孤立電子対、非共有電子対

関: lone pair、unshared electron pair

WordNet

form a pair or pairs; "The two old friends paired off" (同)pair off, partner off, couple
a set of two similar things considered as a unit (同)brace
a poker hand with 2 cards of the same value
two people considered as a unit
arrange in pairs; "Pair these numbers" (同)geminate
occur in pairs (同)geminate
being the only one; single and isolated from others; "the lone doctor in the entire county"; "a lonesome pine"; "an only child"; "the sole heir"; "the sole example"; "a solitary instance of cowardice"; "a solitary speck in the sky" (同)lonesome, only, sole, solitary
characterized by or preferring solitude; "a lone wolf"; "a lonely existence"; "a man of a solitary disposition"; "a solitary walk" (同)lonely, solitary
an elementary particle with negative charge (同)negatron
the act of grouping things or people in pairs
mated sexually

PrepTutorEJDIC

(二つで一つに用いられる物の)『組』,『対』《+『of』+『名』》 / (対になる部分からなる物の)『1個』《+『of』+『名』》 / 《集合的に》《複数扱い》夫婦,婚約中の男女;(動物の)つがい《+『of』+『名』》 / 《集合的に》《複数扱い》(同種または何かの関係のある物の)二人(二つ,2頭など)の組《+『of』+『名』》 / …‘を'二人(2個)ずつ組にする《+『名』+『off』(『up』),+『off』(『up』)+『名』》,(…と)…‘を'組にする《+『名』+『with』+『名』》 / (…と)…‘を'結婚させる《+『名』+[『up』]『with』+『名』》 / 二人(2個)ずつ組になる《+『off』(『up』)》
《名詞の前にのみ用いて》 / (人が)『孤独の』,ひとりの / (物が)孤立した / ただ一つの
『電子』,エレクトロン

Wikipedia preview

出典(authority):フリー百科事典『ウィキペディア（Wikipedia）』「2012/04/05 19:13:07」(JST)

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[Wiki en表示]

Lone pairs in hydroxide (shown as dots)

In chemistry, a lone pair is a valence electron pair without bonding or sharing with other atoms. They are found in the outermost electron shell of an atom, so lone pairs are a subset of a molecule's valence electrons. They can be identified by examining the outermost energy level of an atom—lone electron pairs consist of paired electrons as opposed to single electrons, which may appear if the atomic orbital is not full. Electron pairs are therefore considered lone pairs if two electrons are paired but are not used in chemical bonding. Thus, the number of lone electrons plus the number of bonding electrons equal the total number of valence electrons in a compound.

Examples

Lone pairs in ammonia (A), water (B) and hydrochloric acid (C)

A single lone pair can be found with atoms in the nitrogen group such as nitrogen in ammonia, two lone pairs can be found with atoms in the chalcogen group such as oxygen in water and the halogens can carry three lone pairs such as in hydrochloric acid.

In simple valence bond theory the oxygen atom in water is sp³ hybridized with the lone pairs in equal sp³ orbitals. The H–O–H bond angle is with 104.5°, less than the 109° predicted for a tetrahedral angle, and this can be explained by a repulsive interaction between the lone pairs ^[1]^[2]^[3]

Angle changes

The pairs often exhibit a negative polar character with their high charge density and are located closer to the atomic nucleus on average compared to the bonding pair of electrons. The presence of a lone pair decreases the bond angle between the bonding pair of electrons, due to their high electric charge which causes great repulsion between the electrons. They are also used in the formation of a dative bond. For example, the creation of the hydronium (H₃O⁺) ion occurs when acids are dissolved in water and is due to the oxygen atom donating a lone pair to the hydrogen ion.

This can be seen more clearly when looked at in two more common molecules. For example, in carbon dioxide (CO₂), the oxygen atoms are on opposite sides of the carbon, whereas in water (H₂O) there is an angle between the hydrogen atoms of 104.5^o. Due to the repulsive force of the oxygen atom's lone pairs, the hydrogens are pushed further away, to a point where the forces of all electrons on the hydrogen atom are in equilibrium. This is an illustration of the VSEPR theory.

