Nanorobotics: Technologies and Global Markets
The goal of this report is to cut through the hype and provide investors and others with a realistic assessment of the commercial potential of nanorobotics and its applications in various industries. This report focuses on the growing use of emerging technologies, such as most nanorobotics and their applications and how the market is expected to perform in the coming years. Specific objectives include identifying segments of the nanorobotics market with the greatest commercial potential between 2019 and 2025, projecting future demand in these segments, and evaluating the challenges that must be overcome for each segment to realize its potential to estimate the probability of successful commercialization.
- An overview of the global markets for nanorobotics technologies
- Analyses of the global market trends, with corresponding data analysis from 2019, estimates for 2020, and projections of compound annual growth rates (CAGRs) through 2025
- Highlights of the current and future market potential for nanorobotics along with a detailed analysis of the competitive environment, industry trends, drivers and opportunities
- Estimation of the market size and forecasted data for nanorobotics, and market share analysis on the basis of application, technology type and end user industry, with major regions and countries involved
- Company profiles of the market leading participants
BCC Research's definition of nanorobots excludes microbes whose metabolic processes are used to manufacture various biofuels, enzymes, specialty and industrial chemicals, and bioplastics, as well as in pollution mitigation and hazardous waste disposal. Nanorobots potentially include both electromechanical devices and biological mechanisms that mimic the functioning of electromechanical machines. Nanobots do not yet exist, but when they do, their potential applications include molecular manufacturing (nano factories) and medical nanobots that steer autonomously through the bloodstream, making repairs and guarding against infection. The term "nanorobots" is widely applied to such microbes, and studies that estimate the near-term market for nanorobots in the billions of dollars are generally defining such microbial factories or waste remediation microbes as nanorobots. From this report's point of view, the relevant distinction is that nanorobots perform a discrete action or task, such as delivering a cancer drug to a targeted tumor. Microbial factories or waste mitigation microbes accomplish their purposes utilizing continuous metabolic or other processes.
BCC Publishing Staff comprises expert analysts who are skilled in conducting primary research, secondary research and data analysis and have decades of combined experience covering a wide range of industries, including healthcare, advanced materials and emerging technologies. Collectively, the team represents a diverse set of educational achievements with individual graduate work completed in fields such as microbiology, electrical engineering, business administration and surgery, among others.