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Clathrates

Clathrates. Clathrates. Cage-like frameworks of metals with other metals occupying the cavities of the cages. Clathrates. These can be synthesized by mixing finely divided quantities of the metals in the correct proportions and careful heating and cooling. 5 membered rings.

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Clathrates

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  1. Clathrates

  2. Clathrates Cage-like frameworks of metals with other metals occupying the cavities of the cages.

  3. Clathrates These can be synthesized by mixing finely divided quantities of the metals in the correct proportions and careful heating and cooling.

  4. 5 membered rings

  5. 5 membered rings 5 + 6 membered rings

  6. Clathrates of this type have useful thermal and semiconductor properties.

  7. Clathrates of this type have useful thermal and semiconductor properties. A good semiconductor that has poor thermal conductivity is useful for making a thermo-electric device.

  8. Thermo-electric cooler

  9. Holes and electrons carry energy electrically. Thermo-electric cooler

  10. Holes and electrons carry energy electrically. Electrical energy is converted to heat. Thermo-electric cooler

  11. Holes and electrons carry energy electrically. Electrical energy is converted to heat. Poor thermal conductivity of semiconductor keeps heat from returning to cooling site. Thermo-electric cooler

  12. Ceramics and glass

  13. quartz

  14. Each O bonds to 2 Si quartz

  15. Each O bonds to 2 Si Each Si bonds to 4 O quartz

  16. Each O bonds to 2 Si Each Si bonds to 4 O quartz SiO2

  17. Glass Na2O.CaO.(SiO2)6

  18. Glass Na2O.CaO.(SiO2)6 Approximate formula

  19. Quartz: crystalline, long-range order

  20. glass: short-range order but not crystalline

  21. glass: short-range order but not crystalline All Si bound to 4 O

  22. glass: short-range order but not crystalline All Si bound to 4 O Many O are ‘terminal’

  23. glass: short-range order but not crystalline All Si bound to 4 O Many O are ‘terminal’

  24. glass: short-range order but not crystalline All Si bound to 4 O Many O are ‘terminal’ Ratio of O/Si Is > 2.

  25. glass: short-range order but not crystalline All Si bound to 4 O Many O are ‘terminal’ Ratio of O/Si Is > 2. SixOy cluster is anionic

  26. glass: short-range order but not crystalline Na+ and Ca2+ balance charge of anion SixOy cluster is anionic

  27. Properties of glass vs. quartz.

  28. Properties of glass vs. quartz. Glass has a lower melting point

  29. Properties of glass vs. quartz. Glass has a lower melting point Glass is softer Glass does not crystallize – this makes it easier to shape it as it cools to a solid form.

  30. Special glasses:

  31. Special glasses: Borosilicate glass

  32. Borosilicate glass Replace some of the Si sites with B

  33. Borosilicate glasses have lower coefficients of expansion than soda-lime glasses.

  34. Borosilicate glasses have lower coefficients of expansion than soda-lime glasses. Most materials expand when heated.

  35. Most materials expand when heated. The coefficient of expansion is a factor, which when multiplied by the temperature change, gives the amount a material will expand or contract.

  36. Since glasses are quite brittle, they are less likely to break when the temperature changes if they have a relatively low coefficient of expansion.

  37. Borosilicate glasses have higher melting points than soda-lime glasses.

  38. Borosilicate glasses have higher melting points than soda-lime glasses. Soda-lime glasses can be melted using a flame generated from methane and air.

  39. Borosilicate glasses have higher melting points than soda-lime glasses. Soda-lime glasses can be melted using a flame generated from methane and air. It is necessary to use a methane/oxygen flame to work borosilicate glass.

  40. Cements:

  41. Cements: Portland cement is a specifically formulated powder.

  42. Cements: Portland cement is a specifically formulated powder. When mixed with the proper amount of water it first forms a slurry which flows and can be formed.

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