Publikationen von A. Ektarawong

Pakornchote, T.; Ektarawong, A.; Alling, B.; Pinsook, U.; Tancharakorn, S.; Busayaporn, W.; Bovornratanaraks, T.: Phase stabilities and vibrational analysis of hydrogenated diamondized bilayer graphenes: A first principles investigation. Carbon 146, S. 468 - 475 (2019)

Ektarawong, A.; Alling, B.: Stability of SnSe_1-xS_x solid solutions revealed by first-principles cluster expansion. Journal of Physics: Condensed Matter 30 (29), 29LT01 (2018)

Ektarawong, A.; Simak, S. I.; Alling, B.: Structural models of increasing complexity for icosahedral boron carbide with compositions throughout the single-phase region from first principles. Physical Review B 97 (17), 174104 (2018)

Ektarawong, A.; Simak, S. I.; Alling, B.: First-principles prediction of stabilities and instabilities of compounds and alloys in the ternary B-As-P system. Physical Review B 96 (2), 024202 (2017)

Ektarawong, A.; Simak, S. I.; Alling, B.: Thermodynamic stability and properties of boron subnitrides from first principles. Physical Review B 95 (6), 064206 (2017)

Ektarawong, A.; Simak, S. I.; Alling, B.: Carbon-rich icosahedral boron carbides beyond B4 C and their thermodynamic stabilities at high temperature and pressure from first principles. Physical Review B 94 (5), 054104 (2016)

Ektarawong, A.; Simak, S. I.; Hultman, L.; Birch, J.; Tasnádi, F.; Wang, F.; Alling, B.: Effects of configurational disorder on the elastic properties of icosahedral boron-rich alloys based on B₆O, B₁₃C₂, and B₄C, and their mixing thermodynamics. The Journal of Chemical Physics 144 (13), 134503 (2016)

Greczynski, G.; Patscheider, J.; Lu, J.; Alling, B.; Ektarawong, A.; Jensen, J. M.; Petrov, I. G.; Greene, J. E.; Hultman, L.: Control of Ti_1−xSi_xN nanostructure via tunable metal-ion momentum transfer during HIPIMS/DCMS co-deposition. Surface and Coatings Technology 280, S. 174 - 184 (2015)

Ektarawong, A.; Simak, S. I.; Hultman, L.; Birch, J.; Alling, B.: Configurational order-disorder induced metal-nonmetal transition in B₁₃C₂ studied with first-principles superatom-special quasirandom structure method. Physical Review B 92 (1), 014202 (2015)