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Chapter 12: Problem 97

Which statement correctly describes a difference between graphene and graphite? (a) Graphene is a molecule but graphite is not. (b) Graphene is a single sheet of carbon atoms and graphite contains many, and larger, sheets of carbon atoms. (c) Graphene is an insulator but graphite is a metal. (d) Graphite is pure carbon but graphene is not. (e) The carbons are \(s p^{2}\) hybridized in graphene but \(s p^{3}\) hybridized in graphite.

Short Answer

Expert verified
(b) Graphene is a single sheet of carbon atoms, and graphite contains many and larger sheets of carbon atoms.

Step by step solution

01

Review of Graphene

Graphene is a single layer of carbon atoms arranged in a two-dimensional honeycomb lattice. Each carbon atom is \(sp^{2}\) hybridized and forms three sigma bonds with its neighboring carbon atoms, leaving one electron in the \(2p_z\) orbital free to move, which provides graphene with its excellent electrical conductivity.
02

Review of Graphite

Graphite is made up of multiple layers of graphene stacked on top of one another. The layers are held together by weak van der Waals forces, which allow them to slide over each other, giving graphite its lubricating properties. Each carbon atom in graphite is also \(sp^{2}\) hybridized, and due to the large number of layers in most graphite samples, it has a larger overall structure than a single layer of graphene. Now let's evaluate each option.
03

Option (a)

Graphene is a molecule but graphite is not. This statement is incorrect because graphene, being an infinitely extending 2D sheet, is not considered a molecule (which typically have a finite number of atoms).
04

Option (b)

Graphene is a single sheet of carbon atoms and graphite contains many, and larger, sheets of carbon atoms. This statement is correct since graphene is a single layer 2D sheet of carbon atoms, while graphite is formed by stacking many graphene sheets.
05

Option (c)

Graphene is an insulator but graphite is a metal. This statement is incorrect. Both graphene and graphite are good electrical conductors due to the delocalized electrons in their \(sp^{2}\) hybridized carbon lattice, so neither of them is an insulator.
06

Option (d)

Graphite is pure carbon but graphene is not. This statement is incorrect because both graphene and graphite are allotropes of carbon, meaning both are composed purely of carbon atoms.
07

Option (e)

The carbons are \(sp^{2}\) hybridized in graphene but \(sp^{3}\) hybridized in graphite. This statement is incorrect, as both graphene and graphite have \(sp^{2}\) hybridized carbon atoms. Therefore, the correct answer is:
08

Answer

(b) Graphene is a single sheet of carbon atoms, and graphite contains many and larger sheets of carbon atoms.

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Most popular questions from this chapter

(a) What is a monomer? (b) Which of these molecules can be used as a monomer: benzene, ethene (also called ethylene), methane?

At room temperature and pressure RbI crystallizes with the NaCl-type structure. (a) Use ionic radii to predict the length of the cubic unit cell edge. (b) Use this value to estimate the density. (c) At high pressure the structure transforms to one with a CsCl-type structure. (c) Use ionic radii to predict the length of the cubic unit cell edge for the highpressure form of RbI. (d) Use this value to estimate the density. How does this density compare with the density you calculated in part (b)?

(a) What are the \(\mathrm{C}-\mathrm{C}-\mathrm{C}\) bond angles in diamond? (b) What are they in graphite (in one sheet)? (c) What atomic orbitals are involved in the stacking of graphite sheets with each other?

Classify each of the following statements as true or false: (a) Although both molecular solids and covalent-network solids have covalent bonds, the melting points of molecular solids are much lower because their covalent bonds are much weaker. (b) Other factors being equal, highly symmetric molecules tend to form solids with higher melting points than asymmetrically shaped molecules.

Amorphous silica, \(\mathrm{SiO}_{2}\), has a density of about \(2.2 \mathrm{~g} / \mathrm{cm}^{3}\), whereas the density of crystalline quartz, another form of \(\mathrm{SiO}_{2}\), is \(2.65 \mathrm{~g} / \mathrm{cm}^{3}\). Which of the following statements is the best explanation for the difference in density? (a) Amorphous silica is a network-covalent solid, but quartz is metallic. (b) Amorphous silica crystallizes in a primitive cubic lattice. (c) Quartz is harder than amorphous silica. (d) Quartz must have a larger unit cell than amorphous silica. (e) The atoms in amorphous silica do not pack as efficiently in three dimensions as compared to the atoms in quartz
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