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Sunday, 15 June 2014

MRRBIZ: Materials for Next-Generation Photovoltaics - 2014-2021 : Induatry Analysis ,size, share , market growth and trend

Materials for Next-Generation PV - 2014-2021 

The Photovoltaics boom and bust has rebooted efforts to commercialize the next generation of materials platforms for solar panels.  There has recently been a resurgence of the solar panel industry but many of the surviving firms are Chinese companies making conventional crystalline silicon (c-Si) panels.  Also surviving is First Solar with its stable and ongoing production of CdTe.

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With the solar panel industry now back on track, however, the search is on once more for materials platforms that improve the conversion efficiency of solar panels, both now and in the future.  Some of these are close at hand – novel approaches to doping silicon panels are a good example here.  Meanwhile, the thin-film Photovoltaics sector is looking for its next success after CdTe.  This could be CIGS, but there are also several other complex materials that are being developed for next generation thin-film solar and which are now beginning to receive serious commercial attention.

We are also seeing the solar industry beginning to think out of the box with a slew of entirely new nanomaterials such as quantum dots, nanowires, nanotubes and graphene.  The commercialization of these materials for solar applications lies a few years off. But eventually they will offer radical new ways to boost the performance of the absorber, photoactive and electrode layers in next-generation solar panels.

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In this report NanoMarkets develops a roadmap for next-generation solar materials and analyzes their revenue potential over the next eight years.  The report includes a granular eight-year forecast of quantities shipped of these materials and revenues generated. The report also examines the commercialization strategies of the suppliers already actively involved in this space as well as the opportunities emerging for start-ups.

TABLE OF CONTENTS

Executive Summary

E.1 Key Technology Trends in Solar Panels

Chapter One Introduction

Chapter Two Emerging Opportunities in Silicon PV

Chapter Three Next-Generation Thin-Film Photovoltaics

Chapter Four OPV and DSC:  The Next Generation

Chapter Five Nanomaterials for Next Generation Photovoltaics

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MRRBIZ: Markets for Sensors for the Smart Grid: 2014-2021: Induatry Analysis ,size, share , market growth and trend

Markets for Sensors for the Smart Grid: 2014-2021

Markets has been providing coverage of the Industry and market for smart grid sensors for almost 5 years now and has obtained an insider’s knowledge of both the dynamics of this Industry and market and how sensors are currently being deployed in the smart grid. In this new report, we reexamine the Industry and market for grid sensors in what we believe are fundamentally new conditions.

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First, we consider how the shift to the Internet-of-Things (IoT) will impact the smart grid Industry and market.  In past, grid sensors were either standalone devices or deployed in small networks that were not connected to each other.  In the near-term future we expect to see these sensors start to talk to other devices, not just in the grid, but also in lighting and HVAC systems as well as in a new generation of building automation systems.  The leap in functionality that the next generation of grid sensors will provide will both help to grow the Industry and market and lead to new requirements for such sensors

This is an analysis of how various players up and down the smart grid supply chain – firms such as electrical equipment manufacturers, electrical companies and the sensor makers themselves - will be able to make money out of smart grid sensor business.  In addition, as with previous studies we have included a forecast of the grid sensor Industry and market with breakouts by applications, types of sensor, etc.  We also identify the key firms in this Industry and market and analyze their strategies.


TABLE OF CONTENTS

Executive Summary

E.1 How Sensing and Monitoring Alleviates 21st Century Grid Management Challenges
E.1.1 How the Internet of Things is Driving the Industry and market for Sensors in the Smart Grid
E.2 Opportunity Analysis
E.2.1 Sensor Manufacturers
E.2.2 Electrical Equipment and Meter Companies
E.2.2 Power and Telephone Companies
E.3 Key Players in the Grid Sensor Industry and market to Watch
E.4 Summary of Eight-Year Forecasts                  
                                 
Chapter One Introduction
1.1 Background to this Report
1.2 Objectives and Scope of the Report
1.3 Methodology of this Report
1.4 Plan of this Report

