12.1 Electrochemical Cells

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Differences and similarities between galvanic and electrolytic cells

KEY CONCEPT In a galvanic cell, the anode is negative and the cathode is positive. In an electrolytic cell, the anode is positive and the cathode is negative. This is because an external source is used to reverse the charge of an electrolytic cell. However, in both types of cells, reduction occurs at the cathode, and oxidation occurs at the anode; cations are attracted to the cathode, and anions are attracted to the anode.

What is an electrochemical cells and what are the three types of electrochemical cells? And what type of commercial cells can be sued to understand the fundamental models

Electrochemical cells are contained systems in which Oxidation-Reduction reactions occur. There are three fundamental types of electrochemical cells: galvanic cells (also known as voltaic cells), electrolytic cells, and concentration cells. In addition, there are specific commercial cells such as Ni-Cd batteries through which we can understand these fundamental models

Review important concepts of electrode designations. Why is the galvanic cell anode negative?

Electrode Charge Designations In a galvanic cell, current is spontaneously generated as electrons are released by the oxidized species at the anode and travel through the conductive material to the cathode, where reduction takes place. Because the anode of a galvanic cell is the source of electrons, it is considered the negative electrode; the cathode is considered the positive electrode, as shown in Figure 12.1 previously

Recall the flow of current and the flow of electrons in terms of electrical potential energy.

Electrons, therefore, move from negative (low electrical potential) to positive (high electrical potential), while the current—the flow of positive charge—is from positive (high electrical potential) to negative (low electrical potential).

Explain the electrodeposition equation?

KEY CONCEPT One faraday (F) is equivalent to the amount of charge contained in one mole of electrons (1 F = 96,485 C). The electrodeposition equation summarizes this process and helps determine the number of moles of element being deposited on a plate: Equation 12.2 where mol M is the amount of metal ion being deposited at a specific electrode, I is current, t is time, n is the number of electron equivalents for a specific metal ion, and F is the Faraday constant. This equation can also be used to determine the amount of gas liberated during electrolysis.

Give an example of an electrolytic cell within a biological system.

In a biological system, a concentration cell is best represented by the cell membrane of a neuron, as shown in Figure 12.3. Sodium and potassium cations, and chlorine anions, are exchanged as needed to produce an electrical potential. The actual value depends on both the concentrations and charges of the ions. In this way, a resting membrane potential (Vm) can be maintained. Disturbances of the resting membrane potential, if sufficiently large, may stimulate the firing of an action potential BRIDGE The maintenance of a resting membrane potential is discussed in Chapter 8 of MCAT Biochemistry Review. The conduction of an action potential is discussed in Chapter 4 of MCAT Biology Review. The transfer of ions and electrons during an action potential produces biochemical work

Which way do electrons ALWAYS flow in electrochemical cells

In spite of this difference in designating charge (sign), oxidation always takes place at the anode and reduction always takes place at the cathode in both types of cells; electrons always flow through the wire from the anode to the cathode and current flows from cathode to anode. Finally, note that—regardless of its charge designation—the cathode always attracts cations and the anode always attracts anions

Explain what is happening to the zinc anode and the copper cathode

In the Daniell cell, a zinc electrode is placed in an aqueous ZnSO4 solution, and a copper electrode is placed in an aqueous CuSO4 solution. The anode of this cell is the zinc bar where Zn (s) is oxidized to Zn2+ (aq). The cathode is the copper bar, and it is the site of the reduction of Cu2+ (aq) to Cu (s). The half-cell reactions are written as follows:

Explain again what is happening in the Daniel cell example

In the Daniell cell, for example, the electrons created at the anode by the oxidation of elemental zinc travel through the wire to the copper half-cell. There, they attract copper(II) cations to the cathode, resulting in the reduction of the copper ions to elemental copper, and drawing cations out of the salt bridge into the compartment

Why does the example of the electrolytic cell does not need to be separated into components?

