Focused Ion Beam market 2023 Expected to Project a Notable CAGR of 7.6% with USD 1.70 billion by 2029|158 Pages Report

Growth of Focused Ion Beam market is scheduled to accelerate at a high CAGR of 7.6 % to reach USD 1.70 billion by 2029.

Focused Ion Beam market Overview
Qualitative analysis about Focused Ion Beam market status (2023-2029), enterprise competition pattern, advantages and disadvantages of enterprise Products, industry development trends , regional industrial layout characteristics and macroeconomic policies, industrial policy has also be included. From raw materials to downstream buyers of this industry will be analysed scientifically, the feature of product circulation and sales Distribution will be presented as well.

Focused ion beamis a high-energy ion beam produced by FIB-enabled equipment. This equipment is majorly used in semiconductor industry and in 3D imaging techniques. Increased R&D investment for materials science and bio materials is a major factor that boosts the growth of the market. Increase in demand for FIB-based failure analysis equipment in electronics industry and circuit editing application using FIB are other major factors that propel the focused ion beam market growth.

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The comprehensive Demand analysis of the Focused Ion Beam market will assist in managing better product differentiation, along with detailed understanding of the core capability of each activity involved. The Focused Ion Beam market attractiveness analysis provided in the report aptly measures the potential value of the market providing business strategists with the latest growth opportunities.

Following are the major Companies of Focused Ion Beam market - Thermo Fisher Scientific, Inc., ZEISS International, Tescan, JEOL Ltd., HORIBA, Ltd., Hitachi High-Technologies Corporation, Eurofins Scientific, A&D Company Limited and others.

Recent Developments

In August 2022, Thermo Fisher Scientific Inc. launched the Thermo Scientific Arctis Cryo-Plasma Focused Ion Beam (Cryo-PFIB), a new connected and automated microscope designed to advance the pace of cryo-electron tomography (cryo-ET) research.
In July 2022, TESCAN ORSAY HOLDING a.s. supplied the AMBER X focused ion beam-scanning electron microscope (FIB-SEM) to the Institute for Factory Automation and Production Systems (FAPS) in Germany. FAPS will use the FIB-SEM for silver printing and copper coating analysis to improve mechatronic systems, battery components, and additive manufacturing.
Focused Ion Beam market Segmentation:
Based on the industrial chain, this report mainly indicates the definition, types, applications and major players of Focused Ion Beam market in details.

Focused Ion Beam Market by Ion Source, 2023-2029, (USD Billion)

Ga+ Liquid Metal

Plasma

Focused Ion Beam Market by Vertical, 2023-2029, (USD Billion)

Electronics & Semiconductor

Industrial Science

Material Science

Bioscience

Focused Ion Beam Market by Application, 2023-2029, (USD Billion)

Failure Analysis

Nanofabrication

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Market Dynamics of Focused Ion Beam Market

Drivers: Deployment of focused ion beam systems for applications in material science industry

Characterization and testing of materials are important prior to their use on a large scale. Appropriate testing of materials increases their flexibility and durability. Material science deals with discovering and developing new materials and methods for their study. It is a multidisciplinary science that involves different fields, such as physics, chemistry, and engineering. It focuses on analyzing materials' chemical, electrical, mechanical, magnetic, optical, and thermal characteristics. The field can be divided into biomaterials, electronic and photonic materials, nanomaterials, organic materials, structural and composite materials, and smart materials. Exponential growth has been observed in research activities related to material science across the globe. Research activities require sophisticated analytical tools to analyze and understand new materials with prominent physical properties. This leads to an increased demand for FIB systems that offer analytical and patterning capabilities in a single instrument.

FIB systems can prepare site-specific cross-sections stress-freely, irrespective of the materials used. Ga+ ion beam source is used for imaging conductive and other raw materials in the material science vertical. Sections of material samples prepared by FIB systems are remarkable as they help identify and determine defects. They are also used to cut various materials, including silicon, indium phosphide, gallium arsenide, and metal, without distorting them. These systems are used for sectioning materials in sizes ranging from a few tens of atoms to a few tens of microns. FIB systems are used for the preparation of TEM cross-section lamellae and the production of solid-state nanopores. These systems are also used in thin films and devices for 3D visualization. They also find applications in next-generation memory solutions and processors. These systems are to carry out the microanalysis of cell morphology and biotechnology, nanoscale machining, and metallurgy. FIB systems can remove or add atoms to raw materials with submicron precision. As a result, it is hard to replace FIB systems in failure analysis and masking and (IC) repairing applications.

