for researchers and educators in small facilities. These systems offer high-resolution imaging capabilities with efficient data acquisition, enabling quick analysis and increased productivity. Tabletop SEMs cater to various applications in materials science, nanotechnology, life sciences, and more, expanding their value to researchers and institutions. With user-friendly interfaces and simplified operations, these systems are suitable for users of all experience levels. Their maintenance requirements are also less complex compared to larger SEM systems, reducing operational downtime and costs. These factors are expected to fuel the growth of the tabletop segment in the global SEM market.

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Research Analysis

The Scanning Electron Microscope (SEM) market encompasses nanotechnology applications in various industries, including the semiconductor industry, electronics, and materials science. SEMs utilize electron beams to achieve high-resolution imaging at the nanoscale, revealing surface morphology, chemical analysis, fractography, and other critical details. These microscopes are essential for nanoscale imaging and analysis in sectors such as nanotechnology, nanoscale materials, and medical research. SEMs offer magnification capabilities far beyond light microscopy, enabling the examination of high-energy beam-sensitive specimens and nanoscale structures. They are indispensable tools for semiconductor wafer analysis, materials science, and biology. Correlative microscopy techniques, such as SEM-Atomic Force Microscopy (AFM), further expand their capabilities. Detector technology advancements continue to improve resolution power, making SEMs an intelligent technology for high-precision analysis and research.

Market Research Overview

The Scanning Electron Microscope (SEM) market encompasses various industries, including nanotechnology, electronics, life sciences, material sciences, and more. SEMs utilize electron beams to achieve high-resolution imaging of nanoscale structures, providing valuable information on surface morphology, chemical analysis, fractography, and more. Applications span from nanofibers and nanotubes in material sciences to temperature superconductors and alloy strength in aerospace and defense. SEMs are essential for miniaturization in electronics, such as transistor chips, and for quality control in manufacturing processes. Sample preparation is a critical aspect of SEM analysis, with various techniques employed to ensure accurate results. High excise taxes and custom duties pose challenges to the market, particularly for research institutions and smaller businesses. Advanced detector technology, user-friendly software, and automated features are driving the development of compact SEMs and other innovative SEM models, including high vacuum, low vacuum, cryo-SEM, environmental SEM, field emission SEM, tabletop SEM, dual-beam SEM, and more. SEMs play a crucial role in failure analysis, drug development, material characterization, and various fields, including biology, correlative microscopy techniques, and forensics. Intelligent technology and automated features are enhancing the capabilities of SEMs, enabling new applications in nanotechnology, medical research, and semiconductor wafers. High-energy beam magnification and specimen analysis are key features that enable SEMs to provide valuable insights into nanoscale materials and structures.

Table of Contents:

1 Executive Summary
2 Market Landscape
3 Market Sizing
4 Historic Market Size
5 Five Forces Analysis
6 Market Segmentation

TypeTabletopConventionalEnd-userSemiconductorLife SciencesMaterial SciencesNanotechnologyGeographyAPACNorth AmericaEuropeSouth AmericaMiddle East And Africa

7 Customer Landscape
8 Geographic Landscape
9 Drivers, Challenges, and Trends
10 Company Landscape
11 Company Analysis
12 Appendix

About Technavio

Technavio is a leading global technology research and advisory company. Their research and analysis focuses on emerging market trends and provides actionable insights to help businesses identify market opportunities and develop effective strategies to optimize their market positions.

With over 500 specialized analysts, Technavio’s report library consists of more than 17,000 reports and counting, covering 800 technologies, spanning across 50 countries. Their client base consists of enterprises of all sizes, including more than 100 Fortune 500 companies. This growing client base relies on Technavio’s comprehensive coverage, extensive research, and actionable market insights to identify opportunities in existing and potential markets and assess their competitive positions within changing market scenarios.

Contacts

Technavio Research
Jesse Maida
Media & Marketing Executive
US: +1 844 364 1100
UK: +44 203 893 3200
Email: media@technavio.com
Website: www.technavio.com/

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SOURCE Technavio

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Technology

CompTIA Spark introduces free high-quality technology curriculum for middle grade classrooms

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On World Teachers’ Day, the nonprofit organization highlights the importance of middle school teachers, empowers them to teach technology skills

DOWNERS GROVE, Ill., Oct. 5, 2024 /PRNewswire/ — Responding to a critical gap in technology education, CompTIA Spark has launched free technology curriculum specifically for middle grade classrooms, grades 5-8. It aims to support teachers so that they can teach the critical skills students need to succeed in whatever path they choose. The nonprofit organization worked with educators across the country to develop the curriculum.

“Getting this free resource into the hands of middle school teachers can help close the gap in technology education.”

“World Teachers’ Day celebrates how important teachers are,” says Randi Parker, chief of staff and vice president of CompTIA Spark. “And we know that middle school teachers in particular play such an important role in a student’s journey which is why they are the key to bringing technology education to more schools. We could not have developed this curriculum without them, and we can’t reach students without them.”

