1 |
K. M. Chun, Chemical hyperstructures of chemical reactions for iron and indium, J. Chungcheong Math. Sco. 27 (2014), 319-325.
DOI
|
2 |
S. C. Chung, Chemical Hyperstructures for vanadium, J. Chungcheong Math. Sco. 27 (2014), 309-317.
DOI
|
3 |
S. Chung, K. Chun, N. Kim, S. Jeong, H. Sim, J. Lee, and H. Maeng, Chemical hyperalgebras for three consecutive oxidation states of elements, MATCH Communications in Mathematical and in Computer Chemistry, 72 (2014), 389-402.
|
4 |
P. Corsini, Prolegomena of Hypergroup Theory, Aviani Editore, Tricesimo, Italian, 1993.
|
5 |
B. Davvaz, A. D. Nezhad, and A. Benvidi, Chain reactions as experimental examples of ternary algebraic hyperstructures, MATCH Communications in Mathematical and in Computer Chemistry, 65 (2011), no. 2, 491-499.
|
6 |
B. Davvaz, A. D. Nezhad, and A. Benvidi, Chemical hyperalgebra: Dismutation reactions, MATCH Communications in Mathematical and in Computer Chemistry, 67 (2012), 55-63.
|
7 |
B. Davvaz, Polygroup Theory and Related Systems, World Scientific Publishing Co. 2013.
|
8 |
B. Davvaz, Weak Algebraic Hyperstructures as a Model for Interpretation of Chemical Reactions, Iranian Journal of Mathematical Chemistry, 7 (2016), no. 2, 267-283.
|
9 |
F. Marty, Sur une generalization de la notion de groupe, Proceedings of 8th Congress Math. Scandenaves, Stockholm, (1935), 45-49.
|
10 |
B. Douglas, D. H. McDaniel, and J. J. Alexander, Concepts and Models of Inorganic Chemistry, 2nd ed. John Wiely & Sons, Inc. 1985.
|
11 |
T. Vougiouklis, Hyperstructures and Their Representations, Hadronic Press, Inc. 1994.
|
12 |
Chemistry: WebElements: The periodic table of the elements, https://www.webelements.com/titanium/compound properties.html
|
13 |
P. Corsini and V. Leoreanu, Applications of Hyperstructure Theory, Springer, 2003.
|