All updated as on -
In 2022, the size of the worldwide bohrium market was estimated at $54.8 million. By the end of 2030, it is anticipated to grow at a CAGR of 3.1% to reach US$ 66.0 Mn.
At the Russian Joint Institute for Nuclear Research, bohrium's isotope-261 was first created in 1975. The discovery of isotope-262 was made in 1981 by a group at the Geselleschaft für Schwerionenforschung (GSI), a nuclear research organisation with headquarters in Germany.
Bohrium is a radioactive element created through synthesis that has a short half-life. At room temperature, bohrium is a very heavy, silvery-white metal that is solid. It is a good conductor of electricity and has high melting and boiling points. Due of its high radioactivity, its chemical characteristics are not being investigated in great detail. Although bohrium has no recognised uses besides research in science, it offers a wide range of potential uses in nuclear science and nuclear power plants. Bohrium has other potential uses in cancer treatment and medical imaging, and it can be utilised as a radioactive tracer in industrial operations. Nuclear physics can also make use of boron to comprehend how atomic nuclei behave and the fundamental forces that control them.
Because scientific knowledge is based on unbiased, verifiable facts, systematic scientific study provides insight. In order to solve practical problems, develop novel technologies, and make informed judgements, scientific research is essential. For instance, the creation of many beneficial uses, such as genetically modified crops, hereditary disease diagnostics, and DNA fingerprinting, depended on our understanding of the DNA's structure.
In order to examine nuclear processes and understand the behaviour of atomic nuclei, bohrium is frequently utilised in scientific research. Insights into the basic physics and chemical concepts may result from this. Additionally, the study of nuclear reactions and atomic structures as well as the nature of matter are studied using boronium, which is also being studied for future application in nuclear power plants. Therefore, it is predicted that the value of the bohrium market will expand over the next few years due to an increase in scientific study on the element and its possible applications around the world.
The global market for bohrium is presented with a highly profitable opportunity due to the growth of nuclear physics research and applications. Bohrium has tremendous importance as an element for carrying out these tests, particularly in the field of super heavy element research, due to its short half-life and high radioactivity. Bohrium is a synthetic element with exceptional nuclear characteristics that has the potential to significantly advance knowledge of atomic nuclei and super-heavy elements. In nuclear physics, the demand for bohrium is rising in order to conduct experimental research. As a result, bohrium became more in-demand as a tool for their research. Bohrium is an important element for conducting their tests, especially in the research of super heavy elements, due to its short half-life and strong radioactivity.
In specialised labs, nuclear processes are used to produce the synthetic element boron. Due to its short half-life and difficulty in manufacture, only modest amounts of bohrium have been synthesised. It is challenging to satisfy potential market demand because of this scarcity. Bohrium's marketability is hampered by its limited production capabilities and the technical difficulties involved in synthesising it.
Report Coverage
Global Bohrium research report categorizes the market for global based on various segments and regions, forecasts revenue growth, and analyzes trends in each submarket. Global Bohrium report analyses the key growth drivers, opportunities, and challenges influencing the global market. Recent market developments and Bohrium competitive strategies such as expansion, product launch and development, partnership, merger, and acquisition have been included to draw the competitive landscape in the market. The report strategically identifies and profiles the key Bohrium market players and analyses their core competencies in each global market sub-segments.
Key Points Covered in the Report
Competitive Environment:
The research provides an accurate study of the major organisations and companies operating in the global Bohrium market, along with a comparative evaluation based on their product portfolios, corporate summaries, geographic reach, business plans, Bohrium market shares in specific segments, and SWOT analyses. A detailed analysis of the firms' recent news and developments, such as product development, inventions, joint ventures, partnerships, mergers and acquisitions, strategic alliances, and other activities, is also included in the study. This makes it possible to assess the level of market competition as a whole.