Chapter Two:  Applications for Sensors in the Smart Grid
2.1 Current and Future Roles for Sensors in SCADA Networks
2.2 Sensors in the Advanced Metering Infrastructure
2.2.1 Impact of the IoT
2.3 Sensors Requirements for Grid Management
2.3.1 Outage Management System
2.3.2 Peak Load Management        
2.3.3 Demand Response    
2.3.4 Power Quality Management
2.3.5 Phasor Measurement Units    
2.3.6 Other Grid Management Applications
2.4 Sensors in Energy Storage        
2.4.1 Electric Vehicles and Charging Infrastructure:  Sensor Requirements
2.4.2 Energy Storage, Sensors and Capacity Firming        
2.5 Generation-Related Applications for Grid Sensors                  
2.5.1 Sensor Requirements for Renewable Energy Integration
2.5.2 Sensors and Supply Response from Generation side
2.5.3 Other Facilities Automation Applications for Sensor Management
2.6 Sensor Requirements for Microgrids
2.7 Key Points from this Chapter


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Chapter 3: Products and Technology Opportunities for Sensors in Realizing the Smart Grid    
3.1 Sensors for Grid Maintenance:  Voltage, Current, Capacitance, Inductance and Phase Measurement        
3.2 Time Synchronization Sensors  
3.3 Chemical/Gas Sensors in the Smart Grid
3.3.1 Humidity and Moisture Sensors
3.3.2 Air Quality Sensors
3.3.3 Chemical/Gas Sensors for Safety                
3.4 Temperature Sensing and Monitoring in the Smart Grid
3.5 Sensors for Energy Conservation Sensors      
3.6 Equipment Monitoring Units (EMUs)    
3.7 Key Points from this Chapter

Chapter Four:  Eight-Year Forecasts of Smart Grid Sensors
4.1 Forecasting Methodology
4.1.1 Data Sources
4.1.3 General Economic Assumptions
4.1.4 Forecasting Approach
4.1.5 Alternative Scenarios
4.2 Eight-Year Forecasts of Smart Grid Sensors
4.2.1 Sensors in SCADA Networks by Type of Sensor
4.2.2 Sensors in the Advanced Metering Infrastructure by Type of Sensor
4.2.3 Sensors in Grid Management by Type of Application and Type of Sensor
4.2.4 Sensors for Energy Storage by Type of Application and Type of Sensor
4.2.5 Sensors for Renewable Energy Generation by Type of Sensor
4.2.6 Other Grid-Related Sensor Applications at Generators
4.2.7 Sensors for Microgrids
4.3 Summary of Eight-Year Grid Sensor Forecasts by Application
4.4 Summary of Eight-Year Grid Sensor Forecasts by Sensor Type
4.5 Summary of Eight-Year Grid Sensor Forecast by Geographic Region

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Monday, 9 June 2014

Medical Nonwoven Disposables Market - Global Industry Analysis, Size, Share, Growth, Trends and Forecast, 2013 - 2019



Medical nonwoven disposables are important products in the global healthcare industry as they provide hygiene benefits over the woven fabrics. Woven fabrics used in hospitals, clinics and physician offices are vulnerable to hospital acquired infections (HAIs) and other infections such as AIDs and hepatitis. Medical nonwoven disposables prevent transmission of these infections to some extent since they are soon disposed of. Therefore, the increasing awareness about these infections and efforts to control these infections are driving the global market for medical nonwoven disposables market.


