10 Year Forecast of Disruptive Technologies in Industrial Biotechnology to 2021

This forecast analyses the top 25 disruptive technologies that are expected to impact the industrial biotechnology market. Learn more here

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Product detail
Product type: Market report
Date of publication: 18 Nov 2011
Product format: Market Report
Number of pages: 123
  • 10-Year Forecast of Disruptive Technologies expertly identifies and analyses the top 25 disruptive technologies that are expected to have a significant impact on the industrial biotechnology market to 2021
  • This brand new report outlines crucial business opportunities created by these technology developments, keeping you one step ahead of the competition.

Description

METHODOLOGY 

10-Year Forecast of Disruptive Technologies in Industrial Biotechnology is based on extensive primary and secondary research. Primary research consisted of rankings and ratings given by an expert panel of 15 people, including leading scientists, investors,innovators or business leaders in the field of industrial biotechnology. Secondary research was based on a comprehensive review of journals, books, intelligence reports, presentations, press releases and electronic databases, plus studies conducted by the European Commission, the OECD, the US Department of Agriculture, the US Department of Energy and the International Energy Agency, etc.

WHAT DO YOU GET?

  • In-depth exploration of the top-25 disruptive technologies in the industrial biotechnology market
  • Analysis of key technology trends expected to impact the industry
  • Detailed 10-year technology forecasts on game-changing developments in industrial biotechnology

HOW WILL THIS MARKET INTELLIGENCE REPORT BENEFIT YOU?

  • Plan your 10-year business strategy with confidence, with the latest technology forecasts for industrial biotechnology to 2021
  • Get an in-depth understanding of the top-25 disruptive technologies that are expected to alter the industrial biotechnology landscape over the next 10 years
  • Keep abreast of crucial business opportunities most likely to impact your sector to 2021

WHO SHOULD BUY THIS REPORT?

  • Industrial biotechnology companies and product manufacturers
  • Raw material suppliers
  • Buyers of industrial biotechnology products
  • Bio-reactor suppliers
  • Industrial biotechnology R&D organisations
  • Industry consultants and analysts

WHAT'S INCLUDED IN THE REPORT?

  • One hard copy of the report couriered (see order form for postage costs) to you on publication date
  • CD-Rom with searchable PDF
  • Global intranet licence allowing everyone in your organisation electronic access to the study

Table of Contents

Executive summary

  • Survey results 
  • Top 25 
  • Mining for lignocellulolytic enzymes
  • Vehicle fuel economy 
  • Lactic acid 
  • Efficient energy production
  • Green market 
  • Ethanol 
  • Succinic acid 
  • Corn and sugarcane yields 
  • Stress-tolerant crops 
  • Butanol 
  • Pulp and paper mills as biorefineries 
  • Integrated raw material supply chain
  • Designer enzymes 
  • Consolidated bioprocessing 
  • Integrated enzyme production 
  • Isoprene 
  • Cascading utilisation of biomass 
  • High-throughput technologies 
  • Co- or mixed-culture systems 
  • 1,3-Propanediol 
  • Acrylic acid 
  • Operational clustering and integration 
  • Xylose 
  • Furanic building blocks 
  • Recovery of fossil fuels 
  • Opportunities

Introduction and methodology

  • Scope
  • Objective
  • Methodology

Industrial Biotechnology Trends

  • Drivers for adoption 
  • The potential of industrial biotechnology 
  • A multidisciplinary endeavour 
  • Raw materials 
  • The process 
  • Emerging trends

