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A fuel processor and integrated fuel cell including a monolithic three-dimensional multilayer ceramic carrier structure defining a fuel reformer and including an integrated fuel cell stack. The reformer includes a vaporization zone, a reaction zone including a catalyst, and an integrated heater. The

A fuel processor and integrated fuel cell including a monolithic three-dimensional multilayer ceramic carrier structure defining a fuel reformer and including an integrated fuel cell stack. The reformer includes a vaporization zone, a reaction zone including a catalyst, and an integrated heater. The integrated heater is thermally coupled to the reaction zone. The fuel processor further includes an inlet channel for liquid fuel and an outlet channel for hydrogen enriched gas. The fuel processor is formed utilizing multi-layer ceramic technology in which thin ceramic layers are assembled then sintered to provide miniature dimensions in which the encapsulated catalyst converts or reforms inlet fuel into a hydrogen enriched gas.

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A fuel processor and integrated fuel cell including a monolithic three-dimensional multilayer ceramic carrier structure defining a fuel reformer and including an integrated fuel cell stack. The reformer includes a vaporization zone, a reaction zone including a catalyst, and an integrated heater. The

A fuel processor and integrated fuel cell including a monolithic three-dimensional multilayer ceramic carrier structure defining a fuel reformer and including an integrated fuel cell stack. The reformer includes a vaporization zone, a reaction zone including a catalyst, and an integrated heater. The integrated heater is thermally coupled to the reaction zone. The fuel processor further includes an inlet channel for liquid fuel and an outlet channel for hydrogen enriched gas. The fuel processor is formed utilizing multi-layer ceramic technology in which thin ceramic layers are assembled then sintered to provide miniature dimensions in which the encapsulated catalyst converts or reforms inlet fuel into a hydrogen enriched gas. les as core particles, a coating formed on surface of said magnetic particle, comprising at least one organosilicon compound selected from the group consisting of: (1) organosilane compounds obtainable from alkoxysilane compounds, and (2) polysiloxanes or modified polysiloxanes, and a phthalocyanine-based pigments coat formed on said coating layer comprising said organosilicon compound, in an amount of 1 to 100 parts by weight based on 100 parts by weight of said magnetic particles. 2. A magnetic recording medium according to claim 1, wherein a coating layer comprising at least one compound selected from the group consisting of hydroxides of aluminum, oxides of aluminum, hydroxides of silicon and oxides of silicon is disposed between at least a part of the surface of the magnetic particle and the coating layer comprising the organosilicon compound. 3. A magnetic recording medium according to claim 1, wherein a coating comprising at least one organosilicon compound selected from the group consisting of organosilane compounds obtainable from alkoxysilane compounds and polysiloxanes or modified polysiloxanes, and a carbon black coat formed on at least a part of the surface of said coating layer comprising said organosilicon compound are disposed between at least a part of the surface of the magnetic particle and the coating layer comprising the organosilicon compound. 4. A magnetic recording medium according to claim 3, wherein a coating layer comprising at least one compound selected from the group consisting of hydroxides of aluminum, oxides of aluminum, hydroxides of silicon and oxides of silicon is disposed between at least a part of the surface of the magnetic particle and the coating layer comprising the organosilicon compound. 5. A magnetic recording medium according to claim 1, wherein said modified polysiloxanes are compounds selected from the group consisting of: (A) polysiloxanes modified with at least one compound selected from the group consisting of polyethers, polyesters and epoxy compounds, and (B) polysiloxanes whose molecular terminal is modified with at least one group selected from the group consisting of carboxylic acid groups, alcohol groups and a hydroxyl group. 6. A magnetic recording medium according to claim 1, wherein said alkoxysilane compound is represented by the general formula (I): R1aSiX4-a (I) wherein R1is C6H5--, (CH3)2CHCH2-- or n-CbH2b+1-- (wherein b is an integer of 1 to 18); X is CH3O-- or C2H5O--; and a is an integer of 0 to 3. 7. A magnetic recording medium according to claim 6, wherein said alkoxysilane compound is methyltriethoxysilane, dimethyldiethoxysilane, phenyl triethoxysilane, diphenyldiethoxysilane, methyltrimethoxysilane, dimethyldimethoxysilane, phenyltrimethoxysilane, diphenyldimethoxysilane, isobutyltrimethoxysilane or decyltrimethoxysilane. 8. A magnetic recording medium according to claim 1, wherein said polysiloxanes are represented by the general formula (II): wherein R2is H-- or CH3--, and d is an integer of 15 to 450. 9. A magnetic recording medium according to claim 8, wherein said polysiloxanes are compounds having methyl hydrogen siloxane units. 10. A magnetic recording medium according to claim 5, wherein said polysiloxanes modified with at least one compound selected from the group consisting of polyethers, polyesters and epoxy compounds are represented by the general formula (III), (IV) or (V): wherein R3is --(--CH2--)h--; R4is --(--CH2--)i--CH3; R5is --OH, --COOH, --CH=CH2,--C(CH3)=CH2or --(--CH2--)j--CH3; R6is --(--CH2--)k--CH3; g and h are an integer of 1 to 15; i, j and k a