What is the structure and structural characteristic of dichlorine heptaoxide (Cl2O7)?

Avarage oxidation state of Chlorine in Cl₂O₇ is one of the common oxidation state of the chlorine so there is (Cl-O-Cl) Oxy-linkage will be present. And one of oxygen atom is shared by both of chlorine atoms and rest of the oxygen atoms equally distributed.

The whole molecule dichlorine heptaoxide (Cl₂O₇) is non planer and polar and oxygen aotm of (Cl-O-Cl) oxy-linkage does not involve in delocalization due to maximum repulsion hence two Cl-O bond have equal length and bond order may be/equal to one while other six Cl=O bond have eqaual bond length.

In dichlorine heptaoxide (Cl₂O₇) , two ClO₄ group connected with an oxygen atom which is sp3 hybridised (non planer) and bond angle may be expected 109⦁28’ but actually due to the presence of two lone pair on oxygen atom the Cl-O-Cl bond angle deviated from ideal and it may be greater (119⦁) than ideal bond angle.

Question (1): Number of sigma  and pi bonds present in Cl₂O₇ is/ are ....?

Answer: Number of sigma and pi bond present in Cl₂O₇ are (8) and (6) repectively.

Question(2):What is the anhydride of  HClO4 ?

Answer: Cl2​O7​ is the anhydride of  HClO4

Question (3):Number of equivalent Cl-O bond in Cl₂O₇ is/are….

Answer Number of equivalent Cl-O bond in Cl₂O₇ are (2) two.

 

Question(4):Number of equivalent Cl=O bond in Cl₂O₇ is/are….

Answer:Number of equivalent Cl=O bond in Cl₂O₇ are (6) six.

Related Questions:

(1) Why halogens are insoluble in water ?

(2) Is F2 bond is stronger than Br2 ?

(3) Which is best known pseudohalide ?

(4) Iodine forms I3- but F2 does not form F3- ions. Why?

(5) Number of lone pair present at central atom of I3- ion and also give hybridisation and shape of ion?

(6) How many maximum atoms of IF7 are present in the same plane ?

(7) What are the Pseudohalogens or halogenoids?

(8) What are Pseudohalides ? and What is similarity with halides?

(9) Although electron affinity of chlorine is higher than fluorine, yet fluorine act as better oxidizing agent than chlorine? Explain.

(10) Although electron affinity of chlorine is higher than fluorine, yet fluorine act as better oxidizing agent than chlorine? Explain.

(11) Why chlorine trifluoride (ClF3) exists but fluorine trichloride (FCl3) does not?

(12) Why Chlorine (Cl2) bleaches a substance permanently but sulphuredioxide (SO2) does it temporarily?

(13) What is the correct order of electronegativity of Cl atoms in HClO, HClO2, HClO3 and HClO4 ?

(14) How does the thermal stability of oxy acids of chlorine increase with an increase in the oxidation state of chlorine atom ?

(15) Which of the following is a strongest acid among oxy acids of chlorine and why? "HClO, HClO2, HClO3, HClO4"

(16) Which will have very fast tendency to dimerized ClO2 or NO and why?

(17) Which of the following is a strongest acid among oxy acids of chlorine and why? "HClO, HClO2, HClO3, HClO4"

Oxy acids of Chlorine:

Chlorine, bromine and Iodine form oxy acids easly due to less electronegative than oxygen but oxy acids of fluorine are unsatble due to high electronegativity only hypofluorous (HOF) acid is stable.

O.S of halogens	Name of acids	Name of  salts	fluorine	Chlorine	Bromine	Iodine
(+1)	Hypohalous	Hypohalite	HOF	HOCl	HOBr	HOI
(+2)	Halous	Halite	----	HClO2	----	----
(+3)	Halic	Halate	----	HClO3	HBrO3	HIO3
(+4)	Perhalic	Perhalate	----	HClO4	HBrO4	HIO4

Important Note: All the hypohalous acids (HXO) are unstable and readly form HXO3. Among the relative order of stability is: HClO > HBrO > HIO

Relative acidic strength of oxy acid Halogens:

(1) According to Bronsted Lowery concept, a strong acid has weak conjugate base and vice versa. 

The given oxy acids of chlorine HCIO, HCIO₂, HClO₃ and HClO₄ and their conjugate bases are CIO-, CIO₂^-, ClO₃^-, ClO₄^- respectively. These anions are stabilised to greater extent, due to the presence of π-bond and lone pair, if number of π-bond increase extent of stabilisation increase. In case of ClO^- there is no π-bond hence if form less stable conjugate base hence act as weak acid while in case of ClO₄^- it has three pπ-dπ bond which stablised greater extent and form more stable conjugate base hence it conjugate acid (HClO₄) is strongest acid. Oxy acids of chlorine and their number of pπ-dπ bonds given as:

HOCI (0=Pπ-dπ bond)

HOCIO (1=Pπ-dπ bond)

HOClO₂ (2=Pπ-dπ bond)

HOCIO₃ (3=Pπ-dπ bond)

Thus overall order of acidic strength of oxy acids of chlorine is as:

Acidic srength of acid as :  (HClO) < (HClO₂)<(HClO₃)<(HClO₄) 

(2) In general the relative strength of oxy acid can pridicted on the basis of electronegativity and oxidation state of central non metal atom.

