A timely addition to the growing literature on molecular-level modeling of materials. Especially useful to researchers doing molecular modeling Nicely organized for readers who want to focus in quickly on a topic of interest. a welcome and useful addition to university and industrial libraries. ...
Randall Q. Snurr in Wiley Angewandte Chemie, March 2005
Defines an extremely wide scope. A variety of topics, including (heterogeneous) catalysis...materials synthesis...the determination of properties...as well as a large number of different simulation methods. A large number of up-to-date references allow readers to dig deeper. Overall, this is a nice book especially for materials scientists...interested in the potential of current modeling techniques.
Dr. Rochus Schmid, Lehrstuhl fur Anorganische Chemie II Ruhr-Universitat Bochum, Germany, in Chemphyshem, 2006
...Books specifically oriented towards the selection of the appropriate modeling approach for a problem at hand are rare. This outstanding text contains a wealth of useful information that has great utility and practical value for any practitioner in the field of material modeling. The authors have done a very good job in presenting a rich body of up-to-date, but not overwhelming, information a worthwhile addition to any library and can be recommended for all chemists, chemical engineers and materials scientists interested in the design of materials having targeted properties.
Professor Marie-Francoise Reyniers, Chemical Engineering Department, Ghent University, Belgium, in Chemical Engineering Research and Design, 2006, 84(A5): 416-417
defines an extremely wide scope. A variety of topics, including (heterogeneous) catalysis, any kind of materials synthesis, as well as the determination of properties of bulk and surface or nanosized systems could be included as well as a large number of different simulation methods. A large number of up-to-date references allow to dig deeper. Overall, this is a nice book especially for materials scientists (from industrial R&D departments) who are interested in the potential of current modeling techniques.
Dr. Rochus Schmid, Lehrstuhl fur Anorganische Chemie II Ruhr-Universitat Bochum, Germany, in Chemphyshem, 2006
Several books on molecular modeling have appeared in the last decade, but books specifically oriented towards the selection of the appropriate modeling approach for a problem at hand are rare. The authors incentive for writing the book is to promote the applications of molecular modeling techniques to industrial problems. The book focuses on providing information on the various methods used in atomistic micro-scale modeling of a wide variety of materials such as oxides, microporous materials, glasses, super- and semiconductors and nanomaterials. this outstanding text contains a wealth of useful information that has great utility and practical value for any practitioner in the field of material modeling. The authors have done a very good job in presenting a rich body of up-to-date, but not overwhelming, information on methods ranging from quantum chemical calculation of the electronic structure of molecules to classical mechanical simulation of the dynamical properties of many atom systems. An extensive list of references is given at the end of the book. Throughout the book, the reader will find illustrations to supplement the text. In summary, the book is a worthwhile addition to any library and can be recommended for all chemists, chemical engineers and materials scientists interested in the design of materials having targeted properties.
Professor Marie-Francoise Reyniers, Chemical Engineering Department, Ghent University, Belgium, in Chemical Engineering Research and Design, 2006, 84(A5): 416-417
n extremely wide scope. A variety of topics, including (heterogeneous) catalysis, any kind of materials synthesis, as well as the determination of properties of bulk and surface or nanosized systems could be included as well as a large number of different simulation methods. A large number of up-to-date references allow to dig deeper. Overall, this is a nice book especially for materials scientists (from industrial R&D departments) who are interested in the potential of current modeling techniques.
Dr. Rochus Schmid, Lehrstuhl fur Anorganische Chemie II Ruhr-Universitat Bochum, Germany, in Chemphyshem, 2006
Several books on molecular modeling have appeared in the last decade, but books specifically oriented towards the selection of the appropriate modeling approach for a problem at hand are rare. The authors incentive for writing the book is to promote the applications of molecular modeling techniques to industrial problems. The book focuses on providing information on the various methods used in atomistic micro-scale modeling of a wide variety of materials such as oxides, microporous materials, glasses, super- and semiconductors and nanomaterials. this outstanding text contains a wealth of useful information that has great utility and practical value for any practitioner in the field of material modeling. The authors have done a very good job in presenting a rich body of up-to-date, but not overwhelming, information on methods ranging from quantum chemical calculation of the electronic structure of molecules to classical mechanical simulation of the dynamical properties of many atom systems. An extensive list of references is given at the end of the book. Throughout the book, the reader will find illustrations to supplement the text. In summary, the book is a worthwhile addition to any library and can be recommended for all chemists, chemical engineers and materials scientists interested in the design of materials having targeted properties.
Professor Marie-Francoise Reyniers, Chemical Engineering Department, Ghent University, Belgium, in Chemical Engineering Research and Design, 2006, 84(A5): 416-417
