Abstract: A method for controlled production of an array of planar microparticles with the multiplexing of molecules on the surface thereof, intended to function as molecular sensors and/or actuators and a matrix (array) of microparticles, the surface thereof being printed with all of the molecular components required to provide the surface with functionality. Different molecular elements are multiplexed on the surface of each particle while they are supported on a substrate by means of a structural foot engraved below the particle. These microparticles can be released mechanically from the support on which they are produced using a controlled mechanical rupture method which is not chemically aggressive and therefore does not affect the molecules previously printed on the surface. The array and the particles contained therein offer great versatility in both chemical and/or biological applications.

Abstract: The invention relates to a process for the obtainment of suspended double-flat SU-8 Janus chips by means of SU-8 photolithography to create an arrangement of ordered SU-8 chips on a substrate and soft lithography to create a planar printed arrangement or a planar printed array on each chip, said process comprising steps for forming a solidified membrane that is peeled off and dissolved in an aqueous medium. Furthermore, the invention relates to the suspended double-flat SU-8 Janus chips and to a suspended array comprises at least two different suspended double-flat SU-8 Janus chips. Lastly, the invention relates to barcoding chips and to sensing devices comprising said suspended double-flat SU-8 Janus chips or said suspended array.

Abstract: A method for controlled production of an array of planar microparticles with the multiplexing of molecules on the surface thereof, intended to function as molecular sensors and/or actuators and a matrix (array) of microparticles, the surface thereof being printed with all of the molecular components required to provide the surface with functionality. Different molecular elements are multiplexed on the surface of each particle while they are supported on a substrate by means of a structural foot engraved below the particle. These microparticles can be released mechanically from the support on which they are produced using a controlled mechanical rupture method which is not chemically aggressive and therefore does not affect the molecules previously printed on the surface. The array and the particles contained therein offer great versatility in both chemical and/or biological applications.

Abstract: A method for controlled production of an array of planar microparticles with the multiplexing of molecules on the surface thereof, intended to function as molecular sensors and/or actuators and a matrix (array) of microparticles, the surface thereof being printed with all of the molecular components required to provide the surface with functionality. Different molecular elements are multiplexed on the surface of each particle while they are supported on a substrate by means of a structural foot engraved below the particle. These microparticles can be released mechanically from the support on which they are produced using a controlled mechanical rupture method which is not chemically aggressive and therefore does not affect the molecules previously printed on the surface. The array and the particles contained therein offer great versatility in both chemical and/or biological applications.

Abstract: A method for controlled production of an array of planar microparticles with the multiplexing of molecules on the surface thereof, intended to function as molecular sensors and/or actuators and a matrix (array) of microparticles, the surface thereof being printed with all of the molecular components required to provide the surface with functionality. Different molecular elements are multiplexed on the surface of each particle while they are supported on a substrate by means of a structural foot engraved below the particle. These microparticles can be released mechanically from the support on which they are produced using a controlled mechanical rupture method which is not chemically aggressive and therefore does not affect the molecules previously printed on the surface. The array and the particles contained therein offer great versatility in both chemical and/or biological applications.

Abstract: The present invention relates to an encoded microparticle for labeling an isolated cell or an isolated embryo characterized in that it is made of a biocompatible material and its external shape comprises a code by which it can be identified. The use of an encoded microparticle for labeling and/or tracking isolated biological material. A method of tracking an encoded microparticle in or attached to an isolated cell or embryo using an optical microscope, preferably an inverted optical microscope with an objective substantially between 20×-100×.