(1) For given oxy acid on increasing of electronegativity acidic strength increses for example perchloric (HClO₄) is stronger acid than perbromic acid(HBrO₄), which should be a stronger acid than periodic acid (HIO₄) because the electronegativity of the central atom increses as (Cl>B>I).

Acidic srength of acid as :  (HIO₄)< (HBrO₄)<(HClO₄)

(2) For given non metal oxy acid the strength of oxy acid increases as the oxidation state of central atom increases for example; "HClO (+1),HClO₂(+3), HClO₃ (+5), HClO₄(+7) 

Acidic srength of acid as :  (HClO)< (HClO₂)<(HClO₃)<(HClO₄)

Relative  oxidizing character of oxy acid of Halogens:

Hypochlorous (HClO) act as the best oxidizing agent because it give nascent oxygen easily.

                                 HClOàHCl + O (nascent oxygen)

Order of oxiding character:  (HClO₄)<(HClO₃)<(HClO₂)<(HClO)

Relative  thermal stability of oxy acid of Halogens:

As the number of pπ-dπ bond incrases bond strength incrases and thus order of thermal stability also increases.

Thermal stability order: (HClO)< (HClO₂)<(HClO₃)<(HClO₄)

Relative (Cl-O) bond order and bond length

HOCI (0=Pπ-dπ bond)     BO=1

HOCIO (1=Pπ-dπ bond)  BO=1.5

HOClO₂ (2=Pπ-dπ bond) BO=1.66

HOCIO₃ (3=Pπ-dπ bond) BO=1.75

Hence (Cl-O) single bond length order as: (HClO)>(HClO₂)>(HClO₃)>(HClO₄)

Question: which set of properties follow given order:

(HClO)< (HClO₂)<(HClO₃)<(HClO₄)

(i) Acidic nature (ii) Oxidizing nature(iii) Thermal stability (iv) Cl-O single bond

(A) Only (i) (B) Only (i) & (iii) (C) Only (i), (iii) & (iii) (D) All of these

Answer Key: (B)

Related Questions:

Why halogens are insoluble in water ?

Is F2 bond is stronger than Br2 ?

Which is best known pseudohalide ?

Iodine forms I3- but F2 does not form F3- ions. Why?

Number of lone pair present at central atom of I3- ion and also give hybridisation and shape of ion?

How many maximum atoms of IF7 are present in the same plane ?

What are the Pseudohalogens or halogenoids?

What are Pseudohalides ? and What is similarity with halides?

Although electron affinity of chlorine is higher than fluorine, yet fluorine act as better oxidizing agent than chlorine? Explain.

Although electron affinity of chlorine is higher than fluorine, yet fluorine act as better oxidizing agent than chlorine? Explain.

Why chlorine trifluoride (ClF3) exists but fluorine trichloride (FCl3) does not?

Why Chlorine (Cl2) bleaches a substance permanently but sulphuredioxide (SO2) does it temporarily?

What is the correct order of electronegativity of Cl atoms in HClO, HClO2, HClO3 and HClO4 ?

How does the thermal stability of oxy acids of chlorine increase with an increase in the oxidation state of chlorine atom ?

Which of the following is a strongest acid among oxy acids of chlorine and why? "HClO, HClO2, HClO3, HClO4"

Which will have very fast tendency to dimerized ClO2 or NO and why?

Which of the following is a strongest acid among oxy acids of chlorine and why? "HClO, HClO2, HClO3, HClO4"

What are the oxy-acids?

Oxyacids:

The acids contains oxygen and must have one -OH group directly attach with central atom and also oxidation state of central atom is (+) positive. Most of covalent (acidic) oxide react with water to form oxy-acid that yield hydronium (H₃O⁺)ions in solution. Mostly non metal of P-block formed oxy-acids except some metals.

Strength of Oxy acid:

The strenght of oxy acid define by degree of dissociation (pka) in water or ability to furnise H+ ions in water.

In general the relative strength of oxy acid can pridicted on the basis of electronegativity and oxidation state of central non metal atom.

(1) For example perchloric (HClO₄) is stronger acid than sulphuric acid (H₂SO₄), which should be a stronger acid than phosphoric acid (H₃PO₄) because the electronegativity of the central atom increses as (Cl>S>P).

Acidic srength of acid as :  (HClO₄)>(H₂SO₄)>(H₃PO₄)

(2) For given non metal acid the strength of oxy acid increases as the oxidation state of central atom increases for example sulphuric acid (OS=+6) (H₂SO₄) is more acidic then sulphurous acid (OS=+4)(H₂SO₃). Similarly nitric acis (HNO₃)(OS=+5) is more acidic than Nitrous acid(HNO₂)(OS=+3).

