Bounds on Nirmala energy of graphs

[1] O. Arizmendi, O. Juarez-Romero, On bounds for the energy of graphs and di-graphs, Contributions of Mexican Mathematicians Abroad in Pure and Applied Mathematics 709 (2018) 1–19. ⇒31110.1090/conm/709/14288 Search in Google Scholar

[2] G. Arizmendi,O. Arizmendi Energy of a graph and Randic index, Linear Algebra Appl. 609 (2021) 332–338. ⇒31110.1016/j.laa.2020.09.025 Search in Google Scholar

[3] W. Dang, et al., A novel time-frequency multilayer network for multivariate time series analysis, New Journal of Physics 20 (2018) 125005. ⇒30310.1088/1367-2630/aaf51c Search in Google Scholar

[4] K.C. Das, S. Elumalai, On energy of graphs, MATCH Commun. Math. Comput. Chem. 77 (2017) 3–8. ⇒303, 312 Search in Google Scholar

[5] K.C. Das,P. Kumar, Some new bounds on the spectral radius of graphs, Discrete Math. 281 (2004) 149–161. ⇒30610.1016/j.disc.2003.08.005 Search in Google Scholar

[6] K.C. Das,A.S.Çevik,I.N. Cangul,Y. Shang, On Sombor index, Symmetry 13 (2021) 140. ⇒30210.3390/sym13010140 Search in Google Scholar

[7] S.S. Dragomir, A survey on Cauchy-Bunyakovsky-Schwarz type discrete inequalities, J. Inequal. Pure Appl. Math. 4, 3 (2003) 1–142. ⇒312 Search in Google Scholar

[8] K. Fan, Maximum properties and inequalities for the eigenvalues of completely continuous operators, Proc. Natl. Acad. Sci. U.S.A 37, 11 (1951) 760–766. ⇒ 30910.1073/pnas.37.11.760106346416578416 Search in Google Scholar

[9] I. Gutman,E. Milovanović,I. Milovanović, Beyond the Zagreb indices, AKCE Int. J. Graphs Comb. 17, 1 (2020) 74–85. ⇒30310.1016/j.akcej.2018.05.002 Search in Google Scholar

[10] E. Musulin, Process disturbances detection via spectral graph analysis, Computer Aided Chemical Engineering 33 (2014) 1885–1890. ⇒30310.1016/B978-0-444-63455-9.50149-5 Search in Google Scholar

[11] I. Gutman, V.R. Kulli, Nirmala energy, Open Journal of Discrete Applied Mathematics 4, 2 (2021) 11-16. ⇒303, 304, 305, 308, 31310.30538/psrp-odam2021.0055 Search in Google Scholar

[12] I. Gutman, N. Trinajstić, Graph theory and molecular orbitals. Total π-electron energy of alternant hydrocarbons, Chem. Phys. Lett. 17 (1972) 535–538. ⇒302, 30310.1016/0009-2614(72)85099-1 Search in Google Scholar

[13] I. Gutman, The energy of a graph, 10. Steierm¨arkisches Mathematisches Symposium, Ber. Math.-Statist. Sekt. Forsch. Graz 103 1978, pp.1–22. ⇒303 Search in Google Scholar

[14] I. Gutman, E.A. Martins, M. Robbiano et al., Ky Fan theorem applied to Randić energy, Linear Algebra Appl. 459 (2014) 23–42. ⇒30910.1016/j.laa.2014.06.051 Search in Google Scholar

[15] R.A. Horn, C.R. Johnson, Matrix Analysis, Cambridge University Press, New York, USA, 1985. ⇒303 Search in Google Scholar

[16] A. Jahanbani, R. Khoeilar, H. Shooshtari, On the Zagreb matrix and Zagreb energy, Asian-Eur. J. Math. 15, 1 (2022) 2250019. ⇒30310.1142/S179355712250019X Search in Google Scholar

[17] V.R. Kulli, Nirmala index, International Journal of Mathematics Trends and Technology, 67, 3 (2021) 8–12. ⇒302, 30310.14445/22315373/IJMTT-V67I3P502 Search in Google Scholar

[18] V.R. Kulli, I. Gutman, On some mathematical properties of Nirmala index, Annals of Pure and Applied Mathematics 23, 2 (2021) 93–99. ⇒30310.22457/apam.v23n2a06822 Search in Google Scholar

[19] R. Liu, W.C. Shiu, General Randić matrix and general Randić incidence matrix, Discret. Appl. Math. 186, C (2015) 168–175. ⇒30510.1016/j.dam.2015.01.029 Search in Google Scholar

[20] V. Nikiforov, The energy of graphs and matrices, J. Math. Anal. Appl. 326, 2 (2007) 1472–1475. ⇒30910.1016/j.jmaa.2006.03.072 Search in Google Scholar

[21] H. Richter, Properties of network structures, structure coefficients and benefitto-cost ratios, BioSystems 180 (2019) 88–100. ⇒30310.1016/j.biosystems.2019.03.00530914346 Search in Google Scholar

[22] H. Wiener, Structural determination of paraffin boiling points, Journal of the American Chemical Society 69, 1 (1947) 17–20. ⇒30210.1021/ja01193a00520291038 Search in Google Scholar

[23] N.F. Yalçın, On Seidel Laplacian matrix and energy of graphs, Acta Universitatis Sapientiae Informatica 14, 1 (2022) 104–118. ⇒30310.2478/ausi-2022-0007 Search in Google Scholar