The global market for medical nonwoven disposables is segmented into two major categories, namely incontinence products and surgical nonwoven products. The incontinence products segment includes cotton pads, panty shields, disposable underwear, and disposable diapers. The disposable diaper product segment is further differentiated into ultra-absorbent, super-absorbent, gender-specific, biodegradable, and regular diapers. Second major segment in the market is surgical nonwoven products which include disposable surgical masks, surgical drapes, surgical caps, surgical gowns, sheets and gauze. The increasing healthcare infrastructure across the globe is also creating additional opportunity for the growth of the medical nonwoven disposables market. Despite the growth of healthcare industry, the medical nonwoven technology is being dominated by incontinence products segment compared to surgical nonwoven products. This segment accounts for a larger share and is driven by demand for incontinence products for children and women. The introduction of novel products in this category such as rustle-free diapers is helping in the overall growth of the medical nonwoven disposables market.

The global medical nonwoven disposables market is segmented into four major geographies, namely, North America, Europe, Asia-Pacific and Rest of the World. The developed countries in Europe and North America are the primary markets for medical nonwoven disposables due to favorable insurance coverage and large number of health care procedures occurring annually. Furthermore, stringent regulations put forth by several regulatory agencies in these regions are positively impacting the growth of medical nonwoven disposables market. Although, North America and Europe had controlled the global medical nonwoven disposables market in the past, presently the other two geographies, particularly Asia-Pacific, have been crucial in determining and escalating the market size. The rapidly developing countries such as China and India are spearheading the growth of this market due to increasing health needs, increasing incidences of chronic illnesses and adoption of home healthcare to reduce hospitalization costs.

The advances in the disposable nonwoven production technology have enabled the manufacturers to bring better products which have edge over woven fabrics. The hospitals in developed countries such as the U.S. are provided with incentives for preventing re-admissions and for reducing patient stay in hospitals. Therefore, these hospitals prefer disposable supplies compared to reusable products which eventually drives the global market for medical nonwoven disposables. The manufacturers in the Asia region are seen adopting the innovative approaches to broaden their product portfolio. For instance, growing demand for synthetic gloves is being majorly fulfilled by regional players which are trying to supply powder free medical gloves.

Some of the major players in the global medical nonwoven disposables market include Ahlstrom Inc., Ansell Healthcare, Asahi Kasei Corporation, B. Braun Melsungen AG, Cardinal Health, Inc., Covidien, Inc., Cypress Medical Products, Domtar Corporation, Dynarex Corporation, First Quality Enterprises, Inc., Freudenberg & Co. KG., Georgia-Pacific LLC, Hogy Medical Co. Ltd., INTCO Medical, Kao Corporation, Kimberly-Clark Corporation, Medline Industries, Molnlycke Health Care AB, Paul Hartmann AG, Precision Fabrics Group, Inc., and UniCharm Corporation.

This research report analyzes this market depending on its market segments, major geographies, and current market trends. Geographies analyzed under this research report include 

  • North America 
  • Asia Pacific 
  • Europe
  • Rest of the World  

This report provides comprehensive analysis of 

  • Market growth drivers 
  • Factors limiting market growth
  • Current market trends 
  • Market structure
  • Market projections for upcoming years 

This report is a complete study of current trends in the market, industry growth drivers, and restraints. It provides market projections for the coming years. It includes analysis of recent developments in technology, Porter’s five force model analysis and detailed profiles of top industry players. The report also includes a review of micro and macro factors essential for the existing market players and new entrants along with detailed value chain analysis. 


Reasons for Buying this Report

  • This report provides pin-point analysis for changing competitive dynamics
  • It provides a forward looking perspective on different factors driving or restraining market growth 
  • It provides a six-year forecast assessed on the basis of how the market is predicted to grow 
  • It helps in understanding the key product segments and their future
  • It provides pin point analysis of changing competition dynamics and keeps you ahead of competitors
  • It helps in making informed business decisions by having complete insights of market and by making in-depth analysis of market segments 
  • It provides distinctive graphics and exemplified SWOT analysis of major market segments


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Marine Mining Market - Global Industry Analysis, Market Size, Share, Growth, Trends and Forecast, 2013 - 2019



The depleting land based mineral resources have created a thrust in marine mining activities that has direct implications on the marine mining market. Marine mining is used to recover the minerals and metals from the seafloor that cannot be extracted with the help of dredgers. With the spark in the marine mining market, Hitachi has even shifted their attention from construction of land based mining equipments to marine mining equipments. With the recent advancement in technologies and innovations the mining companies are shifting their focus from the land based mining to marine or the deep sea mining. In a few countries the volume of some minerals extracted from marine mining has even surpassed the volume extracted by using land mining.