List of Major Market Participants
American Elements, ISOFLEX, Loard Chemical Corporation, Smart elements GmBH, Oak Ridge National Laboratory (United States), Lawrence Berkeley National Laboratory (United States), Joint Institute for Nuclear Research (Russia), GSI Helmholtz Centre for Heavy Ion Research (Germany), RIKEN Nishina Center for Accelerator-Based Science (Japan), Institute of Modern Physics (China), Bhabha Atomic Research Centre (India), Joint Institute for Nuclear Research (JINR) ( Russia), Dubna Superheavy Element Factory (Russia)
Primary Target Market
Market Segment:
This study forecasts global, regional, and country revenue from 2019 to 2030. INFINITIVE DATA EXPERT has segmented the global Bohrium market based on the below-mentioned segments:
Global Bohrium Market, By Type
260Bh
261Bh
262Bh
264Bh
265Bh
266Bh
267Bh
270Bh
271Bh
272Bh
274Bh
Global Bohrium market, By Application
Scientific Research
Medical Imaging
Cancer Treatment
Nuclear Power Plants
Radioactive Tracer
Others
Global Bohrium market, Regional Analysis
At the Russian Joint Institute for Nuclear Research, bohrium's isotope-261 was first created in 1975. The discovery of isotope-262 was made in 1981 by a group at the Geselleschaft für Schwerionenforschung (GSI), a nuclear research organisation with headquarters in Germany.
Bohrium is a radioactive element created through synthesis that has a short half-life. At room temperature, bohrium is a very heavy, silvery-white metal that is solid. It is a good conductor of electricity and has high melting and boiling points. Due of its high radioactivity, its chemical characteristics are not being investigated in great detail. Although bohrium has no recognised uses besides research in science, it offers a wide range of potential uses in nuclear science and nuclear power plants. Bohrium has other potential uses in cancer treatment and medical imaging, and it can be utilised as a radioactive tracer in industrial operations. Nuclear physics can also make use of boron to comprehend how atomic nuclei behave and the fundamental forces that control them.
Because scientific knowledge is based on unbiased, verifiable facts, systematic scientific study provides insight. In order to solve practical problems, develop novel technologies, and make informed judgements, scientific research is essential. For instance, the creation of many beneficial uses, such as genetically modified crops, hereditary disease diagnostics, and DNA fingerprinting, depended on our understanding of the DNA's structure.
In order to examine nuclear processes and understand the behaviour of atomic nuclei, bohrium is frequently utilised in scientific research. Insights into the basic physics and chemical concepts may result from this. Additionally, the study of nuclear reactions and atomic structures as well as the nature of matter are studied using boronium, which is also being studied for future application in nuclear power plants. Therefore, it is predicted that the value of the bohrium market will expand over the next few years due to an increase in scientific study on the element and its possible applications around the world.
The global market for bohrium is presented with a highly profitable opportunity due to the growth of nuclear physics research and applications. Bohrium has tremendous importance as an element for carrying out these tests, particularly in the field of super heavy element research, due to its short half-life and high radioactivity. Bohrium is a synthetic element with exceptional nuclear characteristics that has the potential to significantly advance knowledge of atomic nuclei and super-heavy elements. In nuclear physics, the demand for bohrium is rising in order to conduct experimental research. As a result, bohrium became more in-demand as a tool for their research. Bohrium is an important element for conducting their tests, especially in the research of super heavy elements, due to its short half-life and strong radioactivity.
In specialised labs, nuclear processes are used to produce the synthetic element boron. Due to its short half-life and difficulty in manufacture, only modest amounts of bohrium have been synthesised. It is challenging to satisfy potential market demand because of this scarcity. Bohrium's marketability is hampered by its limited production capabilities and the technical difficulties involved in synthesising it.
