6 Polymorphism Books That Unravel Complex Science and Software

Joel Bernstein's decades of experience in physical chemistry and solid-state research culminate in this detailed examination of polymorphism in molecular crystals. The book dives into the fundamental structural and energetic principles behind polymorphism, guiding you through the preparation, identification, and implications of polymorphic substances across pharmaceuticals, pigments, and explosives. With chapters on intellectual property and patent litigation, it extends beyond pure science into real-world applications affecting innovation and legal frameworks. If you're seeking an in-depth understanding of how molecular structure influences material properties, this offers a rigorous, well-referenced foundation, though it is best suited for those with a background or strong interest in crystallography and material science.

Rolf Hilfiker, with a career spanning physical chemistry and solid-state development at major pharmaceutical firms like Novartis and Solvias AG, brings deep industry insight to this work. You gain detailed knowledge on how polymorphism affects drug development, from crystallization and thermodynamics to patent implications, illustrated through real industry case studies. The book also explores analytical techniques and quantum-mechanical modeling critical to solid form characterization. If your work involves pharmaceutical chemistry or solid-state research, this text offers a grounded perspective on managing solid forms to optimize drug quality and stability.

This tailored book explores the multifaceted world of polymorphism with a focus that matches your background and learning goals. It examines key concepts across chemistry, genetics, and software design, offering you a personalized pathway through complex polymorphism challenges. By synthesizing expert knowledge and adjusting emphasis to your interests, it reveals nuanced connections between molecular structures, genetic variability, and object-oriented programming principles. This personalized approach enables you to deepen your understanding efficiently, addressing specific areas such as molecular crystals, solid forms, genetic markers, or software patterns. The book’s content is crafted to engage you in mastering polymorphism’s diverse applications with clarity and enthusiasm.

Yean Wang is a molecular genetics and evolutionary biology expert whose deep dive into molecular polymorphisms reveals how different markers serve distinct roles in genetic relationship studies. You’ll learn why microsatellites excel at distinguishing populations within species but can mislead in broader evolutionary contexts due to homoplasy, while mtDNA markers provide clarity for long-range phylogenetic analysis. The book examines real cases like the green monkey’s mtDNA sequencing and the Queensland fruit fly’s microsatellite markers, offering you concrete examples of applying molecular polymorphisms to pedigree and population structure studies. This detailed exploration suits anyone working with genetic data who needs to understand which molecular tools fit particular biological questions.

Edward Sciore draws on over 35 years teaching computer science to bring clarity to Java's object-oriented design, focusing on polymorphism and design patterns. You’ll learn to recognize and improve poorly designed programs, apply polymorphism effectively within Java interfaces and class hierarchies, and leverage modern Java features like lambda expressions to enhance traditional design patterns. The book walks you through evolving a simple banking program from procedural to fully object-oriented code, offering concrete examples from the Java class library along the way. This approach makes it especially useful if you’re comfortable with basic Java but need a deeper, practical understanding of object-oriented concepts and their application.

Unlike most polymorphism books that focus solely on theory, Anton A. Komar's work dives into the practical methods and protocols essential for SNP research. You’ll explore the latest advances in SNP genotyping, high-throughput techniques, and how these variations influence gene function and phenotypic differences. The book offers detailed chapters that guide you through bioinformatics discovery, SNP databases, and experimental detection methods, making it especially useful if you’re involved in personalized medicine or drug response studies. If your work hinges on understanding genetic variability at the nucleotide level, this volume serves as a focused technical manual rather than a general overview.

This tailored book explores the intricate world of polymorphism with a focus on accelerating your understanding through targeted learning paths. It examines key concepts across molecular, genetic, and software domains, bridging foundational principles with your specific interests and background. By synthesizing broad expert knowledge into a personalized format, this book reveals how polymorphism shapes diverse fields from crystallography to programming. Tailored to your goals, it guides you step-by-step, helping you grasp complex polymorphism phenomena efficiently and deeply. Its approach encourages active engagement with advanced topics, making your journey through polymorphism both accessible and richly informative.

Joel Bernstein, a chemistry expert from Ben-Gurion University, draws on decades of research to explore the phenomenon of polymorphism in molecular crystals. You’ll gain a detailed understanding of how different crystal structures affect the properties of chemical substances, with particular focus on organic molecules like pharmaceuticals and pigments. The book systematically reviews current knowledge, backed by extensive examples and case studies, making it especially useful if you work in materials science or drug development. If your interest lies in chemical structure-property relationships, this text offers a focused, in-depth perspective that goes beyond basic definitions to practical implications.