Cold cranking simulator viscosity boosting base stocks and lubricating oil formulations containing the same

What is claimed is: 1. An oil composition comprising a first base stock and a reference oil different from the first base stock, wherein the reference oil is the remainder of the oil composition absent the first base stock; wherein the first base stock is selected from one or more of: a C28-C40 mono-methyl paraffin, a linear mono-ester having the following formula R 1 —C(O)—O—R 2 , where R 1 and R 2 are independently each a linear, non-branched hydrocarbyl group, R 1 comprises from 15-17 carbon atoms and R 2 comprises from 10-12 carbon atoms, and the oil composition exhibiting a viscosity measured at 0.1 s −1 shear rate at a temperature T1° C. of v1(T1) Pa·s, a viscosity measured at 0.1 s −1 shear rate at a temperature T2° C. of v1(T2) Pa·s, where −35≤T1≤25, 0<T1−T2≤10, and v1(T2)/v1(T1)≥50; and further exhibiting a peak in the vicinity of the temperature T1−5° C. on the DSC curve thereof in the temperature range from −60° C. to 25° C. when the oil composition is being cooled down. 2. The oil composition of claim 1 , wherein v1(T2)/v1(T1)≥100. 3. The oil composition of claim 1 , wherein 0<T1−T2≤8. 4. The oil composition of claim 1 , wherein the oil composition exhibits a viscosity measured at 10 s −1 shear rate at T1° C. of v2(T1) Pa·s, a viscosity measured at 10 s −1 shear rate at the temperature T2° C. of v2(T2) Pa·s, where T1 and T2 are the same numbers as in claim 1 , and v2(T2)/v2(T1)≥10. 5. The oil composition of claim 3 , wherein v2(T2)/v2(T1)≥5. 6. The oil composition of claim 3 , wherein (v1(T2)/v1(T1))/(v2(T2)/v2(T1))≥5. 7. The oil composition of claim 1 , wherein the oil composition exhibits a viscosity measured at 100 s −1 shear rate at T1° C. of v3(T1) Pa·s, a viscosity measured at 100 s −1 shear rate at T2° C. of v3(T2) Pa·s, where T1 and T2 are the same numbers as in claim 1 , and v3(T2)/v3(T1)≥5. 8. The oil composition of claim 7 , wherein v3(T2)/v3(T1)≥2. 9. The oil composition of claim 7 , wherein ((v2(T2)/v2(T1))/(v3(T2)/v3(T1))≥2. 10. The oil composition of claim 1 , wherein the reference oil comprises an API Group III base stock, an API Group IV base stock, or a mixture thereof. 11. The oil composition of claim 1 , wherein the reference oil is an API Group III base stock, an API Group IV base stock, or a mixture thereof. 12. The oil composition of claim 1 , wherein the reference oil is a AGI Group IV base stock having a kinematic viscosity at 100° C. as determined pursuant to ASTM D445 (“KV100”) in the range from 3.0 to 10.0 cSt. 13. The oil composition of claim 1 , wherein the first base stock is present at a concentration in the range from about 1 to 50 wt %, based on the total weight of the oil composition. 14. The oil composition of claim 1 , wherein the first base stock is present at a concentration in the range from about 5 to 15 wt %, based on the total weight of the oil composition. 15. The oil composition of claim 1 , wherein the first base stock undergoes a phase change in the oil composition at a temperature in the vicinity of T1-5° C. 16. The oil composition of claim 1 , which is an engine oil formulation. 17. The oil composition of claim 16 , which has a KV100 and CCSV meeting the requirements of a grade defined by SAE J300. 18. A mixture oil comprising a lubricating oil base stock and a reference oil, wherein the reference oil is the remainder of the mixture oil absent the lubricating oil base stock; wherein the lubricating oil base stock is selected from one or more of: a C28-C40 mono-methyl paraffin; and a linear mono-ester having the following formula R 1 —C(O)—O—R 2 , where R 1 and R 2 are independently each a linear, non-branched hydrocarbyl group, R 1 comprises from 15-17 carbon atoms and R 2 comprises from 10-12 carbon atoms, and the lubricating oil base stock has a KV100 in the range from 3.0 to 12.0 cSt, a Noack volatility as determined by ASTM D5800 of no higher than 20%, and when blended with the reference oil which is a Group IV base stock having a KV100 of 4.0 cSt to form the mixture oil comprising the lubricating oil base stock at a concentration of 10 wt %, based on the total weight of the mixture oil, the mixture oil exhibits at least one of the following (i) and (ii): (i) a viscosity measured at 0.1 s −1 shear rate at a temperature T1° C. of v(T1) Pa·s, a viscosity measured at 0.1 s −1 shear rate at the temperature T2° C. of v(T2) Pa·s, where −35≤T1≤25, 0<T1−T2≤10, v1(T2)/v1(T1)≥50; and (ii) a peak in the vicinity of the temperature of T1-5° C. on the DSC curve thereof in the temperature range from −60° C. to 25° C. when the mixture oil is being cooled down. 19. The mixture oil of claim 18 , wherein the mixture oil further exhibits a viscosity measured at 10 s −1 shear rate at T1° C. of v2(T1) Pa·s, a viscosity measured at 10 s −1 shear rate at the temperature T2° C. of v2(T2) Pa·s, where T1 and T2 are the same numbers as in claim 18 , and v2(T2)/v2(T1)≥10. 20. The mixture oil of claim 19 , wherein (v1(T2)/v1(T1))/(v2(T2)/v2(T1))≥5. 21. The mixture oil of claim 18 , wherein the mixture oil exhibits a viscosity measured at 100 s −1 shear rate at T1° C. of v3(T1) Pa·s, a viscosity measured at 100 s −1 shear rate at T2° C. of v3(T2) Pa·s, where T1 and T2 are the same numbers as in claim 18 , and v3(T2)/v3(T1)≥2. 22. The mixture oil of claim 21 , wherein ((v2(T2)/v2(T1))/(v3 (T2)/v3 (T1))≥2. 23. The mixture oil of claim 18 , wherein 0<T1−T2≤8. 24. A mixture oil comprising a lubricating oil base stock and a reference oil, wherein the reference oil is the remainder of the mixture oil absent the lubricating oil base stock; wherein the lubricating oil base stock is selected from one or more of: a C28-C40 mono-methyl paraffin; and a linear mono-ester having the following formula R 1 —C(O)—O—R 2 , where R 1 and R 2 are independently each a linear, non-branched hydrocarbyl group, R 1 comprises from 15-17 carbon atoms and R 2 comprises from 10-12 carbon atoms, and the lubricating oil base stock has a KV100 in the range from 3.0 to 12.0 cSt, a Noack volatility as determined by ASTM D5800 of no higher than 20; when blended with the reference oil which is a Group IV base stock having a KV100 of 4.0 cSt to form the mixture oil comprising the lubricating oil base stock at a concentration of 10 wt %, based on the total weight of the mixture oil, the mixture oil exhibits at least one of the following (i) and (ii): (i) a viscosity measured at 0.1 s −1 shear rate at a temperature T1° C. of v(T1) Pa·s, a viscosity measured at 0.1 s −1 shear rate at the temperature T2° C. of v(T2) Pa·s, where −35≤T1≤25, 0<T1−T2≤10, v1(T2)/v1(T1)≥50; and (ii) a peak in the vicinity of the temperature of T1-5° C. on the DSC curve thereof in the temperature range from −60° C. to 25° C. when the mixture oil is being cooled down.