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Integration and Innovation of Crystal Materials and Artificial Intelligence

Published Date: November 5th 2024

Page Length: 382

Language: English

ISBN: 978-1-80053-676-0

Price: £27.60


Introduction

DOI: 10.38007/978-1-80053-676-0


The book "Innovative Integration of Crystal Materials and Artificial Intelligence" aims to explore the cross fusion of crystal materials and artificial intelligence, and is divided into five main chapters. Firstly, we will introduce the basic concepts of crystal materials, including crystal structure, physics foundations, and research methods. This section lays the theoretical foundation for subsequent discussions. Next, we will outline the basic principles, technologies, and applications of artificial intelligence in materials science, demonstrating how AI can drive cutting-edge developments in materials research. Chapter 3 focuses on exploring innovative methods for crystal material research based on machine learning and attention mechanisms, and explores how to use these advanced technologies to achieve crystal structure recognition and attribute prediction. Chapter 4 will delve into the research of intelligent sensing materials and devices, introduce the latest developments in organic sensing materials, intelligent sensors, and biomimetic sensing systems, and demonstrate the practical applications of combining materials with intelligent technology. Finally, we will look forward to the future vision of the integration of crystal materials and artificial intelligence, including the potential impact of quantum computing in materials science, the contribution of artificial intelligence to society, and its important role in sustainable material development. This section will inspire readers to think about future research directions and their application prospects. 

In the future, the combination of crystalline materials and artificial intelligence will continue to drive progress in materials science. The introduction of quantum computing, the deepening of big data analysis, and the demand for sustainable material development will further strengthen innovation in this field. In this process, interdisciplinary collaboration will be the key to promoting the transformation of research results and achieving widespread applications.


Tabale of Contents

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