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What is Inorganic Chemistry?

What is Inorganic Chemistry?. Structure and bonding Acids and bases Alkanes- reactions of, stereochemistry Alkenes - “ Alkynes - “ Alkyl halides - “ Benzene- “ Alcohols -” Ethers,, epoxides “ Carbonyls - “ Aldehydes and ketones - “ Carboxylic acids and nitriles -” Amines - “

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What is Inorganic Chemistry?

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  1. What is Inorganic Chemistry?

  2. Structure and bonding Acids and bases Alkanes- reactions of, stereochemistry Alkenes - “ Alkynes - “ Alkyl halides - “ Benzene- “ Alcohols -” Ethers,, epoxides “ Carbonyls - “ Aldehydes and ketones - “ Carboxylic acids and nitriles -” Amines - “ Carbohydrates - “ Amino acids. Proteins - “ Lipids Heterocycles and nucleic acids What is Organic Chemistry? I found all texts arranged like this:

  3. Molecules Molecular shape Molecular bonding Symmetry What is Inorganic Chemistry? I found all texts arranged like this: Atoms Atomic structure

  4. Ionic compounds Atoms Atomic structure Molecules Molecular shape Molecular bonding Symmetry Covalent compounds That seems pretty straightforward. Then what? OK, so we do one then the other...

  5. Ionic compounds Atoms Atomic structure Molecules Molecular shape Molecular bonding Symmetry Covalent compounds Ideal lattices, Silicates, Defects / Properties, Semi-conductors, Covalent “ionic” compounds, Metals, Band structure/theory Topics can’t be “boxed”

  6. Ionic compounds Atoms Atomic structure Molecules Molecular shape Molecular bonding Symmetry Covalent compounds Rare earths, Acid / base concepts, Transition metal compounds Liquids / solutions, Solids, Clusters, Organometallics, Carboranes, Chalcogenides, C- chemistry (organic) Inorganic can’t be boxed?

  7. Ionic compounds Ideal lattices, Silicates, Defects / Properties, Semi-conductors, Covalent “ionic” compounds, Metals, Band structure/theory ceramics Biological catalysis photoconductors Rare earths, Acid / base concepts, Transition metal compounds Liquids / solutions, Solids, Clusters, Organometallics, Carboranes, Chalcogenides, C- chemistry (organic) Material science crystallography Organic catalysis spectroscopy Covalent compounds The best stuff is outside the box!

  8. Another problem . . . Biological catalysis Ionic compounds Ideal lattices, Silicates, Defects / Properties, Semi-conductors, Covalent “ionic” compounds, Metals, Band structure/theory Material science Organic catalysis ceramics Atoms Atomic structure Molecules Molecular shape Molecular bonding Symmetry photoconductors Rare earths, Acid / base concepts, Transition metal compounds Liquids / solutions, Solids, Clusters, Organometallics, Carboranes, Chalcogenides, C- chemistry (organic) crystallography Physical Chemistry has a lot to say about these spectroscopy Covalent compounds

  9. Biological catalysis Ionic compounds Material science Ideal lattices, Silicates, Defects / Properties, Semi-conductors, Covalent “ionic” compounds, Metals, Band structure/theory Organic catalysis ceramics Atoms Atomic structure Molecules Molecular shape Molecular bonding Symmetry Rare earths, Acid / base concepts, Transition metal compounds Liquids / solutions, Solids, Clusters, Organometallics, Carboranes, Chalcogenides, C- chemistry (organic) photoconductors crystallography Physical Chemistry spectroscopy Covalent compounds

  10. Biological catalysis Ionic compounds Material science Ideal lattices, Silicates, Defects / Properties, Semi-conductors, Covalent “ionic” compounds, Metals, Band structure/theory Organic catalysis ceramics Symmetry Atoms Atomic structure Molecules Molecular shape Molecular bonding Rare earths, Acid / base concepts, Transition metal compounds Liquids / solutions, Solids, Clusters, Organometallics, Carboranes, Chalcogenides, C- chemistry (organic) photoconductors crystallography Physical Chemistry spectroscopy Covalent compounds

  11. Biological catalysis Ionic compounds Material science Ideal lattices, Silicates, Defects / Properties, Semi-conductors, Covalent “ionic” compounds, Metals, Band structure/theory Organic catalysis Symmetry ceramics Atoms Atomic structure Molecules Molecular shape Molecular bonding Rare earths, Acid / base concepts, Transition metal compounds Liquids / solutions, Solids, Clusters, Organometallics, Carboranes, Chalcogenides, C- chemistry (organic) photoconductors crystallography Physical Chemistry spectroscopy Covalent compounds Do I make my point?!