The marine mining market can be segmented on the basis of technology (drilling and extraction), minerals extracted and the geographical locations of the marine mining areas and the marine mining companies. Depending upon the drilling technology the marine mining can be classified as either vertical mining or the horizontal mining.  For the purpose of mineral extraction, we use either the continuous line bucket system or the hydraulic suction system. The continuous line bucket system operates like a conveyor belt to bring the minerals from the seafloor to the mining ship platform. The hydraulic suction system creates a partial vacuum to extract the minerals from the seafloor. Depending upon the minerals extracted, the marine mining can be classified as poly metallic mining, manganese crust mining and the sulfide deposit mining. The poly metallic mining is used to extract the minerals such as nickel, copper, manganese and cobalt. The manganese crust mining is used to extract mainly, cobalt, molybdenum, vanadium and platinum, while the sulfide mining is used for the extraction of copper, zinc, gold, silver and lead. Marine mining can also be used to extract gems from the seabed.

Regional segmentation can be done on the basis of location of marine mining regions and companies. Some of the major marine regions are near shore and deep water areas of, Mexico and the United states (North America), Central and Eastern Manus basin near Papua New Guinea, Indonesia, Fiji, Tonga, Vanuatu, Micronesia and the South West Indian ridge ( Asia pacific region), South Africa, Namibia and Ghana ( Middle East and Africa) and Brazil  ( Rest of World). Major marine mining companies are located in the United States, Canada, Netherlands, Belgium and South Africa. According to DeBeers website Namibia’s Atlantic coastal areas hold at least 80 million carats of gems, the world’s richest marine diamond deposits.

Depleting mineral resources, abundance of undersea mineral reserves and advancement in mining technologies are the drivers for marine mining market. Stringent environmental laws and huge initial expenditure in marine mining can be a restraint in the marine mining market. Vast untapped undersea reserves and low competition due to a small number of players can act as opportunities in the deep sea mining market.

Marine mining is a new mineral retrieval process requiring sophisticated technology; hence there are limited numbers of existing players in the market. Some of the major players in the marine mining market are DeBeers group (South Africa), Nautilus Mineral Inc (Canada), Oceanflore, Panda Marine Mining and Exploration Company, IHC Merwede B.V (Netherlands) and Neptune Minerals (United Kingdom).

This research report analyzes this market depending on its market segments, major geographies, and current market trends. Geographies analyzed under this research report include

  • North America
  • Asia Pacific
  • Europe
  • Rest of the World 

This report provides comprehensive analysis of

  • Market growth drivers
  • Factors limiting market growth
  • Current market trends
  • Market structure
  • Market projections for upcoming years

This report is a complete study of current trends in the market, industry growth drivers, and restraints. It provides market projections for the coming years. It includes analysis of recent developments in technology, Porter’s five force model analysis and detailed profiles of top industry players. The report also includes a review of micro and macro factors essential for the existing market players and new entrants along with detailed value chain analysis.


Reasons for Buying this Report

  • This report provides pin-point analysis for changing competitive dynamics
  • It provides a forward looking perspective on different factors driving or restraining market growth
  • It provides a six-year forecast assessed on the basis of how the market is predicted to grow
  • It helps in understanding the key product segments and their future
  • It provides pin point analysis of changing competition dynamics and keeps you ahead of competitors
  • It helps in making informed business decisions by having complete insights of market and by making in-depth analysis of market segments
  • It provides distinctive graphics and exemplified SWOT analysis of major market segments



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Laboratory Plasticware Market - Global Industry Analysis, Size, Share, Growth, Trends and Forecast, 2013 - 2019



