Polyorganosiloxane-based stamp manufacturing method, polyorganosiloxane-based stamp, use of the same for a printing process, and an imprinting method using the same

The invention claimed is: 1. A method of manufacturing a polyorganosiloxane based stamp, the method comprising: forming a first layer of a first curable composition onto a transfer pattern surface of a master such that the first layer includes a relief pattern of the transfer pattern surface, the first layer having a first thickness, the first curable composition comprising: reactive branched polyorganosiloxane, a first reactive linear polyorganosiloxane, and a first concentration of a catalyst, wherein the first concentration of the catalyst is arranged to catalyze crosslinking of the reactive branched polyorganosiloxane and the first reactive linear polyorganosiloxane; partially curing the first layer; depositing a second layer of a second curable composition onto the partially cured first layer, the second layer having a second thickness, the second curable composition comprising: a second concentration of the catalyst, and a second reactive linear polyorganosiloxane, wherein the second reactive linear polyorganosiloxane is arranged to adhere the second layer to the first layer by crosslinking with the crosslinked reactive branched and linear polyorganosiloxanes of the partially cured first layer, wherein the second thickness is selected to be smaller than the first thickness and the second concentration is selected to be equal to or greater than the first concentration; completely co-curing the partially cured first layer and the second layer to form a cured first layer adhered to a cured second layer, wherein the cured first layer has a first Young's modulus, wherein the cured second layer has a second Young's modulus, wherein the second Young's modulus is smaller than the first Young's modulus; depositing a third layer of a third curable composition onto the cured second layer, the third curable composition comprising: a third reactive polyorganosiloxane, wherein the third reactive polyorganosiloxane is arranged to adhere the third layer to the cured second layer by crosslinking with the second reactive linear polyorganosiloxane; and curing the third layer to form a cured third layer adhered to the cured second layer. 2. The method of claim 1 , wherein the first thickness is in a range 5 μm to 70 μm and the first Young's modulus is in a range from 30 MPa to 100 MPa. 3. The method of claim 1 , wherein the reactive branched polyorganosiloxane comprises: a vinyl functionalised branched polyorganosiloxane; a hydride functionalised branched polyorganosiloxane; or a mixture of both, wherein the first reactive linear polyorganosiloxane and the second reactive linear polyorganosiloxane each comprise a mixture of a vinyl functionalised linear polyorganosiloxane and a hydride functionalised linear polyorganosiloxane, wherein the catalyst comprises a hydrosilylation catalyst. 4. The method of claim 3 , wherein the hydrosilylation catalyst comprises platinum, wherein the first and second curable compositions further comprise a catalyst moderator comprising a cyclic vinyl functionalised polyorganosiloxane. 5. The method of claim 4 , wherein the second curable composition comprises a catalyst moderator concentration which is equal to or less than that of the first curable composition. 6. The method of claim 1 , wherein the reactive branched polyorganosiloxane comprises a T-branched polyorganosiloxane, a Q-branched polyorganosiloxane, or a mixture thereof. 7. The method of claim 1 , wherein the second reactive linear polyorganosiloxane comprises a linear polyorganosiloxane comprising terminal vinyl groups. 8. The method of claim 1 , wherein the second curable composition has a lower viscosity than the first curable composition. 9. The method of claim 1 , wherein the third reactive polyorganosiloxane comprises a mixture comprising a vinyl functionalised linear polyorganosiloxane and a hydride functionalised linear polyorganosiloxane, and a hydrosilylation catalyst. 10. The method of claim 1 , further comprising: fixing the polyorganosiloxane based stamp to a rigid carrier, wherein the third layer is disposed between the rigid carrier and the second layer. 11. The method of claim 1 , wherein the second curable composition further comprises another reactive branched polyorganosiloxane, which comprises a T-branched polyorganosiloxane, a Q-branched polyorganosiloxane, or a mixture thereof. 12. The method of claim 1 , wherein the second Young's modulus of the cured second layer renders the second layer sufficiently flexible to be adhered to the third layer. 13. The method of claim 4 , wherein the catalyst moderator comprises a cyclic polyorganosiloxane according to Formula 1, Formula 2 or a mixture thereof. 14. The method of claim 11 , wherein the reactive branched polyorganosiloxane comprises a polyorganosiloxane according to Formula 3, Formula 4, or a mixture thereof; wherein m ranges from 3 to 13. 15. The method of claim 6 , wherein the reactive branched polyorganosiloxane comprises a polyorganosiloxane according to Formula 3, Formula 4, or a mixture thereof; wherein m ranges from 3 to 13. 16. The method of claim 7 wherein the second reactive linear polyorganosiloxane comprises a polyorganosiloxane according to Formula 5; wherein n ranges from 4 to 1000. 17. The method of claim 8 , wherein the second curable composition further comprises a volatile diluent for decreasing the viscosity of the second curable composition and which is evaporable during the depositing of the second curable composition and/or during the co-curing. 18. A method of manufacturing a polyorganosiloxane-based stamp, the method comprising: forming a first layer of a first curable composition onto a transfer pattern surface of a master such that the first layer includes a relief pattern of the transfer pattern surface, the first layer having a first thickness, the first curable composition comprising: reactive branched polyorganosiloxane, a first reactive linear polyorganosiloxane, and a first concentration of a catalyst, wherein the first concentration of the catalyst is arranged to catalyze crosslinking of the reactive branched polyorganosiloxane and the first reactive linear polyorganosiloxane; partially curing the first layer; depositing a second layer of a second curable composition onto the partially cured first layer, the second layer having a second thickness, the second curable composition comprising: a second concentration of the catalyst, a second reactive linear polyorganosiloxane, wherein the second reactive linear polyorganosiloxane is arranged to adhere the second layer to the first layer by crosslinking with the crosslinked reactive branched and linear polyorganosiloxanes of the partially cured first layer, wherein the second thickness is selected to be smaller than the first thickness or the second concentration is selected to be equal to or greater than the first concentration; completely co-curing the partially cured first layer and the second layer to form a cured first layer adhered to a cured second layer, wherein the cured first layer has a first Young's modulus, wherein the cured second lay