Mixed metal oxidic nano sheets coated monolithic catalysts useful for the decomposition of toxic N2O and a process for the preparation thereof

We claim: 1. Mixed metal oxidic nano-sheet coated monolithic catalyst comprising a composite gel wherein the gel comprises layered double hydroxide and clay in ratio ranging between 0.2:1 to 1:0.2% w/v of the gel coated over ceramic honeycomb monoliths of 250 to 450 cells per square inch. 2. The mixed metal oxidic nano-sheet coated monolithic catalyst as claimed in claim 1 , wherein metals in layered double hydroxides are selected from the group consisting of Zinc, Magnesium, Chromium, Aluminium and Nickel. 3. The mixed metal oxidic nano-sheet coated monolithic catalyst as claimed in claim 1 , wherein clay is selected from the group consisting of montmorillonite, laponite, hectorite. 4. The mixed metal oxidic nano-sheet coated monolithic catalyst as claimed in claim 1 , wherein ceramic monolith used is cordierite/mulite honey-comb monolith having 250 to 400 Channels Per Square Inch. 5. A process for the preparation of mixed metal oxidic nano-sheet coated monolithic catalyst as claimed in claim 1 , wherein the said process comprising the steps of; a. providing layered double hydroxides:clay composite in ratio of 0.2:1 to 1:0.2% w/v of the gel; b. homogenising layered double hydroxides:clay composite as obtained in step (a) with a homogeniser at 8000-14000 RPM for 5 to 15 minutes further dispersing under ultrasonication by using 0.5 or 1 inch titanium horn in a high intensity ultrasonic processor at above 15 kHz frequency of 20 to 40% amplitude for 3-10 minutes with 1.5-4.5 second pulser on and 1.0-2.0 second pulser off mode and 1 inch (25 mm) solid titanium horn with a total spell of sonication for 0.5 to 3.5 hours over a period of 4 to 10 days with 5 to 24 hours gap between each spell; dip-coating the prepared gels over cordierite/mulite honey-comb monolithic supports of 250 to 400 Channels Per Square Inch at dipping rates of 5 to 20 cm/min and withdrawal rates of 1 to 20 cm/min followed by drying the dip-coated monoliths at 80-160° C. and calcining the dried coated monoliths at 350 to 650° C. to obtain mixed metal oxidic nano-sheet coated monolithic catalyst. 6. The process for decomposition of N 2 O gas using layered double hydroxides-clay composite coated on a ceramic monolith as claimed in claim 1 , wherein the said process comprises flowing N 2 O gas premixed with He over mixed layered double hydroxides-clay composite coated on a ceramic monolith in reactor at a flow rate ranging between 5 to 50 ml/minute at temperature ranging between 300 to 550° C. for a period ranging between 30 to 120 minutes to obtain Nitrogen and Oxygen. 7. The process for decomposition of N 2 O gas as claimed in claim 6 , wherein reactor used is a cylindrical quartz reactor with a reaction area of 20-80 cm 3 , length 10-60 cm and diameter 2-3 cm. 8. The process for decomposition of N 2 O gas as claimed in claim 6 , wherein Specific Decomposition Efficiencies of the reaction is in the range of 20,000 to 40,000%/gram. 9. The process for decomposition of N 2 O gas as claimed in claim 6 , wherein N 2 O conversion is in the range of 90 to 98%.