In this example, Na+ ions migrate toward the cathode, where they are reduced to Na (l). At the same time, Cl- ions migrate toward the anode, where they are oxidized to Cl2 (g). Notice that the half-reactions do not need to be separated into different compartments; this is because the desired reaction is nonspontaneous. Note that sodium is a liquid at the temperature of molten NaCl; it is also less dense than the molten salt and, thus, is easily removed as it floats to the top of the reaction vessel

There are certain commercial cells that can be used to explain the fundamental models of electrochemical cells explain in detail. What is a rechargeable cell and give an example using a Lead Acid Battery

Rechargeable Cells A rechargeable cell or rechargeable battery is one that can function as both a galvanic and electrolytic cell. Lead-Acid Batteries A lead-acid battery, also known as a lead storage battery, is a specific type of rechargeable battery. As a voltaic cell, when fully charged, it consists of two half-cells—a Pb anode and a porous PbO2 cathode, connected by a conductive material (concentrated 4 M H2SO4). When fully discharged, it consists of two PbSO4 electroplated lead electrodes with a dilute concentration of H2SO4, as shown in Figure 12.4.

What is spontaneity induced by?

Remember that spontaneity is indicated by the change in Gibbs free energy, ΔG

What type of solution is connecting each of the electrodes and what is special about the identity of the cations?

Surrounding each of the electrodes is an aqueous electrolyte solution composed of cations and anions. As shown in the Daniell cell illustrated in Figure 12.1, the cations in the two half-cell solutions can be of the same element as the respective metal electrode.

Explain a bit more about the Lead IV oxide cathode

The lead(IV) oxide cathode is a bit more complicated. This electrode is porous, which allows the electrolyte (sulfuric acid) to solvate the cathode into lead and oxide ions. Then, the hydrogen ions in solution react with the oxide ions to produce water, and the remaining sulfate ions react with the lead to produce the electroplated lead sulfate

What is the significance of separating the two electrodes explain in detail. And what would happen if only a copper wire were provided for the electron flow?

The net reaction is We will discuss the calculation of cell potential in the next section. For now, appreciate that the calculation can be accomplished by knowing each half-reaction. If the two half-cells were not separated, the Cu2+ ions would react directly with the zinc bar, and no useful electrical work would be done. Because the solutions and electrodes are physically separated, they must be connected by a conductive material to complete the circuit. However, if only a wire were provided for this electron flow, the reaction would soon stop because an excess positive charge would build up on the anode, and an excess negative charge would build up on the cathode. Eventually, the excessive charge accumulation would provide a countervoltage large enough to prevent the Oxidation-Reduction reaction from taking place, and the current would cease

So in regards to the flow of current vs. the flow of electrons which way are they moving in relation to eachtoher through an electrochemical cell?

KEY CONCEPT Electrons move through an electrochemical cell opposite to the flow of current (I).

How can we determine the number of moles exchanged?

. In general, for a reaction that involves the transfer of n electrons per atom M: Mn+ + n e- → M (s) KEY CONCEPT Faraday's laws state that the liberation of gas and deposition of elements on electrodes is directly proportional to the number of electrons being transferred during the Oxidation-Reduction reaction. Here, normality or gram equivalent weight is used. These observations are proxy measurements of the amount of current flowing in a circuit. According to this equation, one mole of metal M (s) will logically be produced if n moles of electrons are supplied to one mole of Mn+. Additionally, the number of moles of electrons needed to produce a certain amount of M (s) can now be related to the measurable electrical property of charge

Instead of NiCd what is now used in batteries as an alternative?

. It is important to note that modern Ni-Cd batteries have largely been replaced by more efficient nickel-metal hydride (NiMH) batteries. These newer batteries have more energy density, are more cost effective, and are significantly less toxic. As the name suggests, in lieu of a pure metal anode, a metal hydride is used instead.

What is faraday's constant?

. One electron carries a charge of 1.6 × 10-19 coulombs (C). The charge carried by one mole of electrons can be calculated by multiplying this number by Avogadro's number, as follows: This number is called the Faraday constant, and one faraday (F) is equivalent to the amount of charge contained in one mole of electrons (1 F = 96,485 C) or one equivalent. On the MCAT, you should round up this number to to make calculations more manageable.

What is another descriptor of electrochemical cells and what does it mean if the emf is positive and what does it mean if the emf is negative?

. Other descriptors of electrochemical cells include the electromotive force (emf), which corresponds to the voltage or electrical potential difference of the cell. If the emf is positive, the cell is able to release energy (ΔG < 0), which means it is spontaneous. If the emf is negative, the cell must absorb energy (ΔG > 0), which means it is nonspontaneous

And why is the cathode considered negative within an electrolytic cell?