Unusual lone pairs

A stereochemically active lone pair is also expected for divalent lead and tin ions due to their formal electronic configuration of ns². In the solid state this results in the distorted metal coordination observed in the litharge structure adopted by both PbO and SnO. The formation of these heavy metal ns² lone pairs which was previously attributed to intra-atomic hybridization of the metal s and p states^[4] has recently been shown to have a strong anion dependence.^[5] This dependence on the electronic states of the anion can explain why some divalent lead and tin materials such as PbS and SnTe show no stereochemical evidence of the lone pair and adopt the symmetric rocksalt crystal structure^[6]^,.^[7]

In molecular systems the lone pair can also result in a distortion in the coordination of ligands around the metal ion. The lead lone pair effect can be observed in supramolecular complexes of Lead(II) nitrate and in 2007 a study ^[8] linked the lone pair to lead poisoning. Lead ions in the human metabolism replace native metallic ions in several key proteins, for example: zinc cations in the ALAD protein, which is also known as Porphobilinogen synthase. This seems to be the molecular basis of "lead poisoning", or "saturnism" ("plumbism"). Computational experiments reveal that although the coordination number does not change upon substitution in calcium-binding proteins, the introduction of lead distorts the way the ligands organize themselves to accommodate such an emerging lone pair: consequently, these proteins are perturbed. This lone-pair effect becomes dramatic for zinc-binding proteins, such as the above-mentioned porphobilinogen synthase, as the natural substrate cannot bind anymore: in those cases the protein is inhibited.

Group 14 lone pairs manifest themselves in triple bonds as well. The familiar alkynes have bond order 3 with 180° bond angles (A) but going down the row germanium to germanium formal triple bonds have an effective bond order 2 with one lone pair (B) and trans-bent geometries. In lead the bond order is even 1 with lone pairs for each lead atom (C). In the organogermanium compound D, the bond order is also 1 with complexation of the acidic isonitrile groups based on interaction with germaniums empty 4p orbital ^[9]

References

^ Organic Chemistry Marye Anne Fox , James K. Whitesell 2nd Edition 2001
^ Organic chemistry John McMurry 5th edition 2000
^ Concise Inorganic Chemistry J.D. Lee 4th Edition 1991
^ Stereochemistry of Ionic Solids J.D.Dunitz and L.E.Orgel, Advan. Inorg. and Radiochem. 1960, 2, 1–60
^ Electronic origins of structural distortions in post-transition metal oxides: experimental and theoretical evidence for a revision of the lone pair model D.J.Payne, R.G.Egdell, A.Walsh, G.W.Watson, J.Guo, P.-A.Glans, T.Learmonth and K.E.Smith, Phys. Rev. Lett. 2006, 96, 157403 doi:10.1103/PhysRevLett.96.157403
^ The origin of the stereochemically active Pb(II) lone pair: DFT calculations on PbO and PbS A.Walsh and G.W.Watson, J. Sol. Stat. Chem. 2005, 178, 5 doi:10.1016/j.jssc.2005.01.030
^ Influence of the Anion on Lone Pair Formation in Sn(II) Monochalcogenides: A DFT Study A.Walsh and G.W.Watson, J. Phys. Chem. B 2005, 109, 18868 doi:10.1021/jp051822r
^ Is an Electronic Shield at the Molecular Origin of Lead Poisoning? A Computational Modeling Experiment C.Gourlaouen and O.Parisel Angew. Chem. Int. Ed. 2007, 46, 553 –556 doi:10.1002/anie.200603037
^ Lewis base induced tuning of the Ge–Ge bond order in a digermyne G.H.Spikes and P.P.Power Chem. Commun., 2007, 85–87, doi:10.1039/b612202g

UpToDate Contents

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English Journal

The synthesis and structure of a carbene-stabilized iminocarboranyl-boron(i) compound.

Wang H1, Zhang J, Lin Z, Xie Z.
Chemical communications (Cambridge, England).Chem Commun (Camb).2015 Dec 7;51(94):16817-20. doi: 10.1039/c5cc06818e. Epub 2015 Oct 5.
A carbene-stabilized iminocarboranylboron(i) compound has been synthesized and structurally characterized. Single-crystal X-ray analyses and DFT calculations show that the π back donation of the lone pair of electrons on the boron(i) center onto the π* orbital of the imine unit is crucial for remo
PMID 26434636

Density functional theory (DFT) investigations on doped fullerene with heteroatom substitution.

Dheivamalar S1, Sugi L2.
Spectrochimica acta. Part A, Molecular and biomolecular spectroscopy.Spectrochim Acta A Mol Biomol Spectrosc.2015 Dec 5;151:687-95. doi: 10.1016/j.saa.2015.05.102. Epub 2015 Jun 26.
Structures and stabilities of dodecahedral fullerene C19X (X=Ni, Ti) and C20 have been investigated by quantum chemical calculations based on density functional theory. The geometrical structures, relative stabilities, dielectric constant of the doped cages were studied systematically and compared w
PMID 26163793

Exploring the Role of Substitution on the Formation of Se···O/N Noncovalent Bonds.