Laboratory plasticware are equipment made up of polymers having variety of applications with respect to laboratory or research centers. The laboratory plasticware market has significantly evolved itself in past few decades in terms of material composition, design and application. Laboratory plasticware encompasses number of advantages such as being unbreakable in nature enhances its applicability with respect to handling radioactive isotopes, hazardous and carcinogenic chemicals or substances. The inherent characteristics of the equipment include environmental friendliness, reusability, thermostability and safety of laboratory personnel in case of accidents has upsurge the global market for laboratory plasticware as compared to the global glassware market in past.


Various types of laboratory plasticwares that are used in different laboratory or research encompass aspirator bottles, laboratory beaker, Buchner funnel, carrier tray, centrifuges and micro centrifuge tubes. Apart from these equipments laboratory plasticware are gaining lot of acceptance in cell cultures and cryopreservation related studies and experiments. Some of this equipment comprises cryobox, cryo coders, cryovials among others. With the advances in technology different chemical compositions or polymers are used to manufacture these laboratory plasticware equipments. 

Some of the polymer used in manufacturing includes Low Density Polyethylene (LDPE). The LDPE based laboratory plasticware can withstand up to 90° C if used for short span of time and can be used continuously for longer period of time between 50°C-80°C. Various organic solvents may soften or swell LDPE but it has excellent resistance to dilute and concentrated acids, alcohols, bases and esters. The ranges of laboratory plastics apparatus manufactured from LDPE encompasses bottles, wash bottles, carboys and storage tanks among others. Similarly, High Density Polyethylene (HDPE) HDPE exhibits higher chemical resistance than LDPE and can be used to handle or work with extremely concentrated or hazardous chemical substances. Polymethylpentene (PMP) is a polymer that is highly transparent in nature and rigid in nature and can withstand up to 180°C- 200°C. PMP is particularly useful in the manufacture of volumetric apparatus such as flasks, beakers and measuring cylinders. Polyvinylchloride (PVC) are primarily used in manufacturing tubing. The characteristic of the polymer makes the final product soft, pliable and transparent. Though PVC are not very resistive to organic solvents yet they posses good resistance to oils and are low permeable to gases. 


Given its primary application in research and development activity, the laboratory plasticware market is slightly affected by the fluctuations in the market especially in Europe and the United states due to cuts in funding from government agencies and private companies. Despite of the economic slowdown, the United States market is the largest market because of presence of large number of university and research centers conducting and funding the research. Asia-Pacific is the fastest growing market especially in countries such as China, India, Singapore and Japan among others due exponential rise in economy and emerging focus on the research programs in past decades. The rest of the world market is yet to emerge as a prominent geographical region though the initiatives from regulatory bodies, flooding of top notch research and manufacturing companies in this region will positively impact the growth and demand for laboratory plastic wares. 

Some of the major drivers for the global laboratory plasticware market comprises upsurge in demand for plastic based equipments due to longer shelf life, better handling and safety benefits and increase in number of private research centers and training institute for students as well as researchers. The favorable trend is likely to continue in forthcoming years primarily due to rise in living standards and improving healthcare facilities in emerging nations. Environmental testing laboratories are likely to be an emerging and fastest growing segment due to stringent regulations and safety compliances. Some of the key players in market include Eppendorf AG, Kimble Chase Life Science and Research Products LLC, Duran Group GmbH, Mettler-Toledo International Inc., Gerresheimer AG, Thermo Fisher Scientifi, Inc., and Wheaton Science Products, among others.

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This research report analyzes this market depending on its market segments, major geographies, and current market trends. Geographies analyzed under this research report include 

  • North America 
  • Asia Pacific 
  • Europe
  • Rest of the World  

This report provides comprehensive analysis of 

  • Market growth drivers 
  • Factors limiting market growth
  • Current market trends 
  • Market structure
  • Market projections for upcoming years 

This report is a complete study of current trends in the market, industry growth drivers, and restraints. It provides market projections for the coming years. It includes analysis of recent developments in technology, Porter’s five force model analysis and detailed profiles of top industry players. The report also includes a review of micro and macro factors essential for the existing market players and new entrants along with detailed value chain analysis. 

