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Books in Chemistry

Chemistry topic areas include: physical and theoretical, computational, organic, organometallic and inorganic, pharmaceutical and medicinal, analytical and bioanalytical, nuclear, general, nanochemistry, geochemistry, materials and polymer, as well as environmental, green and sustainable chemistry.

  • New Psychoactive Substances: An Analytical Chemistry Perspective. Methodologies and future perspectives

    • 1st Edition
    • Volume 115
    • English

  • Annual Reports on Medicinal Chemistry

    • 1st Edition
    • Volume 67
    • English
    Annual Reports in Medicinal Chemistry Vol 67 provides timely and critical reviews of important topics in medicinal chemistry with an emphasis on emerging topics in the biological sciences that are expected to provide the basis for entirely new future therapies.

  • Physical Chemistry at the Intersection of Combustion and Atmospheric Sciences

    • 1st Edition
    • Brandon Rotavera
    • English
    Physical Chemistry at the Intersection of Combustion and Atmospheric Sciences provides the first detailed exploration of overlapping scientific problems in physical chemistry within the domains of combustion and atmospheric chemistry. The intersection between these two areas refers specifically to the role in atmospheric processes of gas-phase and particle-phase emissions produced from combustion in the transportation sector. The importance of this intersection of the two areas is derived from the influence of molecular structure of hydrocarbons and biofuels on the formation of volatile organic compounds and primary organic aerosols (POA) becoming reactants in the troposphere and contribute to secondary organic aerosol (SOA) in the atmosphere. Research approaches required to solve these challenges span a broad range of experimental apparatus, experimental target (spectroscopy, reaction rates, speciation), computational quantum chemistry methodologies, detailed chemical kinetics modelling, and atmospheric modelling. Specific problems addressed in this book include detailing the current state of knowledge and future research needs on topics, such as the role of organic hydroperoxide reactivity in both atmospheric chemistry and combustion, the importance of peroxy radicals produced in biofuel and hydrocarbon combustion that control chain-branching, and in tropospheric chemistry, affect OH-budgeting and the formation of aerosols that impact air quality. Significant attention will also be paid to the influence of functional groups on combustion reaction mechanisms as well as downstream effects on gas-phase chemical reactions in atmosphere. Specifically, problems connecting gas-phase reactions of functionalized organic molecules present in combustion emissions to secondary organic aerosol (SOA) formation will be addressed. In addition, remaining challenges in understanding the subsequent physical and chemical processes involving SOA will be addressed. Physical Chemistry at the Intersection of Combustion and Atmospheric Sciences is written primarily for research staff scientists, R&D personnel (laboratory and industry), graduate students, and professors in the fields of physical chemistry, atmospheric science, and chemical engineering. The book will appeal to experimental and theoretical kineticists as well as any researchers involved in combustion and atmospheric modelling.

  • Catalytic Methods in Flow Chemistry: Part B

    • 1st Edition
    • Volume 78
    • English
    Catalytic Methods in Flow Chemistry: Part B, Volume 78 in the Advances in Catalysis series, highlights recent breakthroughs in catalytic methods under continuous‐flow conditions. This new volume presents chapters written by an international board of authors and explores cutting-edge strategies for enabling sustainable, scalable chemical synthesis. Topics include technological innovations that enhance efficiency and selectivity in continuous flow systems, the integration of biocatalysts for greener processes, and the development of streamlined approaches for active pharmaceutical ingredient (API) synthesis. Together, these contributions provide researchers and industrial practitioners with a comprehensive overview of advances that are shaping the future of flow chemistry and catalysis.

  • Robust Theoretical Models in Medicinal Chemistry

    QSAR, Artificial Intelligence, Machine Learning, and Deep Learning
    • 1st Edition
    • Luciana Scotti + 1 more
    • English
    Robust Theoretical Models in Medicinal Chemistry: QSAR, Artificial Intelligence, Machine Learning, and Deep Learning serves as a valuable resource chock full of applications extending into multiple knowledge domains. The meticulous construction of a robust model holds significance, not only in drug discovery but also in engineering, chemistry, pharmaceutical, and food-related research, illustrating the broad spectrum of fields where QSAR methodologies can be instrumental. The activities considered in QSAR span chemical measurements and biological assays, making this approach a versatile tool applicable across various scientific domains. Currently, QSAR finds extensive use in diverse disciplines, prominently in drug design and environmental risk assessment.Quantitat... Structure-Activity Relationships (QSAR) represent a concerted effort to establish correlations between structural or property descriptors of compounds and their respective activities. These physicochemical descriptors encompass a wide array of parameters, accounting for hydrophobicity, topology, electronic properties, and steric effects, and can be determined empirically or, more recently, through advanced computational methods.

