Advanced Materials for Biomedical Devices by Anusuya, M; Ezema, Fabian I.;

Short description:

Advanced Materials for Biomedical Devices: Insights from AI and Nanotechnology explores the intersection of advanced materials science, artificial intelligence (AI), and nanotechnology, specifically targeting innovations in biomedical devices. 

Long description:

Advanced Materials for Biomedical Devices: Insights from AI and Nanotechnology explores the intersection of advanced materials science, artificial intelligence (AI), and nanotechnology, specifically targeting innovations in biomedical devices. This book delves into cutting-edge advancements in materials such as biocompatible polymers, nanostructured surfaces, smart hydrogels, and bioactive ceramics. It discusses their applications in areas like drug delivery, tissue engineering, diagnostics, and implantable devices. The book also examines how AI-driven tools and machine learning algorithms are revolutionizing material discovery, property prediction, and device optimization. This book is aimed at advanced researchers and professionals in academia and industry focusing on biomaterials and medical device innovation, clinicians interested in understanding the technological basis of emerging medical devices and policy-makers or technology developers involved in healthcare innovation. This book serves as both a foundational text for academic learning and a reference for professionals seeking to stay ahead in the rapidly evolving field of biomedical device materials. 

Key Features:

• Bridges the knowledge gap between materials science, AI, and nanotechnology, offering a holistic perspective on biomedical device innovation.


• Focuses on real-world applications, including case studies of AI-enhanced material discovery and nanotechnology-driven device advancements.


• Highlights emerging trends and challenges in smart materials, personalized medicine, and sustainable medical technologies.

Table of Contents:

1. 
   

   Artificial Intelligence in Nanotechnology: An Infalliable Approach in Biomedical Innovations

   
   


2. 
   

   Advanced Materials for Additive Manufacturing of Lightweight Components in Aerospace and Automotive Engineering Using AI-Driven Design and Nanotechnology Enhancements

   
   


3. 
   

   Nanotechnology and its Consociation with Probiotics an Enterprising Outlook

   
   


4. 
   

   AI-Driven Fault Detection and Reliability Optimization in Power Systems Using Machine Learning Models for Electrical and Biomedical Applications

   
   


5. 
   

   Next Generation Materials in Bio-Engineering: Innovations and Insights in Tissue Engineering

   
   


6. 
   

   Nanotechnology-Enhanced Coatings for Corrosion Resistance in Marine, Industrial, and Biomedical Engineering Leveraging AI for Predictive Maintenance

   
   


7. 
   

   Artificial  Intelligence Applications in Tissue Engineering

   
   


8. 
   

   Structural Health Monitoring in Civil and Biomedical Engineering Using IoT, AI, and Data Analytics for Real-Time Safety Assessments

   
   


9. 
   

   Randon Emissions and Their impact: Evaluating Construction Materials in Biomedical Facilities

   
   


10. 
    

    Hybrid Nanocomposites for High-Performance Applications in Aerospace, Mechanical, and Biomedical Engineering Enhanced by Computational Modeling and AI 

    
    


11. 
    

    AI in Nanomaterials: Enhancing the Applications through Advanced Intelligence

    
    


12. 
    

    Advanced 3D Printing Techniques for Complex Geometries in Mechanical and Biomedical Engineering Applications Supported by AI-Based Topology Optimization

    
    


13. 
    

    Improving Cancer Diagnostics: A Study on SPR-PCF Biosensors for Basal Carcinoma Cells

    
    


14. 
    

    Integration of AI, Nanotechnology, and Digital Twins for Smart Factory Optimization in Manufacturing and Healthcare Engineering Applications

    
    


15. 
    

    AI Guided Nanocarrier Systems for Targeted Delivery of Bifidobacterium longum Subsp Derived Metabolites Against MCF-7 Breast Cancer Cells

    
    


16. 
    

    Renewable Energy Storage Systems Using Advanced Materials for Electric Vehicle and Biomedical Applications with AI-Driven Predictive Energy Management

    
    


17. 
    

    Revolutionizing Pediatric Physiotherapy: AI's Role In Early Detection and Intervention

    
    


18. 
    

    Piezoelectric and Shape-Memory Materials for Actuators and Energy Harvesting in Mechanical, Electronics, and Biomedical Engineering Using AI-Based Design

    
    


19. 
    

