References
- I. Gutman, “Molecular graphs with minimal and maximal Randić indices”, Croatica chemica acta 75, no. 2 (2002): 357–369.
- I. Gutman, “Degree-Based Topological Indices,” Croatica Chemica Acta 86, no. 4 (2013): 351–61.
- H. Wiener, “Structural Determination of Paraffin Boiling Points,” Journal of the American Chemical Society 69, no. 1 (1947): 17–20.
- M. Deza, P. W. Fowler, A. Rassat, and K. M. Rogers, “Fullerenes as Tiling of Surfaces,” Journal of Chemical Information and Computer Sciences 40, no. 3 (2000): 550–8.
- P. D. Manuel, and I. Rajasingh, “Minimum Metric Dimension of Silicate Networks,”Ars Combinatoria 98, (2011): 501–10.
- Raj, F. S., & George, A. (2015, March). Network embedding on Planar Octahedron networks. In 2015 IEEE International Conference on Electrical, Computer and Communication Technologies (ICECCT) (pp. 1–6). IEEE.
- Diudea, M. V.; Gutman, I.; Lorentz, J. Molecular Topology; Babes-Bolyai University: Cluj-Napoca, Romania, 2001.
- Gutman, I.; Polansky, O.E. “Mathematical Concepts in Organic Chemistry; Springer: Berlin, Germany, 1986. Aximal Randi Indices,” Croatica Chemica Acta 75, no. 2 (2002), 357–369.
- M. Randić, “On Characterization of Molecular Branching,” Journal of the American Chemical Society 97, (1975): 6609–15.
- E. Estrada, L. Torres, L. Rodríguez, and I. Gutman, “An Atom-Bond Connectivity Index: Modelling the Enthalpy of Formation of Alkanes,” Indian Journal of Chemistry 37A, (1998): 849–55.
- D. Vukičević, and B. Furtula, “Topological Index Based on the Ratios of Geometrical and Arithmetical Means of End-Vertex Degrees of Edges,” Journal of Mathematical Chemistry 46, no. 4 (2009): 1369–76.
- M. Ghorbani, and M. A. Hosseinzadeh, “Computing ABC4 Index of Nanostar Dendrimers, Optoelectron,” Advanced Materials, Rapid Communications 4, (2010): 1419–22.
- A. Graovac, M. Ghorbani, and M. A. Hosseinzadeh, “Computing Fifth Geometric-Arithmetic Index for Nanostar Dendrimers,” Journal of Nanoscience and Nanotechnology 1, (2011): 33–42.
- H. Ali, and A. Sajjad, “On Further Results of Hex Derived Networks,” Open Journal of Discrete Applied Mathematics 2, no. 1 (2019): 32–40.
- H. Ali, M. A. Binyamin, M. K. Shafiq, and W. Gao, “On the Degree-Based Topological Indices of Some Derived Networks,” Mathematics 7, no. 7 (2019): 612.
- S. Akhtar, and M. Imran, “On Molecular Topological Properties of Benzenoid Structures,” Canadian Journal of Chemistry 94, (2016): 687698.
- A. Q. Baig, M. Imran, and H. Ali, “On Topological Indices of Poly Oxide, Poly Silicate, DOX, and DSL Networks,” Canadian Journal of Chemistry 93, no. 7 (2015): 730–9.
- W. Gao, A. Q. Baig, W. Khalid, and M. R. Farahani, “Molecular Description of Copper(II) Oxide. Maced,” Journal of Chemical Science and Chemical Engineering 36, (2017): 9399.
- M. Imran, A. Q. Baig, and H. Ali, “On Topological Properties of Dominating David Derived Networks,” Canadian Journal of Chemistry 94, no. 2 (2016): 137–48.
- F. Simonraj, and A. George, “Embedding of Poly Honeycomb Networks and the Metric Dimension of Star of David Network,” International Journal on Applications of Graph Theory in Wireless Ad Hoc Networks and Sensor Networks 4, no. 4 (2012): 11–28.
- G. H. Shirdel, H. Rezapour, and A. M. Sayadi, “The Hyper Zagreb Index of Graph Operations,” Iranian Journal of Mathematical Chemistry 4, (2013): 213220.
- C. C. Wei, H. Ali, M. A. Binyamin, M. N. Naeem, and J. B. Liu, “Computing Degree Based Topological Properties of Third Type of Hex-Derived Networks,” Mathematics 7, no. 4 (2019): 368.
- B. Furtula, & I. Gutman, “A forgotten topological index.” Journal of mathematical chemistry 53, no. 4 (2015): 1184-1190.