Nanotechnology 2013,

24:335601 CrossRef 29 Harmand J-C,

Nanotechnology 2013,

24:335601.CrossRef 29. Harmand J-C, Glas F, Patriarche G: Growth kinetics of a single InP 1−x As x nanowire. Phys Rev B 2010, 81:235436.CrossRef 30. Colombo C, Spirkoska D, Frimmer M, Abstreiter G, Fontcuberta i Morral A: Ga-assisted catalyst-free growth mechanism of GaAs nanowires by molecular beam epitaxy. Phys Rev B 2008, 77:155326.CrossRef 31. Werner F, Limbach F, Carsten M, Denker C, Malindretos J, Rizzi A: Electrical conductivity of InN nanowires and the influence of the native indium oxide formed at their surface. Nano Lett 2009, 9:1567.CrossRef 32. Glas F, Harmand J-C, Patriarche AUY-922 G: Why does wurtzite form in nanowires of III-V zinc blende semiconductors? Phys Rev Lett 2007, 99:146101.CrossRef 33. Dick KA, Caroff P, Bolinsson J, Messing ME, Johansson J, Deppert K, Wallenberg LR, Samuelson L: Control of III–V nanowire crystal structure by growth parameter tuning. Semicond Sci Technol 2010, 25:024009.CrossRef 34. Johansson J, Dick KA, Caroff P, Messing ME, Bolinsson J, Deppert K, Samuelson L: Diameter Dependence of the wurtzite-zinc blende transition in InAs nanowires. J Phys Chem C 2010, 114:3837.CrossRef 35. Yamashita T, Akiyama T, Nakamura K, Ito T: Theoretical investigation on the structural stability of GaAs nanowires with two different types of facets. Phys

E 2010, 42:2727.CrossRef 36. Akiyama T, Sano K, Nakamura K, Ito T: An empirical potential approach to wurtzite–zinc-blende polytypism Diflunisal in group III–V semiconductor nanowires. J J Appl Phys 2006, 45:L275.CrossRef Selleckchem EPZ6438 37. Krogstrup P, Popovitz-Biro R, Johnson E, Hannibal Madsen M, Nygård J, Shtrikman H: Structural phase control in self-catalyzed growth of GaAs nanowires on silicon (111). Nano Lett 2010, 10:4475.CrossRef 38. Krogstrup P,

Curiotto S, Johnson E, Aagesen M, Nygård J, Chatain D: Impact of the liquid phase shape on the structure of III-V nanowires. Phys Rev Lett 2011, 106:125505.CrossRef Competing interests The authors declare that they have no competing interests. Authors’ contributions QZ and EA carried out expitaxial synthesis, participated in SEM studies and drafted the manuscript. AS carried out the TEM measurements and analysis. MKR, TDV and AZ carried out SEM measurements. BJR and OK participated in the substrate preparation. VF and FA conceived of the study, and participated in its design and coordination and provided financial support. All authors read and approved the final manuscript.”
“Background Primary liver cancer is one of the top malignancies around the world with respect to morbidity and mortality [1]. Liver cancer cases reported in China account for 43.7% of people affected by this disease in the world. Still in China, liver cancer is the second most fatal malignancy, accounting for 20.37 deaths per 100,000 individuals [2]. Moreover, liver cancer incidence has steadily increased in recent years and constitutes a serious threat to health in China.

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