Reasons for Buying this Report

  • This report provides pin-point analysis for changing competitive dynamics
  • It provides a forward looking perspective on different factors driving or restraining market growth 
  • It provides a six-year forecast assessed on the basis of how the market is predicted to grow 
  • It helps in understanding the key product segments and their future
  • It provides pin point analysis of changing competition dynamics and keeps you ahead of competitors
  • It helps in making informed business decisions by having complete insights of market and by making in-depth analysis of market segments 
  • It provides distinctive graphics and exemplified SWOT analysis of major market segments
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Global Influenza (Flu) Vaccine Market: Trends & Opportunities (2014-19)



With the advancement in technology and discovery of new products in the field of medical sciences, vaccines have gained crucial position in the pharmaceutical industry. Vaccines are considered as the most effective health intervention ever developed, saving innumerable lives. The vaccine market is growing at a steady pace, mainly because of the various existing and emerging diseases which can only be prevented with the help of vaccines. Scientists are continuously engaged in the research and development of effective vaccines to eradicate all major life threatening diseases. There are various organizations namely the Global Alliance for Vaccines and Immunizations (GAVI), World Health Organization (WHO), the World Bank, the United Nations Children's Fund (UNICEF) and Bill and Melinda Gates foundation, which supply vaccines at subsidize rate or even free of cost.


Influenza vaccine constitutes a significant segment of overall vaccine market. The large public attention associated with Influenza A (H1N1, swine flu) pandemic in 2009, growing health awareness in emerging countries has played a significant role in determining the dynamics of the global influenza market.

Scope of the Report

The report titled “Global Influenza (Flu) Vaccine Market: Trends and Opportunities (2014-2019)” provides an insight into the market dynamics and various trends and opportunities associated with the global Influenza vaccine market. It covers the global market size and growth dynamics of the influenza vaccine market in past five years. The report further forecasts the market size for the coming five years along with factors that could influence the market dynamics in the projected period. The report also captures the market share based on major players in the market. Further, the report also analyzes the domestic Influenza vaccine market of United States, Japan, Germany and United Kingdom. The report concludes with a brief discussion of key factors trending in the global influenza vaccine market and profiles major players like Sanofi, Abbott Laboratories, Novartis, CSL and Glaxo Smith Kline.


Geographical Coverage

  • Global
  • United States
  • Japan
  • Germany
  • United Kingdom

Company Coverage

  • Sanofi
  • Abbott Laboratories
  • Novartis
  • CSL
  • Glaxo Smith Kline


Table of Content

1. Executive Summary

2. Global Influenza (Flu) Market: An Introduction

3. Global Vaccine Market: An Analysis
3.1. Global Vaccine Market: Sizing & Growth (Actual & Forecast)
3.2. Global vaccine Market: Segmentation
3.2.1. Human Vaccine Market: Sizing & Growth (Actual & Forecast)
3.2.2. Veterinary Vaccine: Market Sizing & Growth (Actual & Forecast)

4. Global Influenza Market: An Analysis
4.1. Global Influenza Market: Sizing & Growth (Actual & Forecast)
4.2. Global Influenza Vaccine Market: Sizing & Growth (Actual & Forecast)
4.3. Global Influenza Vaccine Market Share Analysis
4.3.1. Market Share: By Capacity
4.3.2. Market Share: By Revenue
4.4. Global Seasonal Flu Vaccine Market Trend

5. Seasonal Influenza Vaccine Market: Regional Analysis
5.1. United States Seasonal Influenza Vaccine Market: Sizing & Growth (Actual & Growth)
5.2. Japan Seasonal Influenza Vaccine Market: Sizing & Growth (Actual & Growth)
5.3. Germany Seasonal Influenza Vaccine Market: Sizing & Growth (Actual & Growth)
5.4. United Kingdom Seasonal Influenza Vaccine Market: Sizing & Growth (Actual & Growth)

