This is the only book on a novel fundamental method that uses quantum many body theoretical approach to synthesis of nanomaterials by design. This approach allows the first-principle pred… Mehr…
This is the only book on a novel fundamental method that uses quantum many body theoretical approach to synthesis of nanomaterials by design. This approach allows the first-principle prediction of transport properties of strongly spatially non-uniform systems, such as small QDs and molecules, where currently used DFT-based methods either fail, or have to use empirical parameters. The book discusses modified algorithms that allow mimicking experimental synthesis of novel nanomaterials---to compare the results with the theoretical predictions--and provides already developed electronic templates of sub-nanoscale systems and molecules that can be used as components of larger materials/fluidic systems.The only publication on quantum many body theoretical approach to synthesis of nano- and sub-nanoscale systems by design.Novel and existing many-body field theoretical, computational methods are developed and used to realize the theoretical predictions for materials for IR sensors, light sources, information storage and processing, electronics, light harvesting, etc. Novel algorithms for EMD and NEMD molecular simulations of the materials’ synthesis processes and charge-spin transport in synthesized systems are developed and described.Includes the first ever models of Ni-O quantum wires supported by existing experimental data.All-inclusive analysis of existing experimental data versus the obtained theoretical predictions and nanomaterials templates. 9780123969842,9780123972897,0123969840,0123972892 Other pricing structure might be available at vitalsource.com., Elsevier S & T<
This is the only book on a novel fundamental method that uses quantum many body theoretical approach to synthesis of nanomaterials by design. This approach allows the first-principle pred… Mehr…
This is the only book on a novel fundamental method that uses quantum many body theoretical approach to synthesis of nanomaterials by design. This approach allows the first-principle prediction of transport properties of strongly spatially non-uniform systems, such as small QDs and molecules, where currently used DFT-based methods either fail, or have to use empirical parameters. The book discusses modified algorithms that allow mimicking experimental synthesis of novel nanomaterials---to compare the results with the theoretical predictions--and provides already developed electronic templates of sub-nanoscale systems and molecules that can be used as components of larger materials/fluidic systems. The only publication on quantum many body theoretical approach to synthesis of nano- and sub-nanoscale systems by design.Novel and existing many-body field theoretical, computational methods are developed and used to realize the theoretical predictions for materials for IR sensors, light sources, information storage and processing, electronics, light harvesting, etc. Novel algorithms for EMD and NEMD molecular simulations of the materials' synthesis processes and charge-spin transport in synthesized systems are developed and described.Includes the first ever models of Ni-O quantum wires supported by existing experimental data.All-inclusive analysis of existing experimental data versus the obtained theoretical predictions and nanomaterials templates. Books, [PU: Academic Press]<
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This is the only book on a novel fundamental method that uses quantum many body theoretical approach to synthesis of nanomaterials by design. This approach allows the first-principle pred… Mehr…
This is the only book on a novel fundamental method that uses quantum many body theoretical approach to synthesis of nanomaterials by design. This approach allows the first-principle prediction of transport properties of strongly spatially non-uniform systems, such as small QDs and molecules, where currently used DFT-based methods either fail, or have to use empirical parameters. The book discusses modified algorithms that allow mimicking experimental synthesis of novel nanomaterials, to compare the results with the theoretical predictions. These algorithms can be implemented by computational materials scientists and engineers to realize synthesis-by-design concept as applied to materials of their interests.The book provides already developed electronic templates of sub-nanoscale systems and molecules that can be used as components of larger materials/fluidic systems. The templates include all structure and electronic property information on over 40 practically acclaimed systems for the use in materials development for IR sensor, light emission sources, quantum electronics, information processing and storage, light harvesting, negative refraction index materials and systems, and other "hot" applications. Engineering Media > Printbook > Engineering Bioengineering Printbook, Elsevier<
Het boek 'Virtual Synthesis of Nanosystems by Design' van Liudmila A. Pozhar koop je bij bookspot.nl, nu voor €130.99! Engelse Boeken School en studieboeken Alle school en studi… Mehr…
Het boek 'Virtual Synthesis of Nanosystems by Design' van Liudmila A. Pozhar koop je bij bookspot.nl, nu voor €130.99! Engelse Boeken School en studieboeken Alle school en studieboeken Engelse Boeken > School & studieboeken > Alle school & studieboeken Paperback, Elsevier Science LTD<
Virtual Synthesis of Nanosystems by Design: From First Principles to Applications Virtual-Synthesis-of-Nanosystems-by-Design~~Liudmila-Pozhar Science>Chemistry>Chemistry Hardcover, Elsevi… Mehr…
Virtual Synthesis of Nanosystems by Design: From First Principles to Applications Virtual-Synthesis-of-Nanosystems-by-Design~~Liudmila-Pozhar Science>Chemistry>Chemistry Hardcover, Elsevier Science<
This is the only book on a novel fundamental method that uses quantum many body theoretical approach to synthesis of nanomaterials by design. This approach allows the first-principle pred… Mehr…