  12. How I see Inorganic Chemistry. . . crystallography Redox Reactions ceramics photoconductors Material science Biological catalysis solids C- chemistry (organic) Atomic structure Liquids / solutions Symmetry organometallics Molecular shape Molecular bonding Organic catalysis carboranes Transition metal compounds clusters chalcogenides spectroscopy Rare earths Acid / base concepts

  13. The path we will take . . . crystallography Redox Reactions ceramics photoconductors Material science Biological catalysis solids C- chemistry (organic) Atomic structure Liquids / solutions Symmetry organometallics Molecular shape Molecular bonding Organic catalysis carboranes Transition metal compounds clusters chalcogenides spectroscopy Rare earths Acid / base concepts

  14. crystallography Redox Reactions ceramics photoconductors Material science Biological catalysis solids C- chemistry (organic) Atomic structure Liquids / solutions Symmetry organometallics Molecular shape Molecular bonding Organic catalysis carboranes Transition metal compounds clusters chalcogenides spectroscopy Rare earths Acid / base concepts

  15. crystallography Redox Reactions ceramics photoconductors Material science Biological catalysis solids C- chemistry (organic) Atomic structure Liquids / solutions Symmetry organometallics Molecular shape Molecular bonding Organic catalysis carboranes Transition metal compounds clusters chalcogenides spectroscopy Rare earths Acid / base concepts

  16. crystallography Redox Reactions ceramics photoconductors Material science Biological catalysis solids C- chemistry (organic) Atomic structure Liquids / solutions Symmetry organometallics Molecular shape Molecular bonding Organic catalysis carboranes Transition metal compounds clusters chalcogenides spectroscopy Rare earths Acid / base concepts

  17. crystallography Redox Reactions ceramics photoconductors Material science Biological catalysis solids C- chemistry (organic) Atomic structure Liquids / solutions Symmetry organometallics Molecular shape Molecular bonding Organic catalysis carboranes Transition metal compounds clusters chalcogenides spectroscopy Rare earths Acid / base concepts

  18. crystallography Redox Reactions ceramics photoconductors Material science Biological catalysis solids C- chemistry (organic) Atomic structure Liquids / solutions Symmetry organometallics Molecular shape Molecular bonding Organic catalysis carboranes Transition metal compounds clusters chalcogenides spectroscopy Rare earths Acid / base concepts

  19. crystallography Redox Reactions ceramics photoconductors Material science Biological catalysis solids C- chemistry (organic) Atomic structure Liquids / solutions Symmetry organometallics Molecular shape Molecular bonding Organic catalysis carboranes Transition metal compounds clusters chalcogenides spectroscopy spectroscopy Rare earths Acid / base concepts

  20. crystallography Redox Reactions ceramics photoconductors Material science Biological catalysis solids C- chemistry (organic) Atomic structure Liquids / solutions Symmetry organometallics Molecular shape Molecular bonding Organic catalysis carboranes Transition metal compounds clusters chalcogenides spectroscopy spectroscopy Rare earths Acid / base concepts

  21. crystallography Redox Reactions ceramics photoconductors Material science Biological catalysis solids C- chemistry (organic) Atomic structure Liquids / solutions Symmetry organometallics Molecular shape Molecular bonding Organic catalysis carboranes Transition metal compounds clusters chalcogenides spectroscopy spectroscopy Rare earths Acid / base concepts

  22. crystallography Redox Reactions ceramics photoconductors Material science Biological catalysis solids C- chemistry (organic) Atomic structure Liquids / solutions Symmetry organometallics Molecular shape Molecular bonding Organic catalysis carboranes Transition metal compounds clusters chalcogenides spectroscopy spectroscopy Rare earths Acid / base concepts

  23. crystallography Redox Reactions ceramics photoconductors Material science Biological catalysis solids C- chemistry (organic) Atomic structure Liquids / solutions Symmetry organometallics Molecular shape Molecular bonding Organic catalysis carboranes Transition metal compounds clusters chalcogenides spectroscopy spectroscopy Rare earths Acid / base concepts

  24. crystallography Redox Reactions ceramics photoconductors Material science Biological catalysis solids C- chemistry (organic) Atomic structure Liquids / solutions Symmetry organometallics Molecular shape Molecular bonding Organic catalysis carboranes Transition metal compounds clusters chalcogenides spectroscopy spectroscopy Rare earths Acid / base concepts

  25. What is Inorganic Chemistry?

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