. The cathode of an electrolytic cell is considered negative because it is attached to the negative pole of the external voltage source and attracts cations from the solution.

What is the difference between concentration cells and galvanic/voltaic cells?

. The distinguishing characteristic of a concentration cell is in its design: the electrodes are chemically identical. For example, if both electrodes are copper metal, they have the same reduction potential. Therefore, current is generated as a function of a concentration gradient established between the two solutions surrounding the electrodes.

What are surge currents and why would we expect Ni-Cd batteries to have higher surge currents?

. The electrochemistry of the Ni-Cd half-reactions also tends to provide higher surge current. Surge currents are periods of large current (amperage) early in the discharge cycle This is preferable in appliances such as remote controls that demand rapid responses

Explain how to do a cell diagram and give an example using the galvanic/ voltaic Daniel cell.

A cell diagram is a shorthand notation representing the reactions in an electrochemical cell. A cell diagram for the Daniell cell is as follows: Zn (s) | Zn2+ (1 M) || Cu2+ (1 M) | Cu (s) The following rules are used in constructing a cell diagram: The reactants and products are always listed from left to right in this form: anode | anode solution (concentration) || cathode solution (concentration) | cathode A single vertical line indicates a phase boundary. A double vertical line indicates the presence of a salt bridge or some other type of barrier.

What are electrodes and for electrochemical cells where does oxidation occur and where does reduction occur?

All three types contain electrodes where oxidation and reduction take place. For all electrochemical cells, the electrode where oxidation occurs is called the anode, and the electrode where reduction occurs is called the cathode

What are electrolytic cells and how are they similar to concentration cells?

All types of electrochemical cells have a reduction reaction occurring at the cathode, an oxidation reaction occurring at the anode, a current flowing from cathode to anode, and electron flow from anode to cathode

Which has a highe energy density than lead acid batteries?

As in our previous example, charging reverses the electrolytic cell potentials. Some Ni-Cd designs are vented for this reason to allow for the release of built-up hydrogen and oxygen gas during electrolysis. Ni-Cd batteries have a higher energy density than lead-acid batteries

What two important things to make note of accounts for the relatively short lifespan of the cell?

As mentioned earlier, the anions (Cl-) flow externally from the salt bridge into the ZnSO4, and the cations (K+) flow externally from the salt bridge into the CuSO4. This flow depletes the salt bridge and, along with the finite quantity of Cu2+ in the solution, accounts for the relatively short lifespan of the cell.

What then occurs as the spontaneous reaction proceeds towards equilibrium? What will the movement of electrons result in the conversion of?

As the spontaneous reaction proceeds toward equilibrium, the movement of electrons results in a conversion of electrical potential energy into kinetic energy. By separating the reduction and oxidation half-reactions into two compartments, we are able to harness this energy and use it to do work by connecting various electrical devices into the circuit between the two electrodes.

In the example of the lead acid battery what is being diluted and what is being plated on the cathode?

Both half-reactions cause the electrodes to plate with lead sulfate (PbSO4) and dilute the acid electrolyte when discharging

In the aforementioned galvanic cell if the Gibbs free energy is decreasing what does that mean regarding the electromotive force?

By extension, if the free energy change is negative for these cells, their electromotive force (Ecell) must be positive; the free energy change and electromotive force always have opposite signs.

Explain what the half reaction would be for the oxidation of the half reaction at the lead negative anode.

Figure 12.4. Lead-Acid Battery When charged (a), the cell contains a Pb anode and PbO2 cathode; when discharged (b), both electrodes are coated with lead sulfate. The oxidation half-reaction at the lead (negative) anode is:

How are concentration cells similar to galvanic/voltaic cells?

Concentration Cells A concentration cell is a special type of galvanic cell. Like all galvanic cells, it contains two half-cells connected by a conductive material, allowing a spontaneous Oxidation-Reduction reaction to proceed, which generates a current and delivers energy

What is the structure connecting the two solutions and then what occurs when there is a conductive material present connecting the two electrodes?

Connecting the two solutions is a structure called a salt bridge, which consists of an inert salt. When the electrodes are connected to each other by a conductive material, charge will begin to flow as the result of an Oxidation-Reduction reaction that is taking place between the two half-cells. The redox reaction in a galvanic cell is spontaneous, and therefore the change in Gibbs free energy for the reaction is negative (ΔG < 0)

What device can be used to measure the electromotive force ( which corresponds to the voltage OR electrochemical energy)

During the course of the reaction, electrons flow from the zinc anode through the wire and to the copper cathode. A voltmeter can be connected to measure this electromotive force

Explain what is occurring in the example of the electrolytic cell of molten NaCl.

