MEMS: Biosensors and Nanosensors Market Report [2015]

1. Report on Biosensors and Nanosensors Industry [2015]

2. Summary The global market for microsensors reached nearly $9.9 billion in 2014 and totaled almost $10.9 billion in 2015. The market should reach more than $18.9 billion in 2020, a compound annual growth rate (CAGR) of 11.7% between 2015 and 2020. This report provides: -An overview of the global market for microelectromechanical systems (MEMS), which consist of sensing devices that integrate mechanical elements, sensors, actuators, and electronics on a common silicon substrate, and typically have dimensions in the 1-micron to 100-micron range; as well as biosensors and nanosensors -Analyses of global market trends, with data from 2014, estimates for 2015, and projections of compound annual growth rates (CAGRs) through 2020

3. INTRODUCTION STUDY BACKGROUND This report is an update of an earlier published in 2013. Microelectromechanical systems (MEMS), biochips, and nanosensors (referred to collectively in this report as microsensors) make up one of the fastest-growing technology areas, with sales of nearly $8.9 billion in 2014 that are expected to grow at a compound annual growth rate (CAGR) of 11.7% between 2015 and 2020. Microsensors have proven to be a key enabling technology for developments in sectors such as transportation, telecommunications and health care, but the range of microsensors’ applications covers nearly every sector. The most significant advantage of microsensors is their ability to communicate easily with semiconductor chips.

4. The report has surveyed individual segments of the microsensor industry previously—for example, in its recent studies of the global market for MEMS, automotive sensors, medical device sensors and environmental sensors. This report initiated the present study to bring together these related markets as well as to update the findings and conclusions of the earlier reports. The range of microsensor products and applications has grown rapidly in the past few years, but it is important to avoid “hyping” their prospects. Although some types of microsensors (airbag accelerometers, for example) have had great commercial success, other types (such as most types of nanosensors) have enjoyed less success. Still other technologies remain at the discovery and developmental stages, and their eventual commercialization will require the commitment of substantial resources, with long payback periods and substantial financial risk.

5. To the extent that hype results in exaggerated investor expectation, it can divert investment from microsensor technologies that have real commercial potential. In the worst case, disappointed expectations can lead to a drying up of investment funds, similar to the one that occurred in the dot-com sector after 2000. This report takes a hard look at the market for microsensors and tries to provide a road map for the technologies and applications that are likely to enjoy the greatest commercial success in the years through 2020. GOALS AND OBJECTIVES The goal of this report is to provide investors and others with information on the commercial potential of various microsensor technologies and applications to assist them in making key business decisions.

6. INTENDED AUDIENCE While it contains descriptions of microsensor technologies, this report is intended especially for microsensor marketing executives and other executives charged with asset allocation and corporate strategy, as well as entrepreneurs, investors, venture capitalists, and other readers with a need to know where the market for microsensors is headed in the next five years. The report is written primarily for lay readers rather than technologists, but it should also be useful to readers in the research and development community who seek to anticipate future flows in research and development (R&D) funding. Officials of related government programs such as the U.S. National Nanotechnology Initiative should also find the report interesting.

7. SCOPE OF REPORT The report addresses the global market for microsensors, including the following: MEMS: Sensing devices that integrate mechanical elements, sensors, actuators, and electronics on a common silicon substrate, and typically have dimensions in the 1-micron to 100-micron range (1 micron = 1 millionth of a meter). Biochips: Silicon chip-based detection devices that integrate a living organism or product derived from living systems (e.g., an enzyme or an antibody) and a transducer to provide an indication, signal, or other form of recognition of the presence of a specific substance in the environment. Biological detection devices that do not generate an analytical signal, such as pregnancy tests or conventional glucose test strips, do not meet this report’s definition of sensors. Nanosensors: Sensors that are nanoscale or incorporate nanoengineered structures such as nanotubes.

8. The study format includes the following major elements: -Executive summary -Definitions -Milestones in the development of microsensors -Current and developmental microsensor technologies and applications -Microsensor technologies and applications with the greatest commercial potential through 2020 -Global microsensor market trends, 2014–2020 -Microsensor market shares and industry structure

9. METHODOLOGY AND INFORMATION SOURCES The methodologies and assumptions used to develop the market projections in this report are discussed at length in the detailed market estimates and projections for each microsensor technology. The report carefully documents data sources and assumptions. This way, readers can see how the market estimates were developed and, if they so desire, test the impact of changing assumptions, such as about price, on the final numbers. This section makes some general observations concerning the report’s approach to estimating the market for developmental technologies whose commercial potential has not been demonstrated, which is always a challenging task. The report used a multiphase approach to identify the microsensor technologies with the greatest commercial potential and to quantify the market for these applications, as described below.

10. Table of Contents 1: INTRODUCTION – Complimentary 2: EXECUTIVE SUMMARY 3: MICROSENSORS OVERVIEW 4: ENABLING TECHNOLOGIES FOR MICROSENSORS 5: ACCELEROMETERS 6: GYROSCOPES 7: PRESSURE SENSORS 8: CHEMICAL AND GAS SENSORS

11. To view the full Executive Summary and Table of Contents, please visit: Report on Biosensors and Nanosensors Industry [2015] Contact Us:- Phone : +91-22-27810772/73 Email id : info@bharatbook.com Website : www.bharatbook.com Our Blog : https://www.bharatbook.com/blog/