This note exposes students to the fundamental principles that are foundational to
understanding photochemical transformations. Each chapter is planned in an easy to follow pattern for beginners in this aspect of chemistry.
The overall goal of this note is to produce a text that
introduces the students to the relevance and excitement of chemistry. Topics
covered includes: Molecules, Ions, and Chemical Formulas, Chemical Reactions,
Reactions in Aqueous Solution, The Structure of Atoms, The Periodic Table and
Periodic Trends, Ionic versus Covalent Bonding, Molecular Geometry and Covalent
Bonding Models, Gases, Liquids, Solids, Solutions, Chemical Kinetics , Chemical
Equilibrium, Aqueous Acid–Base Equilibriums, Solubility and Complexation
Equilibriums, Chemical Thermodynamics, Electrochemistry, Nuclear Chemistry,
Periodic Trends and the s-Block Elements, The p-Block Elements, The d-Block
Elements and Organic Compounds.
covers the following topics: Liquids and Intermolecular Forces, Solids and
Modern Materials, Properties of Solutions, Chemical Kinetics, Chemical
Equilibrium, Acid-Base Equilibria, Chemical Thermodynamics and
This book is specifically
aimed at broadening and deepening the theory and applications of titration. It
contains six chapters being organized into three main sections: Volumetric
Titration, Isothermal Titration Calorimetry, and Titrimetric Principles in
This book covers the following topics: Matter and Measurement,
Atoms, Molecules and Ions, Aqueous Reactions and Solution Stoichiometry,
Chemical Reactions and Reaction Stoichiometry, Thermochemistry, Chemical
Bonding, Periodic Properties of the Elements, Electronic Structure of Atoms,
Molecular Geometries and Bonding Theories, Gases.
This note covers the
following topics: The Atomic Nature of Matter, Chemical Equations and Reaction
Yields, Chemical Periodicity and the Formation of Simple Compounds, Types of
Chemical Reactions, The Gaseous State, Condensed Phases and Phase Transitions,
Chemical Equilibria, Thermochemistry, Spontaneous Change and Equilibrium, Redox
Reactions and Electrochemistry, Electrochemistry and Cell Voltage.
this textbook has been developed
and arranged to provide a logical progression from fundamental to more advanced
concepts of chemical science. Topics are introduced within the context of
familiar experiences whenever possible treated with an appropriate rigor to satisfy the intellect of the learner, and
reinforced in subsequent discussions of related content. Topics covered
includes: Atoms, Molecules, and Ions, Thermochemistry, Stoichiometry of Chemical
Reactions, Composition of Substances and Solutions, Electronic Structures
and Periodic Properties of Elements, Chemical Bonding and Molecular Geometry,
Advanced Theories of Covalent Bonding, Gases, Liquids and Solids, Solutions and
Colloids, Kinetics, Thermodynamics, Fundamental Equilibrium Concepts, Equilibria
of Other Reaction Classes, Organic Chemistry, Electrochemistry and nuclear
This book has put together recent,
state-of-the-art topics on current trends in catalytic materials and consists of
16 chapters. Topics covered includes: X-Ray Spectroscopy, Iron-based
Nanomaterials in the Catalysis, New Catalytic Systems for Fixation of Carbon
Dioxide into Valuable Poly, Catalytic Applications of Metal-Organic Frameworks,
Advanced Nanomatericals for Solar Photocatalysis, Preparation of Functionalized
Graphene and Gold Nanocomposites, Photochemical Decomposition of Hydrogen
Sulfide, Electrocatalytic Applications of Graphene, Native and Synthetic
G-quartet-based DNAzyme Systems.
The goal of this text is to address the increasing close relationship
among various disciplines and to show the relevance of chemistry to contemporary
issues in a pedagogically approachable manner. This book explains the following
topics: Molecules, Ions, and Chemical Formulas, Chemical Reactions,
Reactions in Aqueous Solution, Energy Changes in Chemical Reactions, The
Structure of Atoms, The Periodic Table and Periodic Trends, Ionic versus
Covalent Bonding, Molecular Geometry and Covalent Bonding Models.
Chemistry is not just central; it’s all
around you. This idea is one of the major themes in this book. Throughout these
chapters, author will attempt to convince you that you play with chemicals every day, perform
chemistry every day, and depend on chemistry every day.
This book explains the
following topics: Properties of Matter, Atomic Structure, Compounds and Bonding,
Chemical Reactions, Redox Reactions, Aqueous Solutions, Acids and Bases, Phases
of Matter, Chemical Equilibria, Chemical Kinetics, Thermodynamics.
These pages provide a brief review of a number
of general chemistry topics. Covered topics are: Measurement, Elements,
Compounds, and Mixtures, Stoichiometry, Gases, Thermochemistry, Structure of the
Atom, An Introduction to Ionic Compounds, The Covalent Bond, Main-Group Metals,
Redox Reactions, The Chemistry of Nonmetals, Acids and Bases, Transition-Metal
Chemistry, The Structure of Solids, Liquids,Solutions, Gas-Phase Reactions,
Acid-Base Equilibria, Solubility and Complex-Ion Equilibria, Oxidation-Reduction
Reactions, Electrochemistry, Chemical Thermodynamics, Chemical Kinetics, Nuclear
Chemistry, Intermolecular Forces, Introduction to Organic Chemistry,
Introduction to Materials Science, Organic Chemistry: Structure and Nomenclature
of Hydrocarbons, Organic Chemistry: Functional Groups and Reaction Mechanisms,
Introduction to Polymers, Introduction to Biochemistry.
These notes on Quantum Chemistry
were written by Professor David Sherrill as a resource for students at the
college through post-graduate level interested in quantum mechanics and how it
is used in chemistry. Topics covered includes: Quantum Chemistry, Computational
Chemistry and Computational Implementation.
Sherrill Group, Georgia Institute of Technology
This note covers the following topics: The Structure of the Atom, The Organization of the Elements, Describing
Compounds, Problem Solving and the Mole, Mixtures and Their Properties, Chemical
Reactions, Acids and Bases, Energy of Chemical Changes and Nuclear Changes.
This note covers the following topics: Stereochemistry
of Tetrahedral Carbons, Stereoisomers Stereoisomers, Stereocenter, Chiral,
Enantiomers, Racemic mixture, Configuration of Stereocenters, Molecules with
multiple stereocenters, Tartaric Acid and Enantiomers.