The compound H3N*BH3 is an adduct of NH3 and BH3. It is currently being investigated as a...

The compound H3N*BH3 is an adduct of NH3 and BH3. It is currently being investigated as a possible hydrogen storage material,

(a) What is the hydrogen storage capacity (percentage by weight) of H3N-BH3?

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(b)     Using the VSEPR model, draw structures for BH3, NH3 and H3NBH3.

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(c) Figure 5.36 shows how the orbital energies of a D3U XY3 molecule alter as the molecular geometry changes. This type of diagram is called a Walsh diagram. Why are the orbital symmetry labels different at the two sides of the diagram?

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(d) Which of the orbitals in Fig. 5.36 represent the HOMO and LUMO of BH3 and NH3?

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(e) Sketch representations of the MOs to which the orbital symmetry labels in Fig. 5.36 refer,

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(f) Suggest how BH3 and NH3 interact to form H3N-BH3. What type of N-B bond is present?

Fig. 5.36 Changes in orbital energies on going from D3h to C3v XY3 as the Y atoms are moved out of the plane into a pyramidal arrangement.