This book delves into the intricate world of soft matter physics, specifically focusing on two contemporary complex systems: ferronematics and living liquid crystals.
This book covers the clinical application of nano-biomaterials in hard tissue repair and regeneration which are materials designed to interact with biological systems to restore and regenerate damaged tissues.
This book offers a compelling and philosophical exploration of the physical origins of inflation in the universe, grounded in the dimensional analysis of quantum mechanics and general relativity models.
The 2nd edition of this book builds on the success of its predecessor, offering a comprehensive overview of recent advances and emerging applications in the area of laser-induced breakdown spectroscopy (LIBS).
This book covers the clinical application of nano-biomaterials in hard tissue repair and regeneration which are materials designed to interact with biological systems to restore and regenerate damaged tissues.
This fifth volume continues the book series Ultra-High Temperature Materials by Igor Shabalin, which deals materials with melting (sublimation or decomposition) points around or over 2500 °C.
This book offers a compelling and philosophical exploration of the physical origins of inflation in the universe, grounded in the dimensional analysis of quantum mechanics and general relativity models.
This contributed volume explores the integration of machine learning and cheminformatics within materials science, focusing on predictive modeling techniques.
This contributed volume explores the integration of machine learning and cheminformatics within materials science, focusing on predictive modeling techniques.