  • Catalysis with Sub-Nanometer Metal Clusters

    A new tool for Synthetic Chemistry
    • 1st Edition
    • Antonio Pérez-Gálvez + 1 more
    • English
    Catalysis with Sub-Nanometer Metal Clusters: A new tool for Synthetic Chemistry provides a comprehensive overview of the latest developments in sub-nanometer metal clusters as catalysts, targeting researchers and professionals involved in sustainable chemistry, catalysis, and industrial process optimization. It is designed for chemists, materials scientists, chemical engineers, and industrial practitioners seeking to understand the unique size-dependent properties of metal clusters and their applications in key chemical transformations such as hydrogen production, oxidation, and C–C coupling reactions. The book bridges fundamental science with practical applications by offering detailed reaction mechanisms, structure–activity relationships, and innovative synthetic strategies for catalyst preparation. Its visual content—including diagrams, flow charts, and high-quality color figures—enhances clarity, making complex concepts accessible for quick reference and effective learning.

  • Advances in Carbohydrate Chemistry and Biochemistry

    • 1st Edition
    • Volume 89
    • English
    Advances in Carbohydrate Chemistry and Biochemistry, Volume 89 in this series, highlights new advances in the field, with this new volume presenting interesting chapters written by an international board of authors.

  • Advances in Physical Organic Chemistry

    • 1st Edition
    • Volume 60
    • English
    Advances in Physical Organic Chemistry series, highlights new advances in the field, with this new volume presenting interesting chapters. Each chapter is written by an international board of authors.

  • Handbook of Astrochemistry

    • 1st Edition
    • Wendy A. Brown + 2 more
    • English
    Handbook of Astrochemistry provides a comprehensive overview of astrochemistry as a series of tutorial reviews by leading experts on all experimental, theoretical, computational, and astronomical aspects of this field. Starting from an overview of the observational molecular Universe, it then moves on to describe the state-of-the-art knowledge in the fields of gas-phase and solid-phase laboratory and computational astrochemistry; its use in astrochemical modelling; and finally how observations of molecules shape our understanding of how stars and planets form and of the chemical origins of biology.Combining the knowledge and experience of an international team of experts, this book is an authoritative, accessible guide for all those working in related fields.

  • Unveiling the Atom and Its Nucleus

    Discoveries, Insights, and Understanding
    • 1st Edition
    • Michael F. L'Annunziata
    • English
    Unveiling the Atom and Its Nucleus: Discoveries, Insights, and Understanding explores how chemists and physicists have used scientific principles and experimentation to unveil the structure of the atom, factors governing nuclear stability and decay, modes of nuclear decay, and how the components of the atom interrelate to govern nuclear stability or predict its instability. Numerous examples are featured, showing how discoveries (some of which were considered insignificant at the time) have led to remarkable findings and resulted in our current knowledge of the concepts and properties of the atom, such as Oliphant’s discovery of nuclear fusion, Bethe’s energy production in stars, and consequent current fusion energy development. Examples are provided throughout where stunning discoveries were envisioned resulting from the findings of others. The book will describe how one scientific discovery led to another and how physicists have taken our current understanding of quantum chromodynamics and applied it to nuclear stability and decay. The book also provides a summary of current advances in vital applications of atomic energy, such as current applications in nuclear medicine including positron emission tomography, hadron therapy, targeted hadron therapy and radioactive nanoparticles in cancer therapy, stable and radioactive nuclides in research to enhance agricultural production, food preservation, and applied nuclear fusion. It concludes by looking at the status of international treaties and efforts to control nuclear weapon proliferation and nuclear war. Unveiling the Atom and Its Nucleus is written primarily for undergraduate and graduate students and teachers of nuclear and radiochemistry, as well as atomic and nuclear physics and physical chemistry. It will also be of interest to researchers, students, and teachers in the fields of nuclear medicine, medical physics, physical chemistry, and biochemistry, particularly those in the field of the biochemistry of radiopharmaceuticals or looking at the industrial applications of radiation and radionuclides.

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