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reducing agent

 
Dictionary: re·duc·ing agent   (rĭ-dū'sĭng, -dyū'-)
 
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n.

A substance that chemically reduces other substances, especially by donating an electron or electrons.


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Dental Dictionary: reducing agent
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A category of chemicals used in film processing which brings out the gray tones of an image by creating black metallic silver from silver halide crystals.

 
Medical Dictionary: reducing agent
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n.

A substance that chemically reduces other substances, especially by donating an electron or electrons.

 
WordNet: reducing agent
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Note: click on a word meaning below to see its connections and related words.

The noun has one meaning:

Meaning #1: a substance capable of bringing about the reduction of another substance as it itself is oxidized; used in photography to lessen the density of a negative or print by oxidizing some of the slackened silver
  Synonyms: reducer, reductant

 
Wikipedia: Reducing agent
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A reducing agent (also called a reductant or reducer) is the element or compound in a redox (reduction-oxidation) reaction (see electrochemistry) that reduces another species. In doing so, it becomes oxidized, and is therefore the electron donor in the redox. For example consider the following reaction:

[Fe(CN)6]4- + 1/2 Cl2 → [Fe(CN)6]3- + Cl-

The reducing agent in this reaction is ferrocyanide: it donates an electron, converting to ferricyanide, simultaneous with the reduction of chlorine to chloride.

In organic chemistry, reduction more specifically refers to the addition of hydrogen to a molecule, though the aforementioned definition still applies. For example, benzene is reduced to cyclohexane in the presence of a platinum catalyst:

C6H6 + 3 H2 → C6H12

In organic chemistry, good reducing agents are reagents that deliver H2.

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What makes a strong reducing agent?

Strong reducing agents easily lose (or donate) electrons. An atom with a relatively large atomic radius tend to be a better reductant. In such species, the distance from the nucleus to the valence electrons is so long that these electrons are not strongly attracted. These elements tend to be strong reducing agents. Good reducing agents tend to consist of atoms with a low electronegativity, the ability of an atom or molecule to attract bonding electrons1, and relatively small ionization energies serve as good reducing agents too. "The measure of a material to oxidize or lose electrons is known as its oxidation potential"2. The table below shows a few reduction potentials that could easily be changed to oxidation potential by simply changing the sign. Reducing agents can be ranked by increasing strength by ranking their oxidation potentials. The reducing agent will be the strongest when it has a more positive oxidation potential and will be a weak reducing agent whenever it has a negative oxidation potential. The following table provides the reduction potentials of the indicated reducing agent at 25° C. Also remember the useful mnemonic devices, "OIL RIG," which means Oxidation Is Loss (of electrons) and Reduction Is Gain (of electrons), or "LEO the lion says GER," which means Loss of Electrons is Oxidation and Gain of Electrons is Reduction.

Oxidizing Agent Reducing Agent Reduction Potential (v)
Li+ + e- = Li -3.04
Na+ + e- = Na -2.71
Mg2+ + 2e- = Mg -2.38
Al3+ + 3e- = Al -1.66
2H2O(l) + 2e- = H2(g) + 2OH - -0.83
Cr3+ + 3e- = Cr -0.74
Fe2+ + 2e- = Fe -0.41
2H+ + e- = H2 0.00
Sn4+ + 2e- = Sn2+ +0.15
Cu2+ + e- = Cu+ +0.16
Ag+ + e- = Ag +0.80
Br2 + 2e- = 2Br- +1.07
Cl2 + 2e- = 2Cl- +1.36
MnO42- + 8H+ + 5e- = Mn2+ + 4H2O +1.49

In order to tell which is the strongest reducing agent, change the sign of its respective reduction potential in order to make it oxidation potential. The bigger the number the stronger a reducing agent it is.

For example if one were to list Cu, Cl-, Na and Cr in order, one would get their reduction potential, change the sign to make it oxidation potential and list them from greatest to least. One will get Na, Cr, Cu and Cl-; Na being the strongest reducing agent and Cl- being the weakest one.

A few good common reducing agents include active metals such as potassium, calcium, barium, sodium and magnesium and also, compounds that contain the H- ion, those being NaH, LiAlH4 and CaH2.

Also, some elements and compounds can be both reducing or oxidizing agents. Hydrogen gas is a reducing agent when it reacts with non-metals and an oxidizing agent when it reacts with metals.

2Li(s) + H2(g) -->2LiH(s) hydrogen acts as an oxidizing agent because it accepts an electron donation from lithium, which causes Li to be oxidized.

Half Reactions 2Li(s)0 -->2Li(s)+1 + 2e-::::: H20(g) + 2e- --> 2H-1(g)

H2(g) + F2(g) --> 2HF(g) hydrogen acts as a reducing agent because it donates its electrons to fluorine, which allows fluorine to be reduced.

Half Reactions H20(g) --> 2H+1(g) + 2e-::::: F20(g) + 2e- --> 2F-1(g)

Importance of reducing and oxidizing agents

Reducing agents and oxidizing agents are the ones responsible for corrosion, which is the “degradation of metals as a result of electrochemical activity”3. Corrosion requires an anode and cathode to take place. The anode is an element that loses electrons (reducing agent), thus oxidation always occurs in the anode, and the cathode is an element that gains electrons (oxidizing agent), thus reduction always occurs in the cathode. Corrosion occurs whenever there’s a difference in oxidation potential. When this is present, the anode metal will begin deteriorating given that there is an electrical connection and the presence of an electrolyte.

Example of redox reaction

The formation of iron(III) oxide;

4Fe + 3O2 → 2Fe2O3

In the above equation, the Iron (Fe) has an oxidation number of 0 before and 3+ after the reaction. For oxygen (O) the oxidation number began as 0 and decreased to 2−. These changes can be viewed as two "half-reactions" that occur concurrently:

  1. Oxidation Half Reaction: Fe0 → Fe3+ + 3e
  2. Reduction Half Reaction: O2 + 4e → 2 O2−

Iron III (Fe) has been oxidized because the oxidation number increased and is the reducing agent because it gave electrons to the oxygen (O). Oxygen (O) has been reduced because the oxidation number has decreased and is the oxidizing agent because it took electrons from iron (Fe)

Common reducing agents

Common reducing agents and their products

Agent Product
H2 Hydrogen H+, H2O
metals metal ions
C CO2 carbon dioxide
hydrocarbons CO2 carbon dioxide, H2O

See also

References

External links


This entry is from Wikipedia, the leading user-contributed encyclopedia. It may not have been reviewed by professional editors (see full disclaimer)

 
 

 

Copyrights:

Dictionary. The American Heritage® Dictionary of the English Language, Fourth Edition Copyright © 2007, 2000 by Houghton Mifflin Company. Updated in 2007. Published by Houghton Mifflin Company. All rights reserved.  Read more
Dental Dictionary. Mosby's Dental Dictionary. Copyright © 2004 by Elsevier, Inc. All rights reserved.  Read more
Medical Dictionary. The American Heritage® Stedman's Medical Dictionary Copyright © 2002, 2001, 1995 by Houghton Mifflin Company Read more
WordNet. WordNet 1.7.1 Copyright © 2001 by Princeton University. All rights reserved.  Read more
Wikipedia. This article is licensed under the GNU Free Documentation License. It uses material from the Wikipedia article "Reducing agent" Read more

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