For about the past year, school districts as well as individual teachers have been implementing the CompTIA Spark curriculum in middle grade classrooms and providing feedback that allowed for a testing and development period prior to the full-scale launch. The schools that participated in this phase ranged from award-winning STEM schools to less-resourced ones, with all types of schools reporting the curriculum was a success and that students were engaged and excited to learn.

Getting students excited about technology and growing their confidence with hands-on learning is critical at the middle school level. Without access to quality technology education, students fall behind before they reach high school which means they do not have the digital fluency needed to succeed in school and in life. Filling this critical gap is the mission of CompTIA Spark.

With the new free curriculum, teachers can guide middle grade students through engaging project-based lessons that build capability using common applications and 21st century skills. Students gain a solid foundation in key technology concepts to prepare them for future opportunities — in high school and beyond.

Delivered through an online learning platform, the curriculum sparks interest in technology and how it is used in a wide variety of careers. For example, the Tech Exploration units have interactive lessons that show how tech skills are used in roles like product design, market research, accounting, marketing and more. Meanwhile, the Emerging Tech units focus on artificial intelligence (AI), cybersecurity, and smart home technology. Full access to the curriculum is available to middle grade educators absolutely free — to empower more teachers to teach the subject, even if they have not taught it previously.

A recent special report from Education Week highlighted how schools have been “struggling to recruit and retain math and science teachers for decades,” let alone educators who can teach technology subjects. The report also stressed the fact that current teachers need to be given opportunities to be able to teach new subjects related to emerging fields and technologies — with this being a solution to tackling the shortage.

“Because of the way the curriculum is intentionally designed, we are able to take the burden off the teacher by providing high-quality technology curriculum that middle grade teachers can use in their classroom regardless of their past experience with the subject,” says Parker. “Getting this free resource into the hands of teachers can help close the gap in technology education that currently exists at the middle school level. CompTIA Spark curriculum is free, and always will be free, because it is a gift from the tech industry to future generations.”

Districts, schools and individual teachers are invited to explore the curriculum and get started at comptiaspark.org.

About CompTIA Spark

CompTIA Spark develops free high-quality technology curriculum for middle grade classrooms to close a critical gap in technology education that exists before high school. This work improves student outcomes and success, and helps ensure a diverse talent pipeline for the technology workforce. CompTIA Spark is an independent 501(c)(3) nonprofit organization that operates as the charitable arm of the Computing Technology Industry Association (CompTIA), a leading voice and advocate for the global information technology ecosystem and a trusted provider of technical training and IT certifications. Learn more at comptiaspark.org.

MEDIA CONTACTS:
Laura Perillo and/or Cristina De Guia
news@comptiaspark.org

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SOURCE CompTIA Spark

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SAUNEX Partners with Saudi SIIVC in Strategic EV Initiative

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The partnership will concentrate on the development and manufacturing of electric vehicles, enhancing industry capabilities

BANGKOK, Oct. 5, 2024 /PRNewswire/ — UNEX of the Netherlands, a global leader in the research and development of electric vehicles (EVs), and Siam Racing Automobiles (SRA) of Thailand, a world-class automotive design and engineering firm, have announced that their joint venture, SAUNEX, has entered into a strategic cooperation agreement with Saudi Arabia International Industrial Village (SIIVC). The alliance will establish a production facility for EVs in Saudi Arabia, aiming to extend their market reach across the Middle East, North Africa, and Southern Europe.

Chatchaval Jiaravanon, a member of the family that controls CP Group, addressed the audience at the signing ceremony. He highlighted the importance of automotive manufacturing as a benchmark of a nation’s industrial capabilities. Reflecting on CP Group’s past collaboration with China’s SAIC to set up a production facility for MG sports cars in Thailand, he noted that the success of automotive ventures relies critically on exemplary technology and leadership. The partnership between SAUNEX and SIIVC is aligned with Saudi Arabia’s Vision 2030 strategic initiative, emphasizing sustainable collaboration in the development, production, and marketing of EVs. The goal is to drive significant progress in Saudi Arabia’s EV sector and position SAUNEX as a beacon of successful international cooperation between Thailand and Saudi Arabia.

Mr. Jiaravanon also remarked that SAUNEX stands at the forefront of electric vehicle R&D, particularly in the application of battery swapping technology and the fields of automotive design and engineering. Their leading model, the Manto, is a luxury electric SUV that utilizes UNEX’s battery swapping technology, enhanced by SRA’s sophisticated design and engineering. It significantly outperforms competitors, offering a superior choice for future EVs free from the usual range limitations.