Material science researchers are making efforts to develop new and strong materials based on the materials that occur naturally. For instance, Nacre, the iridescent and super-strong material, also known as the mother-of-pearl, is sectioned using FIB systems to study it through SEM to develop strong materials based on its properties for the Institute of Soldier Nanotechnologies.

Restraints: Requirement for highly skilled workforce to operate advanced FIB systems

Analysis of devices and recommendations for improving them involves using multiple techniques, equipment, and technical expertise. For instance, skilled engineers must perform the failure analysis of faulty chips by decapsulating and analyzing them to segregate and identify the reason for their fault. Moreover, they should be capable of encapsulating chips into their package for smooth functioning. Different companies are developing new technologies to gain an edge over their competitors and strengthen their market position. For instance, in 2014, US-based IONpath, Inc. developed multiplexed ion beam imaging (MIBI) technology for FIB systems to examine small cellular structures and intact tissue tumor microenvironments and carry out different biological analyses simultaneously to use a single slide.

Moreover, zerok NanoTech developed low-temperature ion source (LoTIS) technology for FIB-based circuit edit applications. As FIB technology is evolving day by day, there is a requirement for a highly skilled workforce to adapt to these latest advancements in this technology. The highly skilled workforce is essential to operate new and advanced FIB systems and gathering accurate data by analyzing samples. Moreover, it should also be able to handle the operational complexity of FIB systems that requires technical expertise and knowledge.

Opportunities: Rising use of FIB systems to study biological samples and biomaterials

Initially, FIB systems were restricted to the electronics & semiconductor and the material sciences verticals. Presently, they are evolving as powerful tools for the ultrastructural and nanoscale cellular imaging of biological samples and biomaterials (materials that associate immediately with the living tissues without causing any adverse immune rejection reaction). Earlier, confocal light microscopy, in combination with the traditional fluorescent labeling technique, was used by biologists and life scientists for a detailed study of the biological structures of tissues and cells. However, with the advent of FIB systems, they are being preferred over traditional techniques as it is easy to obtain information from these systems at small scales. FIB systems can be coupled with complementary cryogenic, dual-beam SEM, environmental SEM, and energy-dispersive X-ray spectroscopy (EDX) tools to analyze biomaterials and cells and their interfaces for TEM sample preparation by imaging them.

Moreover, FIB systems are used as sculpting tools, such as lamellae and needles, to create specimen shapes that can be analyzed further by TEM. The FIB cross-sectioning technique helps extract damageable biological specimens of human hair and housefly eyes. Thus, the increasing use of FIB systems to study and analyze biological samples and biomaterials is expected to act as a growth opportunity for the focused ion beam market during the forecast period.

Challenges: 3D reconstruction of porous materials

Data processing for the 3D reconstruction of porous materials is the most challenging aspect of FIB-SEM tomography. FIB-SEM tomography generates 3D images of materials by acquiring and visualizing their different sections. The serial sectioning tomography technique of FIB-SEM systems creates 3D data with nanoscale resolution. 3D acquisitions of porous materials are necessary to determine the mesopores (pores smaller than 2nm in diameter) and macropores (pores larger than 50nm in diameter) and distinguish interactions between them. This information is necessary to know the transport properties and formation mechanisms of materials, which are subject to textural analysis. For instance, in the oil & gas industry, the analysis of the transport properties of fine-grained sediments is essential to enable the recovery of reservoir rocks.

Treating or processing data related to porous materials is difficult due to their unknown porosity and pore size distribution. As a result, it is difficult for FIB systems to evaluate the accuracy of the segmentation procedure of the internal microstructure of porous materials. As there is no fixed segmentation procedure, the effect of different segmentation procedures is expected to impact the ?nal results directly. Moreover, the final result is dependent on the operators of FIB systems.

Focused Ion Beam market Regional Analysis:
Focused Ion Beam market research targets on volume and value at regional Opportunity and company Trends From a global perspective, this report Study represents overall market analysed on historical data and future growth Aspects. Geographically, Focused Ion Beam market report focuses on following key regions: Americas, Europe, Asia-Pacific, Middle East & Africa and ROW.

Growth Market Overview:
Digital transformation of Focused Ion Beam industry verticals requires broadband services, thereby promoting growth. For instance, increasing online commerce for retail goods and services, digitalization of hospital records, e-government initiatives, and rapidly rising platforms for media and entertainment content are notably augmenting the market growth. Wireless technology holds immense potential in accelerating the global digital revolution across verticals through productivity enhancements and cost-effectiveness.

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Top Change Bringing Technologies

Industrial Internet of Things
Artificial Intelligence
Just in Time
Smart Packaging
Additive Manufacturing
Predictive Maintenance

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