Figure 12.2. Electrolysis of Molten NaCl KEY CONCEPT Because electrolysis is nonspontaneous, the electrode (anode or cathode) can consist of any material so long as it can resist the high temperatures and corrosion of the process. In this electrolytic cell, molten NaCl is decomposed into Cl2 (g) and Na (l). The external voltage source—a battery—supplies energy sufficient to drive the Oxidation-Reduction reaction in the direction that is thermodynamically unfavorable (nonspontaneous).

What is the lead anode attracting?

The lead anode is negatively charged and attracts the anionic bisulfate.

What can electrolytic cells be used to drive?

For example, electrolytic cells can be used to drive the nonspontaneous decomposition of water into oxygen and hydrogen gas. Another example, the electrolysis of molten NaCl, is illustrated in Figure 12.2.

What is the movement for current vs. the movement of electrons in an electrochemical cell?

Furthermore, we can also state that, for all electrochemical cells, the movement of electrons is from anode to cathode, and the current (I) runs from cathode to anode. This point can be a point of confusion among students. In physics, it is typical to state that current is the direction of flow of a positive charge through a circuit; this model was first proposed by Ben Franklin and continues to be used among physicists. Modern chemists are interested in the flow of electrons, but may discuss the current (a theoretical flow of positive charge) as a proxy for the flow of electrons; the current and the flow of electrons are always of equal magnitude but in opposite directions

What type of electrochemical cells are in a ll of the non chargeable batteries? AND what type of reaction is occuring in terms of delta G?

Galvanic (Voltaic) Cells All of the nonrechargeable batteries you own are galvanic cells, also called voltaic cells. Accordingly, because household batteries are used to supply energy to a flashlight or remote control, the reactions in these cells must be spontaneous. This means that the reaction's free energy is decreasing (ΔG < 0) as the cell releases energy to the environment

Which are spontaneous and which are non spontaneous of the three electrochemical cells?

Galvanic cells and concentration cells house spontaneous reactions, whereas electrolytic cells contain nonspontaneous reactions

WHAT is different between electrolytic cells and galvanic cells?

However, electrolytic cells, in almost all of their characteristics and behavior, are otherwise the opposite of galvanic cells. Whereas galvanic cells house spontaneous Oxidation-Reduction reactions that generate electrical energy, electrolytic cells house nonspontaneous reactions that require the input of energy to proceed. Therefore, the change in free energy for an electrolytic cell is positive

How do temperature changes also affect batteries? Give an example using a lead acid battery?

Last, it is important to note that all batteries are influenced by temperature changes. For instance, lead-acid batteries in cars, like most galvanic cells, tend to fail most in cold weather. The thermodynamic reasons behind this will be discussed later in this chapter.

What is energy density and how s it in a lead acid battery?

Lead-acid batteries, as compared to other cells, have some of the lowest energy-to-weight ratios (otherwise known as energy density). Energy density is a measure of a battery's ability to produce power as a function of its weight. Lead-acid batteries, therefore, require a heavier amount of battery material to produce a certain output as compared to other batteries

Explain the structure of the voltaic cells in terms of the two electrodes and etc.

Let's examine the inner workings of a galvanic (voltaic) cell. Two electrodes of distinct chemical identity are placed in separate compartments, which are called half-cells. The two electrodes are connected to each other by a conductive material, such as a copper wire. Along the wire, there may be other various components of a circuit, such as resistors or capacitors, but for now, we'll focus on the battery itself

Mnemonic for reduction at the cathode and oxidation at the anode.

MNEMONIC Electrodes in an electrochemical cell: AN OX and a RED CAT The anode is the site of oxidation; reduction occurs at the cathode.

Explain the flow of electrons from

MNEMONIC Electron flow in an electrochemical cell: A → C (order in the alphabet) Electrons flow from anode to cathode in all types of electrochemical cells.

Why is the anode considered positive within an electrolytic cell>?

MNEMONIC In a galvanic cell, the anode is negative. Conversely, the anode of an electrolytic cell is considered positive because it is attached to the positive pole of the external voltage source and attracts anions from the solution

What is the importance of Faraday in terms of figuring out the amount of chemical change induced in an electrolytic cell and what it corresponds to?