    Integration of AI in Biomedical Materials Research

    
    


20. 
    

    Autonomous Robotics for Precision Manufacturing and Healthcare Automation Using AI, Computer Vision, and Nanotechnology-Enhanced Components

    
    


21. 
    

    Overview of Advanced Materials in Biomedical Devices

    
    


22. 
    

    Biodegradable and Eco-Friendly Materials for Sustainable Construction and Biomedical Packaging Applications Developed Using AI-Driven Life Cycle Assessments

    
    


23. 
    

    Smart Nanomaterials for Medical Applications: Future of Biocompatibility, Nanorobotics and Real time monitoring in Healthcare 

    
    


24. 
    

    Smart Sensors and IoT-Enabled Devices for Real-Time Monitoring in Environmental, Biomedical, and Civil Engineering with Data Analytics and Machine Learning

    
    


25. 
    

    Advancing Breast Cancer Diagnostics: The Convergence of PCR, AI and Nanotechnology

    
    


26. 
    

    High-Performance Alloys and Their Applications in Aerospace and Biomedical Structures Supported by AI-Driven Material Selection Algorithms

    
    


27. 
    

    Smart Materials for Diagnostics and Therapeutics

    
    


28. 
    

    Challenges in Scaling Nanotechnology-Based Materials for Large-Scale Industrial and Biomedical Applications Using AI-Powered Quality Control Systems

    
    


29. 
    

    Nanotechnology in Biosensors

    
    


30. 
    

    Innovations in Wearable Electronics and IoT Sensors for Industrial, Biomedical, and Consumer Applications Enabled by AI and Big Data Analytics

    
    


31. 
    

    Nanotechnology: A Promising Targeted Drug Delivery System for Alzheimers Disease

    
    


32. 
    

    Surface Engineering and Nanostructuring for Enhanced Mechanical, Thermal, and Biocompatibility Properties in Industrial and Biomedical Components Using Computational Modeling

    
    


33. 
    

    Future Directions and Emerging Trends in AI Powered Advance Materials in Biomedical Devices

    
    


34. 
    

    Advanced Fluid Dynamics in Microfluidic Systems for Environmental, Chemical, and Biomedical Engineering Applications Simulated Using Computational Tools

    
    


35. 
    

    Virtual Reality (VR) and AI in Physiotherapy for Cognitive and Physical Rehabilitation: Innovations in Biomedical materials

    
    


36. 
    

    Composite Materials for Enhanced Durability and Performance in Infrastructure and Biomedical Applications Optimized Through Machine Learning Algorithms

    
    


37. 
    

    Portable Glucose Monitoring Using Saliva Nano-Biosensor

    
    


38. 
    

    AI-Powered Predictive Maintenance Models for Manufacturing, Energy, and Healthcare Systems Leveraging IoT and Cloud Computing Frameworks

    
    


39. 
    

    Nanotechnology for Targeted Drug Delivery Systems

    
    


40. 
    

    Biocompatible Materials and Smart Polymers for Targeted Biomedical Applications Using AI for Material Behavior Prediction and Nanotechnology Enhancements

    
    


41. 
    

    Artificial Intelligence in Drug Delivery System

    
    


42. 
    

    Emerging Trends In Yoga Research Utilizing Artificial Intelligence And Bio-Signals: A Futuristic Perspective

    
    


43. 
    

    Bacterial Genetics and AI Enhanced Microbial Engineering

    
    


44. 
    

    Nanoparticle Therapeutics: Transforming Biomedical Applications

    
    


45. 
    

    Applications of AI in the Design and Optimization of Various Pharmaceutical Formulations

    
    


46. 
    

    Emerging Trends in Nanomaterials for Medical Applications

    
    


47. 
    

    Advancing Agricultural Sustainability Through Biomedical Engineering: A Focus On Biosystems and Human-Agriculture Interactions

    
    


48. 
    

    Nanomaterials: Catalysts of Technological Revolution Across the Diverse Frontiers in Biomedical Applications

    
    


49. 
    

    Nanoparticle Drug Delivery System for the Treatment of Brain Tumors

    
    


50. 
    

    AI-Powered Advances in Nanoscale Drug Delivery Systems