Shukla R1, Chopra D1.
The journal of physical chemistry. B.J Phys Chem B.2015 Nov 25;119(47):14857-70. doi: 10.1021/acs.jpcb.5b08684. Epub 2015 Nov 11.
In this article, we have examined the effect of substitution on the formation of neutral XHSe···O/N (X = -H, -F, -CH3, -CF3, -Cl, -OH, -OCH3, -NH2, -NHCH3, -CN) noncovalent bonds with the oxygen atom from H2O molecule and the nitrogen atom from NH3 being the electron donor atoms, respectively. In
PMID 26529284

Japanese Journal

Solvent Effect on the Fluorescence Response of Hydroxycoumarin Bearing a Dipicolylamine Binding Site to Metal Ions

, , ,
Analytical Sciences 30(11), 1045-1050, 2014
… This dramatic selectivity change is explained by stabilization of a metal-dpa-HC complex due to acetonitrile coordination and ON-OFF switching of the intramolecular photoinduced electron transfer (PET) from the nitrogen lone pair of DPA to the coumarin derivative. …
NAID 130004704336

鎖状および縮環π共役ホスホール誘導体の合成

俣野善博,今堀博
有機合成化学協会誌 70(6), 629-639, 2012-06-01
… In addition, phosphole has an active lone pair at phosphorus. …
NAID 10030766038

Effects of Electron Beam Irradiation on Charpy Impact Value of Short Glass Fiber (GFRP) Samples with Random Distribution of Solidification Texture Angles from Zero to 90 Degrees

, ,
MATERIALS TRANSACTIONS 53(8), 1412-1419, 2012
… However, experimental results showed homogeneous low voltage electron beam irradiation (HLEBI) applied to the center region apparently enhances the Charpy impact values (auc) 5 to 25%. … This increased matrix adhesion can be explained by electron spin resonance (ESR) peaks indicating dangling bonds are generated creating repulsive forces between outer shell electrons in the polymer matrix, apparently exhibiting increased compressive stress on the fibers increasing adhesion force. …
NAID 130004824938

「lone pair」

　　[★]

孤立電子対、非共有電子対

関: lone electron pair、unshared electron pair

「非共有電子対」

　　[★]

英: lone pair、lone electron pair、unshared electron pair
関: 孤立電子対

「孤立電子対」

　　[★]

英: lone pair、lone electron pair
関: 非共有電子対

「unshared electron pair」

　　[★]

非共有電子対

関: lone electron pair、lone pair

「pair」

　　[★]

n.
vt.vi

一対にする/なる。(2人・2つを)組み合わせる、(2つが)組む。結婚させる/する、(動物を)つがわせる。(動物が)つがう。

Classical conditioning is used to pair a maladaptive but pleasurable stimulus with an aversive or painful stimulus so that the two become associated.

「paired」

　　[★]

adj.

対での、ペアード

関: pair、pairwise、versus、vs

「electro」

　　[★]

comb form.

エレクトロ、電気

関: electric、electricity

「electron」

　　[★]

n.

電子

関: electronic、fast electron、positron

「pairing」

　　[★]

n.

対形成、対合

関: association、synapsis

[0] Organic Chemistry Marye Anne Fox , James K. Whitesell 2nd Edition 2001

[1] Organic chemistry John McMurry 5th edition 2000

[2] Concise Inorganic Chemistry J.D. Lee 4th Edition 1991

[3] Stereochemistry of Ionic Solids J.D.Dunitz and L.E.Orgel, Advan. Inorg. and Radiochem. 1960, 2, 1–60

[4] Electronic origins of structural distortions in post-transition metal oxides: experimental and theoretical evidence for a revision of the lone pair model D.J.Payne, R.G.Egdell, A.Walsh, G.W.Watson, J.Guo, P.-A.Glans, T.Learmonth and K.E.Smith, Phys. Rev. Lett. 2006, 96, 157403 doi:10.1103/PhysRevLett.96.157403

[5] The origin of the stereochemically active Pb(II) lone pair: DFT calculations on PbO and PbS A.Walsh and G.W.Watson, J. Sol. Stat. Chem. 2005, 178, 5 doi:10.1016/j.jssc.2005.01.030

[6] Influence of the Anion on Lone Pair Formation in Sn(II) Monochalcogenides: A DFT Study A.Walsh and G.W.Watson, J. Phys. Chem. B 2005, 109, 18868 doi:10.1021/jp051822r

[7] Is an Electronic Shield at the Molecular Origin of Lead Poisoning? A Computational Modeling Experiment C.Gourlaouen and O.Parisel Angew. Chem. Int. Ed. 2007, 46, 553 –556 doi:10.1002/anie.200603037

[8] Lewis base induced tuning of the Ge–Ge bond order in a digermyne G.H.Spikes and P.P.Power Chem. Commun., 2007, 85–87, doi:10.1039/b612202g

リンク元	「lone pair」「非共有電子対」「孤立電子対」「unshared electron pair」
関連記事	「pair」「paired」「electro」「electron」「pairing」

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案内

lone electron pair