AMN_T&E_21: Call for Book Chapters 2021: Advanced Materials and Nanosystems: Theory and Experiment |
Submission link | https://easychair.org/conferences/?conf=amnte21 |
Abstract registration deadline | May 31, 2021 |
Submission deadline | June 10, 2021 |
Call for Edited Book Chapter
Title of the Proposed Book: Advanced Materials and Nanosystems: Theory and Experiment
Edited by Dr. Dibya Prakash Rai
to be published by Bentham Science Publishers
Brief Summary/About the Book
The implementation of advanced or smart materials as a nanosystem, i.e., nanostructures with tunable properties and efficiency, has become critically important. As a consequence, fast-changing technology has a significant effect on daily life. These systems are intelligent enough to produce desired assets in specific circumstances and are therefore cost-effective. Certain materials have high efficiency but are dangerous to the climate, raising severe concerns among chemists, material scientists, and environmentalists. Demand has increased as a result of the advancement of next-generation advanced material-based systems that minimize dangerous effects while maintaining desirable results. Not only bio-based organic nanosystems but also inorganic functional materials need modeling, architecture, and synthesis. Indeed, the growth in nanoscience and nanotechnology is accelerating, resulting in a remarkable advancement in emerging technologies. Numerous nanoparticles, nanosystems, and nanorobots have already been demonstrated and confirmed to work exceptionally well in solar cells, thermoelectric, ferroelectric, digital systems, connectivity, and medicine, among other applications. These functionalities may be accomplished by various means, including ideal form, cost-effectiveness, scale, biocompatibility, and surface functionalization. This makes them appropriate for industrial applications. However, nanoscience and nanotechnology are advancing at a breakneck pace in creating smart nanosystems as possible candidates for meeting an hour's need.
However, it has several limitations, necessitating the involvement of multidisciplinary methods (chemists, physicists, biologists, and engineers, for example) in order to accomplish the task on a larger scale. The modern nanoscale-based architecture enables low energy usage, stability, connectivity with other sizes, high performance, and advanced translational applications. Considering recent developments and issues, I suggested the title "Advanced Materials and Nanosystems: Theory and Experiment" for this special topic. This title aimed to investigate emerging developments in novel techniques (computation, experimentation, and modeling, among others) for examining the varied functionalities of smart nanosystems for translation applications. We welcome full/mini-reviews, original studies, and correspondence papers from all over the world to this special issue to encourage, assist, and inspire young scholars, young students, young teachers, scientists, and professors, among others.
Submission Guidelines
All submissions should be done via Easy Chair or by Email to: dibya@pucollege.edu.in
All papers must be original and not simultaneously submitted to another book project, journal or conference. Similarity rate or Plagiarism should be max. 10% excluding the references/bibliography (authors are suggested to submit similarity reports with the full chapters).
The following important dates will be considered for the submissions:
- Proposal Submission: 31st May 2021
- Full Chapter Submission: 10th June 2021
- Final Revisions for the Accepted: 30th June 2021
List of Topics (not limited to...)
1. Advanced Materials and Nanosystems: Synthesis and Characterization.
2. Advanced Materials and Nanosystems for catalysis, sensors, and waste-water treatment.
3. Advanced Materials and Nanosystems for hydrogen production/storage
4. Advanced Materials and Nanosystems for Solar Cell.
5. Advanced Materials and Nanosystems for thermoelectricity.
6. Advanced Materials and Nanosystems as a Cathode/Anode for Li-Rechargeable Batteries.
7. Advanced Materials and Nanosystems for electron-spin transport and spintronics.
8. Advanced Topological Insulators.
9. Advanced Materials and Nanosystems for CO2 Capture and Conversion.
10. Advanced Materials for Structural Performance.
11. Advanced magnetic Materials and Nanosystems for data storage and data transfer technology.
12. Advanced bio-based nanosystem for food technology, agriculture, cosmetics, medicine, health, etc.
Editor
Editor in Chief
Dr. Dibya Prakash Rai
Department of Physics, Pachhunga University College, Aizawl-796001, India
Dr. D. P. Rai completed his Ph.D. from Mizoram University in 2013 and Postdoc from CSRC, Beijing China. Since 2014 he is working as an assistant professor in the Department of Physics, Pachhunga University College, Mizoram University, Aizawl, India. His research work focuses on the analysis of materials properties like electronic, magnetic, optical, thermoelectric properties based on density functional theory (DFT). He has published more than 100 papers in Nation/Internation peer-review journals. Currently, he is also serving as an associate editor of Senhri Journal of Multidisciplinary Studies (Publisher: Pachhunga University College).
Publication
‘Advanced Materials and Nanosystems: Theory and Experiment' will be published by Bentham Science Publishers
Contact
All questions about submissions should be emailed to: dibya@pucollege.edu.in