Mechanically resilient bitumen microcapsules for midstream transport

The invention claimed is: 1. An asphaltene-coated bitumen microcapsule, comprising: a microcapsule core comprising bitumen, deasphalted oil, or a combination thereof; and a microcapsule shell comprising asphaltenes; wherein the microcapsule core and the microcapsule shell are substantially derived from the same origin, and wherein the asphaltenes, the bitumen, the deasphalted oil, or the combination thereof is cured by aging under a set of conditions, such that the asphaltene-coated bitumen microcapsule is sufficiently mechanically resilient to surpass a threshold for transportation; and wherein the threshold for transportation is defined as a velocity-impact resiliency of at least about 10 m/s and/or a compression-stress resiliency of at least about 50 kN/m 2 . 2. The asphaltene-coated bitumen microcapsule of claim 1 , wherein: the microcapsule core has a microcapsule-core radius (r core ) of between about 100 μm and about 1,500 μm; and/or the microcapsule shell has a microcapsule-shell radius (t shell ) of between about 10 μm and about 300 μm. 3. The asphaltene-coated bitumen microcapsule of claim 1 , which has: a core-shell ratio (r core :t shell ) of between about 4.0:1.0 and about 1.0:1.0; a core-microcapsule ratio (r core :r microcapsule ) of between about 1.0:2.0 and about 1.0:1.1: a shell-microcapsule ratio (t shell :r microcapsule ) of between about 1.0:10.0 and about 1.0:2.0: and/or a weight ratio (m a /m b ) of between about 1.0:1.0 and about 1.0:2.2, wherein m a is the mass of the asphaltenes and m b is the mass of the bitumen, the deasphalted oil, or the combination thereof. 4. The asphaltene-coated bitumen microcapsule of claim 1 , wherein at least a portion of the asphaltenes are: derived from treatment of whole bitumen with a C 5 -C 7 hydrocarbon solvent; substantially insoluble in toluene; and/or at least partially soluble in a solvent having solubility parameters of between about 17 MPa 1/2 and about 19 MPa 1/2 . 5. The asphaltene-coated bitumen microcapsule of claim 1 , wherein at least a portion of the bitumen, the deasphalted oil, or the combination thereof are substantially soluble in a C 5 -C 7 hydrocarbon solvent. 6. The asphaltene-coated bitumen microcapsule of claim 1 , wherein the microcapsule core has a microcapsule-core radius (r core ) of between about 100 μm and about 1,500 μm. 7. The asphaltene-coated bitumen microcapsule of claim 1 , wherein the microcapsule shell has a microcapsule-shell radius (t shell ) of between about 10 μm and about 300 μm. 8. The asphaltene-coated bitumen microcapsule of claim 1 , which has a core-shell ratio (r core :t shell ) of between about 4.0:1.0 and about 1.0:1.0. 9. The asphaltene-coated bitumen microcapsule of claim 1 , which has a core-microcapsule ratio (r core :r microcapsule ) between about 1.0:2.0 and about 1.0:1.1. 10. The asphaltene-coated bitumen microcapsule of claim 1 , which has a shell-microcapsule ratio (t shell :r microcapsule ) of between about 1.0:10.0 and about 1.0:2.0. 11. The asphaltene-coated bitumen microcapsule of claim 1 , which has a weight ratio (m a /m b ) of between about 1.0:1.0 and about 1.0:2.2, wherein m a is the mass of the asphaltenes and m b is the mass of the bitumen, the deasphalted oil, or the combination thereof. 12. The asphaltene-coated bitumen microcapsule of claim 1 , wherein the curing by the aging comprises cooling in the presence of water, alcohol, a surfactant, or a combination thereof. 13. The asphaltene-coated bitumen microcapsule of claim 1 , wherein the curing by the aging is in the presence of air, an inert gas, or a combination thereof.