Report Coverage
Global Bohrium research report categorizes the market for global based on various segments and regions, forecasts revenue growth, and analyzes trends in each submarket. Global Bohrium report analyses the key growth drivers, opportunities, and challenges influencing the global market. Recent market developments and Bohrium competitive strategies such as expansion, product launch and development, partnership, merger, and acquisition have been included to draw the competitive landscape in the market. The report strategically identifies and profiles the key Bohrium market players and analyses their core competencies in each global market sub-segments.
| REPORT ATTRIBUTES | DETAILS |
|---|---|
| Study Period | 2017-2030 |
| Base Year | 2022 |
| Forecast Period | 2022-2030 |
| Historical Period | 2017-2021 |
| Unit | Value (USD Billion) |
| Key Companies Profiled | American Elements, ISOFLEX, Loard Chemical Corporation, Smart elements GmBH, Oak Ridge National Laboratory (United States), Lawrence Berkeley National Laboratory (United States), Joint Institute for Nuclear Research (Russia), GSI Helmholtz Centre for Heavy Ion Research (Germany), RIKEN Nishina Center for Accelerator-Based Science (Japan), Institute of Modern Physics (China), Bhabha Atomic Research Centre (India), Joint Institute for Nuclear Research (JINR) ( Russia), Dubna Superheavy Element Factory (Russia) |
| Segments Covered | • By Product |
| Customization Scope | Free report customization (equivalent to up to 3 analyst working days) with purchase. Addition or alteration to country, regional & segment scope |
Key Points Covered in the Report
- Market Revenue of Bohrium Market from 2021 to 2030.
- Market Forecast for Bohrium Market from 2021 to 2030.
- Regional Market Share and Revenue from 2021 to 2030.
- Country Market share within region from 2021 to 2030.
- Key Type and Application Revenue and forecast.
- Company Market Share Analysis, Bohrium competitive scenario, ranking, and detailed company
profiles. - Market driver, restraints, and detailed COVID-19 impact on Bohrium
Market
Competitive Environment:
The research provides an accurate study of the major organisations and companies operating in the global Bohrium market, along with a comparative evaluation based on their product portfolios, corporate summaries, geographic reach, business plans, Bohrium market shares in specific segments, and SWOT analyses. A detailed analysis of the firms' recent news and developments, such as product development, inventions, joint ventures, partnerships, mergers and acquisitions, strategic alliances, and other activities, is also included in the study. This makes it possible to assess the level of market competition as a whole.
List of Major Market Participants
American Elements, ISOFLEX, Loard Chemical Corporation, Smart elements GmBH, Oak Ridge National Laboratory (United States), Lawrence Berkeley National Laboratory (United States), Joint Institute for Nuclear Research (Russia), GSI Helmholtz Centre for Heavy Ion Research (Germany), RIKEN Nishina Center for Accelerator-Based Science (Japan), Institute of Modern Physics (China), Bhabha Atomic Research Centre (India), Joint Institute for Nuclear Research (JINR) ( Russia), Dubna Superheavy Element Factory (Russia)
Primary Target Market
- Market Players of Bohrium
- Investors
- End-users
- Government Authorities
- Consulting And Research Firm
- Venture capitalists
- Third-party knowledge providers
- Value-Added Resellers (VARs)
Market Segment:
This study forecasts global, regional, and country revenue from 2019 to 2030. INFINITIVE DATA EXPERT has segmented the global Bohrium market based on the below-mentioned segments:
Global Bohrium Market, By Type
260Bh
261Bh
262Bh
264Bh
265Bh
266Bh
267Bh
270Bh
271Bh
272Bh
274Bh
Global Bohrium market, By Application
Scientific Research
Medical Imaging
Cancer Treatment
Nuclear Power Plants
Radioactive Tracer
Others
Global Bohrium market, Regional Analysis
- Europe: Germany, Uk, France, Italy, Spain, Russia, Rest of Europe
- The Asia Pacific: China,Japan,India,South Korea,Australia,Rest of Asia Pacific
- South America: Brazil, Argentina, Rest of South America
- Middle East & Africa: UAE, Saudi Arabia, Qatar, South Africa, Rest of Middle East & Africa
About This Research
You will get in-depth and extensive bohrium market market research and competitor analysis for your business to help you develop more profound insights into the bohrium market Market.
Through INFINITIVE Data Expert is a professional Market Research services, I will identify the bohrium market market size, demand & opportunities, growth rate, and target audience with a comprehensive analysis of your competitors.