Worldwide Status and Outlook
Molecular Modeling for Nanotechnology Technologies, Applications and Market Outlook
| Publication Date | June 2003 |
|---|---|
| Publisher | Fuji-Keizai |
| Product Type | Report |
| Pages | 143 |
| ISBN Number | not applicable |
| Product Code | FUJ00016 |
Buy this product or for assistance call +44 20 7060 7474
Summary
Molecular modeling is the computation and representation (mathematically or graphically visually) of the positions and orbital of atoms in arbitrary nanostructures. In other words, molecular modeling lets one see how atoms and molecules interact through computer-generated charts, graphs, and images.
Molecular modeling has been a staple of pharmaceutical research for more than two decades, but the growth in nanoscience and technology as an industrial force has highlighted the uses to which modeling can be put for nanotechnology. The technology has important applications in nanoscale R&D in the pharmaceutical industry, the chemical industry, aerospace and defense, electronics and manufacturing. Indeed, any industry utilizing nanotechnologies could potentially benefit from nanoscale modeling.
Though the global market for molecular modeling in general is in excess of $2 billion annually, modeling for nanotechnology is, as yet, only a fragment of that market. The total market for molecular modeling for nanotechnology today is $30-40 million, but could potentially reach $60-70 million within five years.
Content
- 1. Introduction And Overview
- 1.1 Modeling at the Nanoscale
- 1.2 Types of Molecular Modeling Software
- 2. Science Of Simulation
- 2.1 Electronic Structures, Thermochemistry and Kinetics
- 2.2 Molecular Simulations and Mesoscale Methods
- 2.3 Information Technologies
- 2.4 Computer Graphics
- 2.5 QSAR/QSPR
- 3. Core Technologies
- 3.1 Molecular Graphics
- 3.2 Atomistic Simulation
- 3.3 Quantum Mechanics
- 3.4 First Principles Methods
- 3.5 Semi-Empirical Methods
- 3.6 Mesoscale Modeling
- 3.7 Nanoscale Modeling
- 4. Applications For Materials Modeling
- 4.1 Catalysis, Separations, and Reactions Modeling
- 4.2 Applications of Crystallization and Additives Modeling
- 4.3 Applications of Formulations and Mixtures
- 4.4 Applications of Polymers and Colloids Modeling
- 4.5 Applications of Materials Characterization and Design
- 4.6 Applications of Solid State and Surface Chemistry Modeling
- 5. Application Areas
- 5.1 Aerospace Industry
- 5.2 Agrochemicals Industry
- 5.3 Automotive Industry
- 5.4 Ceramics and Glass Industry
- 5.5 Electronics Industry
- 5.6 Chemicals
- 5.7 Metals Industry
- 5.8 Pharmaceuticals Industry
- 5.9 Plastics and Rubber Industry
- 6. Markets
- 7. Molecular Modeling Markets And Outlook
- 7.2 Key Sectors Impacted by Molecular Modeling
- 7.2.1 Chemicals
- 7.2.2 Pharmaceuticals and Life Sciences
- 7.2.3 Defense and Aerospace
- 7.2.4 Manufacturing
- 7.2.5 Electronics
- 7.3 Total Market Outlook, 2003-2008
- 7.2 Key Sectors Impacted by Molecular Modeling
- 8. International Trends, Issues And Comparisons
- 8.1 Key European Government Activities
- 8.1.1 France
- 8.1.1.1 CNRS (Centre National de la Recherche Scientifique)
- 8.1.2 French Petroleum Institute (Institut Francais du Petrole)
- 8.1.1 France
- 8.2 United Kingdom
- 8.2.1 Daresbury Laboratory, Computational Science and Engineering
- 8.3 Japan
- 8.3.1 Platform for Developing High Function Materials ("Doi Project")
- 8.3.2 Institute for Molecular Science
- 8.3.3 Institute for Solid State Physics
- 8.4 United States
- 8.4.1 National Institute of Standards and Technology,
- 8.1 Key European Government Activities
- Center For Theoretical And Computational Materials Science (Ctms)
- 8.4.2 Department of Defense High Performance Computing Modernization Program
- 8.4.3 Air Force Aeronautical Systems Center
- 8.4.4 NASA, Ames Research Center
- 8.4.2 Department of Defense High Performance Computing Modernization Program
- 9. Activities Of Major Molecular Modeling Software Companies
- 9.1 Accelrys
- 9.2 AngstroVIsion
- 9.3 Celestry
- 9.4 Cambridgesoft
- 9.5 Cray
- 9.6 Hypercube
- 9.7 Kelvin Nanotechnology
- 9.8 Nanomechanics
- 9.9 Nanomix
- 9.10 NanoTitan
- 9.11 New River Kinematics
- 9.12 Tripos
- 9.13 WaveFunction
- 9.14 Zyvex
- 10. Activities Of Representative Users/Customers
- 10.1 EUROPE
- 10.1.1 Aventis (formerly Rhone-Poulenc)
- 10.2 BASF
- 10.2.1.Bayer
- 10.2.2.DaimlerChrysler
- 10.2.3.IBM Zurich Research Laboratory
- 10.2.4.L'Oreal
- 10.2.5.TotalFinaElf
- 10.2.6 Unilever
- 10.3 JAPAN
- 10.3.1 Asahi Chemical Industry Company
- 10.3.2 Fujitsu
- 10.3.3 Mitsubishi Chemical Corp
- 10.3.4 NEC
- 10.3.5 Toshiba
- 10.3.6 Toyota
- 10.4 UNITED STATES
- 10.4.1 3M
- 10.4.2 Air Products and Chemicals
- 10.4.3 Chevron Corp
- 10.4.4 Dow Chemical
- 10.4.5 Motorola
- 10.4.6 Rohm and Haas
- 10.1 EUROPE
Delivery Details
PRINT/CD-ROM:Despatched within 2 to 4 working days.
Related Products
Computing & Electronics
- Batteries
- Company Reports (Computing & Electronics)
- Computer Peripherals
- Computer Products Distribution & Support
- Country Overview (Computing & Electronics)
- Electrical Components
- Electrical Products
- Entertainment & Gaming
- Handheld
- Hardware
- IT Investment
- IT Outsourcing
- IT Security
- IT Services
- Internet
- Manufacturing
- Misc. Computing & Electronics
- Multimedia
- Nanotechnology
- Networking
- RFID
- Scientific & Technical Instruments
- Semiconductors
- Servers & Mainframes
- Software
- Specialised Computer Systems
call +44 (0) 20 7060 7474
or email us
Resources
Why Report Buyer? 
Advertising/Affiliates
View Our Publishers
News
About Us
Meet Us
Jobs
Contact Us
Categories and Subcategories
