The report on the Global Quantum Dots Market gives an estimation of the development of the market based on historical studies and also provides forecasts on the basis of a comprehensive research. The report gives a complete market analysis for the forecasted period from 2020 to 2026. The market is divided into various segments with an in-depth outlook of the competitors and a listing of the profiled key players. The market size in terms of revenue and volume (USD MN/ KG) is calculated and provided for the study period along with the dynamics of the market such as the drivers and the restraints.
Study period considered for research of global quantum dots market:
- Base Year: 2019
- Estimated Year: 2020
- Forecast Till: 2026
A glimpse of the major drivers and restraints affecting the quantum dots market is mentioned below:
Drivers
- Efficiency in converting solar energy to power
- Ability to emit brighter light increases energy efficiency
- Applicability in multiple applications
- Miniature size allows flexibility
- Rise in the use in display devices
Restraints
- Extended research leading to slow adoption
- High Cost of the Technology
- Low price of competing technologies
The report offers a value chain analysis that gives a comprehensive outlook of the quantum dots market. The attractiveness analysis of this market has also been included so as to evaluate the segments that are anticipated to be profitable during the forecast period.
The quantum dots market has been segmented based on technology such as colloidal synthesis, fabrication, viral assembly, electrochemical assembly, bulk-manufacturing and cadmium-free quantum dots (CFQD). The study incorporates periodic market estimates and forecasts. Each technology has been analyzed based on the market size at regional and country levels.
The quantum dots market has been segmented based on material such as cadmium selenide (CdSe) market, cadmium sulfide (CdS) market, cadmium telluride (CdTe) market, indium arsenide (InAs) market, silicon (Si) and others. The study incorporates periodic market estimates and forecasts. Each material has been analyzed based on the market size at regional and country levels.
The quantum dots market has been segmented based on application such as healthcare (cellular labeling, DNA labeling and QD-based cancer diagnosis), quantum optics (quantum communication and quantum entanglement), QD based security & surveillance, renewable energy and optoelectronics. The study incorporates periodic market estimates and forecasts. Each application has been analyzed based on the market size at regional and country levels.
The quantum dots market has been segmented based on end user such as medical devices, QD display devices (LCD display and QD LED display), QD laser devices, QD photovoltaic devices, quantum dot chip, QD sensors and QD light-emitting devices (solid state lighting). The report provides forecast and estimates for each end user in terms of market size during the study period. Each end user has been further analyzed based on regional and country levels.
Geographically, the quantum dots market has been segmented into regions such as North America, Europe, Asia Pacific and Rest of the World. The study details country-level aspects based on each segment and gives estimates in terms of market size.
The report also covers the complete competitive landscape of the global Quantum Dots market with company profiles of key players such as:
- Altair Nanotechnologies, Inc.
- LG Display Co. Ltd
- Nanoco Technologies
- Nexxus Lighting Inc.
- QD Vision Inc.
- Quantum Material Corporation
- Samsung Electronics Co. Ltd
- Sony Corporation
A detailed description of each has been included, with information in terms of headquarters, inception, stock listing, upcoming capacities, key mergers & acquisitions, financial overview, and recent developments. This analysis gives a thorough idea about the competitive positioning of market players. The report also gives information of quantum dots market’s mergers/acquisitions, partnerships, collaborations, new product launches, new product developments and other industry developments.
SEGMENTATIONS IN REPORT:
Quantum Dots Market Analysis by Technology:
- Colloidal Synthesis
- Fabrication
- Viral Assembly
- Electrochemical assembly
- Bulk-manufacturing
- Cadmium-free quantum dots (CFQD)
Quantum Dots Market Analysis by Material:
- Cadmium Selenide (CdSe) Market
- Cadmium Sulfide (CdS) Market
- Cadmium Telluride (CdTe) Market
- Indium Arsenide (InAs) Market
- Silicon (Si)
- Others
Quantum Dots Market Analysis by Applications:
- Healthcare
- Cellular Labeling
- DNA Labeling
- QD-Based Cancer Diagnosis
- Quantum Optics
- Quantum communication
- Quantum Entanglement
- QD based security & surveillance
- Renewable Energy
- Optoelectronics
Quantum Dots Market Analysis by End User:
- Medical Devices
- QD Display Devices
- LCD Display
- QD LED display
- QD Laser Devices
- QD Photovoltaic Devices
- Quantum Dot Chip
- QD Sensors
- QD Light-emitting Devices (Solid State Lighting)
Quantum Dots Market Analysis by Geography:
- North America
- Europe
- Asia Pacific
- Rest of the World
The Global Quantum Dots Market has been exhibited in detail in the following chapters -
Chapter 1 Quantum Dots Market Preface
Chapter 2 Executive Summary
Chapter 3 Quantum Dots Industry Analysis
Chapter 4 Quantum Dots Market Value Chain Analysis
Chapter 5 Quantum Dots Market Analysis By Technology
Chapter 6 Quantum Dots Market Analysis By Material
Chapter 7 Quantum Dots Market Analysis By Applications
Chapter 8 Quantum Dots Market Analysis By End User
Chapter 9 Quantum Dots Market Analysis By Geography
Chapter 10 Competitive Landscape Of Quantum Dots Companies
Chapter 11 Company Profiles Of Quantum Dots Industry
METHODOLOGY:
A combination of primary and secondary research has been used to determine the market estimates and forecasts. Sources used for secondary research include (but not limited to) Paid Data Sources, Company Websites, Technical Journals, Annual Reports, SEC Filings and various other industry publications. Specific details on methodology used for this report can be provided on demand.