Top management executives from UNEX at the ceremony pointed out that under the leadership of Dr. Faisal Abdullah, CEO of SIIVC, the project aims to develop cutting-edge automotive production and battery swapping facilities in Saudi Arabia, manufacturing a full line-up of vehicle models including sedans, SUVs, and vans. The partnership also includes collaboration with CP Group and automotive supply chains in Thailand and China, aiming to create a sustainable and advanced industrial ecosystem that sets a global standard for the electric vehicle industry.

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SOURCE UNEX

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Israel Banned from UAE BioTech Symposium

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Israeli BioTech companies will not be permitted at the quarterly event with Roadshows throughout the Arab Gulf States, including the United Arab Emirates, Kuwait, Qatar, Oman, Bahrain and Saudi Arabia

In parallel, UAE BioTech Symposium has been dedicated to the memory of The Rockefeller University Nobel Laureate Professor Dr. Günter Blobel, MD. PhD., Founder of The Friends of Dresden.

ABU DHABI, UAE, Oct. 5, 2024 /PRNewswire/ — “The board of AmCham Abu Dhabi mandated that Chinese and Russian companies are not allowed. As Founding Chairman of AmCham Abu Dhabi BioTech Committee & Chairman of UAE BioTech Symposium, I mandate that Israeli companies are not allowed, says Dr. Kambiz Shekdar, PhD.

Dr. Shekdar is Owner and Chairman of the quarterly UAE BioTech Symposium launching Nove 2-6, 2024 in Abu Dhabi and Dubai, UAE. Registration for UAE BioTech Symposium is hosted at AmCham Abu Dhabi. The detailed program is available at https://www.uaebiotechsymposium.com.

“I spent 8 years in the lab with Günter as my mentor. He would often talk about how his family was packed in a car, passing through Dresden escaping Nazi Germany when the fire bombing happened. I remember each time he remembered how he could read the pages of the newspaper by the light of the fire kilometers away. He donated his prize money to all three religions because he understood that peace is the fundament for achieving our human potential,” add Shekdar.

“I saw the firebombing destruction of Dresden from very near,” Blobel told The Times of Israel upon Dr. Blobel’s passing on February 18, 2018, “only a few kilometers away; for an 8 1/2-year-old, this was all very impressive. The bombing was so bright that you could read the newspaper by the red sky.”

Complete information about UAE BioTech Symposium is available at the Chairman’s personal portal at this link: https://linktr.ee/kambizshekdar

About UAE BioTech Symposium Chairman Dr. Kambiz Shekdar, PhD
From invention at The Rockefeller University to IPO at New York Stock Exchange to scale-up drug discovery for jointly owned Made-in-Abu-Dhabi IP in the U.A.E., Dr. Kambiz Shekdar is the first U.S. Biotech Abu Dhabi Golden Visa Inventor transitioning to the U.A.E.

Dr. Shekdar, PhD invented Chromovert® Technology while he was a graduate doctoral student in the laboratory of his mentor, the late Nobel laureate & King Faisal Prize winner Dr. Günter Blobel, MD, PhD. at The Rockefeller University in New York City. For more than 20 years, Dr. Shekdar has been pursuing applications of the same platform technology, now including pursuing the creation of a joint venture with Emirati stakeholders to implement the by-now validated research engine as part of a national-level public-private partnership for drug discovery at scale in the U.A.E. Dr. Shekdar is also a member of the Abu Dhabi, UAE chapter of American Chambers of Commerce where he is Founding Chairman of the AmCham Abu Dhabi BioTech Committee.

https://www.linkedin.com/in/kambiz-shekdar-51a52a34/

About UAE BioTech Symposium
UAE BioTech Symposium in partnership with the AmCham Abu Dhabi BioTech Committee and Masdar City will host quarterly panel discussions and lab tours in Abu Dhabi, Dubai and roadshow destinations throughout the GCC and Middle East. The events are free with attendance limited to prioritize U.S. and international BioTech owners and executives. Program details will be posted online in Arabic and in English as registration for each event goes live via the AmCham Abu Dhabi website.

Arabic site for scientific program: http://www.uaebiotechsymposium.ae
English site for scientific program: https://www.uaebiotechsymposium.com

About AmCham BioTech Committee
The AmCham BioTech Committee was formed to establish a BioTech sector in Abu Dhabi with a focus on promoting opportunities for U.S. BioTech companies with a vision to be a thought leader and facilitator for U.S. corporate interests in the emerging BioTech sector in Abu Dhabi and throughout the Middle East. Since its founding, the BioTech committee has seen a notable uptick in interest from U.S.-based companies seeking to broaden their service offerings within the region. AmCham BioTech Committee founding members include Seconcell Bio, Intelligenix Advanced Diagnostics, Extend Biosciences, Halia Therapeutics and Jones Lang LaSalle Inc (JLL).
https://amchamabudhabi.org/biotech/

CONTACT: Kambiz Shekdar, +971585820175

 

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SOURCE Secondcell Bio, LLC; UAE BioTech Symposium

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