Acidic srength of acid as : 

(1) (H₂SO₄)>(H₂SO₃)

(2) (HNO₃)> (HNO₂)

(3) (HClO₄)>(HClO₃)>(HClO₂)>(HClO)

Special Note: Oxy acid of phosphorous do not follow the concept of oxidation state. Because acidic strength of  phosphorous acid depends upon degree of dissociation (Ka or Pka value): the order  acidic nature follow as H₃PO₂ > H₂PO₃ > H₃PO₄

Levelling effect and relative strength of acids:

When strong acids like HClO₄, HCl, HBr, HI, HNO₃ etc are dissolved in water they are equally ionised (100%) it means they are equally strong in water this is called levelling effect of water.
Similarly for strong bases also , NaOH, KOH  Ca(OH)₂ etc are in water behave the same. hence relative strength of strong acids or base can not be compare in water .
(1) Water does no show levelling effect for weak acids or base because they are ionised upto different extent in water.
(2) All the acids are stronger than H₃O+ ion, consider as strong acids and weak than H₃O+ ion are consider as weak acids.
(3) All the bases stronger than OH^- are consider as strong base and weaker than OH^-, then they are consider  as weak base.

Definition: If more than one acids or bases are showing same acidic or basic strength in same solvent it is called labelling effect and the solvent is called labelling solvent for example:

(1) HClO₄ and HI equally dessociation in aqueous medium (99.99%)  it means they have equal strength.

(2) HCl, HNO₃  and H₂SO₄ are equally strong in water because their strength are “levelled” to solvent species H₃O+. only by putting them into a more acidic solvent do they weak acids. With determinate Pka values which differetiate their strengths. Thus in glacial ethanoic acid (acetic acid ) as solvent, the order of  acidic strength is as: H2SO₄ > HCl > HNO₃ .
(3) Similarly HF and HCl are equally dessociation in NaOH (100 %).
If their strength differ in same solvent ,it is called differential effect and the solvent is called differential solvent.

(4) For example HClO₄ dessociate 99.99 % in acetic acid while HI dissociate 99.8% in acetic acid, it means acidic strength of HClO₄ is more than HI in acetic acid.

(5) Many of inorganic oxoacid are strong acid (with more negative Pka value) inaqueous solution. But, as we have seen, use of solvent with a lower proton affinity than water like acetic acid, makes it possible to differentiate between the strength of these acids and measure Pka value.

H₂CO₃ < H₃PO₄ < H₂SO₄ < HClO₄ (Increasing acidic sterngth) these acidic strength can  also explain if the folmulae of the these oxy acids are written as base or OH formate or like that OC(OH)₂ < OP(OH)₃< O₂S(OH)₂< O₃Cl(OH) then it is clear that the acidic strength incrases as the number of oxygen atoms not involve in O-H bonding increases.
The reason behind levelling and diffential  effect is ability of solvent to donate or accept protons .
For acids, acidic solvents are differential and basic solvent are levelling.

 Related Questions:

What are "pyro" oxy acids?

What are "Ortho" or "Meta" oxyacids?

Why SF6 behave inert towards hydrolysis?

What are the SESQUI OXIDES ? give the examples.

Arrange in increasing order of extent of hydrolysis [ CCI4, MgCI2, AICI3, PCl5, SiCI4].

Although Sulphur contain vacant d-orbital but SF6 does not under go hydrolysis. Why ?

CCl4 can not be hydrolysed but SiCl4 can be. Why?

Silianol (SiH3OH) is more acidic than methanol (CH3OH) why?

What are heating effect of primary, secondary and tertiary salt of sodium phosphate?

NaH₂PO₄ (Primary phosphate) on heating undergo polymerization and form a stable hexamer salt (sodiummetaphosphate) which known as “CALGON” which also use as  water softener. And  Na₂HPO₄ (Secondary phosphate) on heating dimerised to form Sodium pyrophosphate  while no effect on (Na₃PO4 )tertiary phosphate.

Related Questions:

Which is more basic N(CH3)3 or N(SiH3)3 , explain?

Are all the five bonds of PCl5 equivalent? Justify your answer.

Trisilyl amine, N(SiH3)3 is planar whereas trimethyl amines N(CH3)3 is pyramidal. Explain why?.

What are common structural features of oxides (P4O6 and P4O5) of phosphorous?

What are the structural difference between oxides ( P4O6 and P4O10) of phosphorous?

What are abnormal behaviour of Nitrogen atom as compared to other family members?

What is product obtained when N2O5 is treated with NaCl?

What is metaphophoric (HPO3)?

Phosphorus can form PCl5 but nitrogen can not form NCl5 why?

Why PCl3 hydrolysed while NCl3 can not be hydrolysed? 

Why bond angle of hydrides of group 15, decreases down the group?

What is "calgon" ? Give structure and its uses?

Why nitrogen shows catenation properties less than phosphorus?

Why Nitrogen is fairly inert gas?

Why Nitrogen (N2) is less reactive at room temperature?

Why Nitrogen dioxide (NO2) dimerises to form Dinitrogen tetraoxide (N2O4)?

Why Nitrogen dioxide (NO2) is coloured but Dinitrogen tetraoxide (N2O4) is colourless?

Hypophosphorous acid (H3PO2) and Phosphorous acid (H3PO3) act as as good reducing agents while H3PO4 does not.Why?