Disruptive Technologies in Industrial Biotechnology

  • Key categories of disruption
  • Biomass 
  • (Bio)process engineering
  • Biosystems engineering 
  • Energy 
  • Manufacturing infrastructures 
  • Markets and society 
  • Platform chemicals 
  • Candidate disruptive technologies 
  • Top-25 disruptive technologies 
  • Mining for lignocellulolytic enzymes 
  • Rank, impact, success probability
  • Vehicle fuel economy 
  • Rank, impact, success probability 
  • Lactic acid 
  • Rank, impact, success probability 
  • Efficient energy production 
  • Rank, impact , success probability 
  • Green market 
  • Rank, impact , success probability 
  • Ethanol 
  • Rank, impact, success probability
  • Succinic acid 
  • Rank, impact, success probability 
  • Corn and sugarcane yields 
  • Rank, impact, success probability 
  • Stress tolerant crops 
  • Rank, impact , success probability 
  • Butanol 
  • Rank, impact , success probability 
  • Pulp and paper mills as biorefineries 
  • Rank, impact, success probability 
  • Integrated raw material supply chain 
  • Rank, impact, success probability 
  • Designer enzymes 
  • Rank, impact, success probability 
  • Consolidated bioprocessing 
  • Rank, impact, success probability
  • Integrated enzyme production 
  • Rank, impact, success probability 
  • Isoprene 
  • Rank, impact, success probability 
  • Cascading utilisation of biomass 
  • Rank, impact, success probability 
  • High-throughput technologies 
  • Rank, impact, success probability 
  • Co- or mixed-culture systems 
  • Rank, impact, success probability 
  • 1,3-Propanediol 
  • Rank, impact, success probability 
  • Acrylic acid 
  • Rank, impact, success probability 
  • Operational clustering and integration 
  • Rank, impact, success probability 
  • Xylose 
  • Rank, impact, success probability 
  • Furanic building blocks 
  • Rank, impact, success probability 
  • Recovery of fossil fuel resources 
  • Rank, impact, success probability

Industrial Biotechnology Technology Forecasts to 2021

  • Fossil fuel and energy markets 
  • Biomass availability and supply 
  • Lignocellulose hydrolysis 
  • Manufacturing infrastructures 
  • Biofuels and beyond 
  • Monomers for bio-based polymers 
  • Chem-bio integration and high-throughput experimentation 
  • Markets, society and policy

References

Tables and Figures

  • Top-25 disruptive technologies
  • Candidate technologies and their rankings
  • How the candidate technologies were merged to get the top 25
  • Mining for lignocellulosic enzymes: disruption summary
  • Vehicle fuel economy: disruption summary
  • Lactic acid: disruption summary
  • Efficient energy production: disruption summary
  • Green market: disruption summary
  • Ethanol: disruption summary
  • Succinic acid: disruption summary
  • Corn and sugarcane yield: disruption summary
  • Stress tolerant crops: disruption summary
  • Butanol: disruption summary
  • Pulp and paper mills as biorefineries: disruption summary
  • Integrated raw material supply chain: disruption summary
  • Designer enzymes: disruption summary
  • Consolidated bioprocessing: disruption summary
  • Integrated enzyme production: disruption summary
  • Isoprene: disruption summary
  • Cascading utilisation of biomass: disruption summary
  • High-throughput technologies: disruption summary
  • Co- or mixed culture systems: disruption summary
  • 1,3-Propanediol: disruption summary
  • Acrylic acid disruption summary
  • Operational clustering and integration: disruption summary
  • Xylose: disruption summary
  • Furanic building blocks: disruption summary
  • Recovery of fossil fuels: disruption summary
  • Fossil fuels and energy: transition table
  • Biomass availability and supply: transition table
  • Lignocellulose hydrolysis: transition table
  • Manufacturing infrastructures: transition table
  • Biofuels and beyond: transition table
  • Monomers for bio-based polymers: transition table
  • Chem-bio integration and high-throughput experimentation: transition table
  • Markets, society and policy: transition table
  • Comparison of world raw sugar prices and the annual crude oil prices
  • Lactic acid and its two optical isomers, L(+)-lactic acid and D(-)-lactic acid
  • Formulas of n-butanol and iso-butanol
  • Designed synthetic pathway linking central carbon metabolism to isoprene