6. Global Influenza Vaccine Market Trend

7. Company Profiles
7.1. Sanofi
7.1.1 Business Description
7.1.2. Financial Highlights
7.1.3. Business Strategies
7.2. Abbott Laboratories
7.2.1. Business Description
7.2.2. Financial Highlights
7.2.3. Business Strategies
7.3. Novartis
7.3.1. Business Description
7.3.2. Financial Highlights
7.3.3. Business Strategies
7.4. CSL
7.4.1. Business Description
7.4.2. Financial Highlights
7.4.3. Business Strategies
7.5. Glaxo Smith Kline
7.5.1. Business Strategies
7.5.2. Financial Highlights
7.5.3. Business Strategies

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Table 1: Number of Doses sold by Novartis, 2013, (Million)

Figure 1: Global Vaccine Market Size, 2008-2013, (US$ Billion)
Figure 2: Global Vaccine Market Size Forecast, 2014-2019, (US$ Billion)
Figure 3: Global Human Vaccine Market Size, 2008-2013, (US$ Billion)
Figure 4: Global Human Vaccine Market Size Forecast, 2014-2019, (US$ Billion)
Figure 5: Global Veterinary Vaccine Market Size, 2008-2013, (US$ Billion)
Figure 6: Global Veterinary Vaccine Market Size Forecast, 2014-2019, (US$ Billion)
Figure 7: Global Influenza Market Size, 2008-2013, (US$ Billion)
Figure 8: Global Influenza Market Size Forecast, 2014-2019, (US$ Billion)
Figure 9: Global Influenza Vaccine Market Size, 2008-2013, (US$ Billion)
Figure 10: Global Influenza Vaccine Market Size Forecast, 2014-2019, (US$ Billion)
Figure 11: Global Influenza Vaccine Capacity Market Share, By Major Players, 2012
Figure 12: Global Influenza Vaccine Market Share, By Major Players
Figure 13: Global Seasonal Flu Vaccine Market Size, By Region, 2008-2013 (US$ Million)
Figure 14: United States Seasonal Influenza Vaccine Market Size, 2008-2013, (US$ Million)
Figure 15: United States Seasonal Influenza Vaccine Market Size Forecast, 2014-2019, (US$ Million)
Figure 16: Japan Seasonal Influenza Vaccine Market Size, 2008-2013, (US$ Million)
Figure 17: Japan Seasonal Influenza Vaccine Market Size Forecast, 2014-2019, (US$ Million)
Figure 18: Germany Seasonal Influenza Vaccine Market Size, 2008-2013, (US$ Million)Figure 19: Germany Seasonal Influenza Vaccine Market Size Forecast, 2014-2019, (US$ Million)
Figure 20: United Kingdom Seasonal Influenza Vaccine Market Size, 2008-2013, (US$ Million)
Figure 21: United Kingdom Seasonal Influenza Vaccine Market Size Forecast, 2014-2019, (US$ Million)
Figure 22: Sanofi Vaccine Net Sales, 2009-2013 (US$ Million)
Figure 23: Abbott Net Sales, 2011-2013 (US$ Billion)
Figure 24: Novartis Vaccine & Diagnostics Net Sales, 2009-2013 (US$ Million)
Figure 25: Novartis Net Sales, By Sector (FY’ 2013)
Figure 26: CSL Global Revenue, FY’2009-FY’2013 (US$ Million)
Figure 27: CSL Limited Net Sales, By Sector (First Half FY’ 2014)
Figure 28: GSK Flaurix/Flulaval Turnover, 2010-2013 (US$ Million)
Figure 29: GSK Global Turnover, By Segment, 2013
Figure 30: GSK Global Turnover, By Region, 2013


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