This is the only book on a novel fundamental method that uses quantum many body theoretical approach to synthesis of nanomaterials by design. This approach allows the first-principle prediction of transport properties of strongly spatially non-uniform systems, such as small QDs and molecules, where currently used DFT-based methods either fail, or have to use empirical parameters. The book discusses modified algorithms that allow mimicking experimental synthesis of novel nanomaterials---to compare the results with the theoretical predictions--and provides already developed electronic templates of sub-nanoscale systems and molecules that can be used as components of larger materials/fluidic systems.The only publication on quantum many body theoretical approach to synthesis of nano- and sub-nanoscale systems by design.Novel and existing many-body field theoretical, computational methods are developed and used to realize the theoretical predictions for materials for IR sensors, light sources, information storage and processing, electronics, light harvesting, etc. Novel algorithms for EMD and NEMD molecular simulations of the materials’ synthesis processes and charge-spin transport in synthesized systems are developed and described.Includes the first ever models of Ni-O quantum wires supported by existing experimental data.All-inclusive analysis of existing experimental data versus the obtained theoretical predictions and nanomaterials templates. 9780123969842,9780123972897,0123969840,0123972892 Other pricing structure might be available at vitalsource.com., Elsevier S & T<
This is the only book on a novel fundamental method that uses quantum many body theoretical approach to synthesis of nanomaterials by design. This approach allows the first-principle pred… Mehr…
This is the only book on a novel fundamental method that uses quantum many body theoretical approach to synthesis of nanomaterials by design. This approach allows the first-principle prediction of transport properties of strongly spatially non-uniform systems, such as small QDs and molecules, where currently used DFT-based methods either fail, or have to use empirical parameters. The book discusses modified algorithms that allow mimicking experimental synthesis of novel nanomaterials---to compare the results with the theoretical predictions--and provides already developed electronic templates of sub-nanoscale systems and molecules that can be used as components of larger materials/fluidic systems. The only publication on quantum many body theoretical approach to synthesis of nano- and sub-nanoscale systems by design.Novel and existing many-body field theoretical, computational methods are developed and used to realize the theoretical predictions for materials for IR sensors, light sources, information storage and processing, electronics, light harvesting, etc. Novel algorithms for EMD and NEMD molecular simulations of the materials' synthesis processes and charge-spin transport in synthesized systems are developed and described.Includes the first ever models of Ni-O quantum wires supported by existing experimental data.All-inclusive analysis of existing experimental data versus the obtained theoretical predictions and nanomaterials templates. Books, [PU: Academic Press]<
This is the only book on a novel fundamental method that uses quantum many body theoretical approach to synthesis of nanomaterials by design. This approach allows the first-principle pred… Mehr…
This is the only book on a novel fundamental method that uses quantum many body theoretical approach to synthesis of nanomaterials by design. This approach allows the first-principle prediction of transport properties of strongly spatially non-uniform systems, such as small QDs and molecules, where currently used DFT-based methods either fail, or have to use empirical parameters. The book discusses modified algorithms that allow mimicking experimental synthesis of novel nanomaterials, to compare the results with the theoretical predictions. These algorithms can be implemented by computational materials scientists and engineers to realize synthesis-by-design concept as applied to materials of their interests.The book provides already developed electronic templates of sub-nanoscale systems and molecules that can be used as components of larger materials/fluidic systems. The templates include all structure and electronic property information on over 40 practically acclaimed systems for the use in materials development for IR sensor, light emission sources, quantum electronics, information processing and storage, light harvesting, negative refraction index materials and systems, and other "hot" applications. Engineering Media > Printbook > Engineering Bioengineering Printbook, Elsevier<
Het boek 'Virtual Synthesis of Nanosystems by Design' van Liudmila A. Pozhar koop je bij bookspot.nl, nu voor €130.99! Engelse Boeken School en studieboeken Alle school en studi… Mehr…
Het boek 'Virtual Synthesis of Nanosystems by Design' van Liudmila A. Pozhar koop je bij bookspot.nl, nu voor €130.99! Engelse Boeken School en studieboeken Alle school en studieboeken Engelse Boeken > School & studieboeken > Alle school & studieboeken Paperback, Elsevier Science LTD<
Virtual Synthesis of Nanosystems by Design: From First Principles to Applications Virtual-Synthesis-of-Nanosystems-by-Design~~Liudmila-Pozhar Science>Chemistry>Chemistry Hardcover, Elsevi… Mehr…
Virtual Synthesis of Nanosystems by Design: From First Principles to Applications Virtual-Synthesis-of-Nanosystems-by-Design~~Liudmila-Pozhar Science>Chemistry>Chemistry Hardcover, Elsevier Science<
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Buch in der Datenbank seit 2014-06-05T12:43:48+02:00 (Berlin) Detailseite zuletzt geändert am 2023-01-23T20:39:44+01:00 (Berlin) ISBN/EAN: 9780123969842
ISBN - alternative Schreibweisen: 0-12-396984-0, 978-0-12-396984-2 Alternative Schreibweisen und verwandte Suchbegriffe: Titel des Buches: synthesis, design, virtual
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