Michael Faraday was the first to define certain quantitative principles governing the behavior of electrolytic cells. He theorized that the amount of chemical change induced in an electrolytic cell is directly proportional to the number of moles of electrons that are exchanged during the Oxidation-Reduction reaction. The number of moles exchanged can be determined from the balanced half-reaction

Explain the nickel cadmium batteries?

Nickel-Cadmium Batteries Nickel-cadmium batteries are also rechargeable cells. They consist of two half-cells made of solid cadmium (the anode) and nickel(III) oxide-hydroxide (the cathode) connected by a conductive material, typically potassium hydroxide (KOH). Most of us are familiar with AA and AAA cells made of Ni-Cd materials, inside of which the electrodes are layered and wrapped around in a cylinder, as shown in Figure 12.5.

In the Daniel cell example what is happening at the anode?

The anode, having lost electrons, attracts anions from the salt bridge at the same time that zinc(II) ions formed by the oxidation process dissolve away from the anode.

If the concentration gradient results in a potential difference between the two compartments and drives the movement of electrons in the direction that results in equilibrium of the ion gradient what will happen to the current?

The concentration gradient results in a potential difference between the two compartments and drives the movement of electrons in the direction that results in equilibration of the ion gradient. The current will stop when the concentrations of ionic species in the half-cells are equal. This implies that the voltage (V) or electromotive force of a concentration cell is zero when the concentrations are equal; the voltage, as a function of concentrations, can be calculated using the Nernst equation.

Why would a company need to obtain pure sodium?

This cell is used in industry as the major means of sodium and chlorine production. You may wonder why one would do so much work to obtain pure sodium and chlorine. Remember that these elements are never found naturally in their elemental form because they are so reactive. Thus, to use elemental sodium or chlorine gas in a reaction, it must be manufactured through processes such as these

How is the charge gradient dissipated so that there wont be a build up of excess positive charge at the anode and excess negative charge on the cathode ?

This charge gradient is dissipated by the presence of a salt bridge, which permits the exchange of cations and anions. The salt bridge contains an inert electrolyte, usually KCl or NH4NO3, which contains ions that will not react with the electrodes or with the ions in solution KEY CONCEPT The purpose of the salt bridge is to exchange anions and cations to balance, or dissipate, newly generated charges.

Tie the concept of electrochemistry in with the concepts we learned about isoelectric focusing and isoelectric points

This is an important rule to understand not only for electrochemistry in the Chemical and Physical Foundations of Biological Systems section on Test Day, but also for electrophoresis in both this section and Biological and Biochemical Foundations of Living Systems. Isoelectric focusing is a technique used to separate amino acids or polypeptides based on their isoelectric points (pI). The positively charged amino acids (protonated at the solution's pH) will migrate toward the cathode; negatively charged amino acids (deprotonated at the solution's pH) will migrate toward the anode. The technique of isoelectric focusing is discussed in detail in Chapter 3 of MCAT Biochemistry Review

What is plating or galvanization?

This precipitation process onto the cathode itself can also be called plating or galvanization

Therefore, this type of oxidation reduction Rxn driven by an external voltage source is called what? And what is happening to chemical compounds in this rxn?

This type of Oxidation-Reduction reaction driven by an external voltage source is called electrolysis, in which chemical compounds are decomposed

We talked about the galvanic portion of a lead acid battery now discuss the electrolytic portion of said battery

When charging, the lead-acid cell is part of an electrolytic circuit. These equations and electrode charge designations are the opposite because an external source reverses the electroplating process and concentrates the acid solution—this external source is very evident when one uses jumper cables to restart a car. So in galvanic the acid is being depleted and in electrolytic cells the acid is being concentrated .

In the aforementioned Daniel cell example if the salt bridge were made of KCL where are the chloride ions traveling to and why and then where are the potassium ions traveling and why?

While the anions from the salt bridge (Cl-) diffuse into the solution on the anode side (ZnSO4) to balance out the charge of the newly created Zn2+ ions, the cations of the salt bridge (K+) flow into the solution on the cathode side (CuSO4) to balance out the charge of the sulfate ions left in solution when the Cu2+ ions are reduced to Cu and precipitate onto the electrode


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