Correlation Between Fermi-Energy, Chemical Shifts, and Surface Plasmon Resonance in Cu and Zn Compounds under X-ray Illumination

Tika Ram; Ajay Kumar; Dinesh Kumar; Poonam Juneja; Sanjeev Rathore; Hari Krishan; Narinder Kumar

Correlation Between Fermi-Energy, Chemical Shifts, and Surface Plasmon Resonance in Cu and Zn Compounds under X-ray Illumination

Publish place: The Progress in Physics of Applied Materials، Vol: 6، Issue: 2

Publish Year: 1405

نوع سند: مقاله ژورنالی

زبان: English

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https://civilica.com/doc/2452443

شناسه ملی سند علمی:

JR_PPAM-6-2_002

تاریخ نمایه سازی: 19 آذر 1404

Abstract:

This study represents an integrated theoretical framework that correlates copper (Cu) and zinc (Zn) compounds with variation in Fermi energy, chemical shifts, and surface plasmon resonance (SPR) under X-ray illumination. A simplified but conscientious model was developed to determine chemical shifts in X-ray K-absorption spectra based on Fermi energy differences between metals and their compound states. The model incorporates electron concentration, plasmon energy, and effective charge to predict more clearly the sign as well as the amount of chemical shift without depending on empirical adaptation. Experimental X-ray absorption data closely match the expected chemical shifts (۲.۷-۶.۰ eV for Cu compounds and ۲.۴-۴.۷ eV for Zn compounds), confirming the model's reliability. A correlation between Fermi energy and effective charge confirms that electron redistribution of compounds governs spectral edge shifts under X-ray illumination. Furthermore, the conceptual link between Fermi-level modulation and SPR behavior illustrates that variations in conduction electron density are influenced by X-ray illumination. This correlation reveals a consistent theoretical explanation for photo-induced plasmonic phenomena in Cu, Zn, and their compounds based materials. Overall, the suggested model enhances perception of the Fermi energy dependence of chemical shifts and extends its applicability to plasmonic materials. The current study offers a frontier analysis tool that will be used for the electronic and optical properties of transition-metal compounds.

Keywords:

Chemical shift , Fermi energy , surface plasmon resonance , Plasmon energy , X-ray illumination

Authors

Tika Ram

Department of Physics, Uttaranchal Institute of Technology, Uttaranchal University, Dehradun-۲۴۸۰۰۷, Uttarakhand, India

Ajay Kumar

Department of Chemistry, School of Applied and Life Sciences, Uttaranchal Institute of Technology, Uttaranchal University, Dehradun-۲۴۸۰۰۷, Uttarakhand, India

Dinesh Kumar

Uttar Pradesh State of Higher Education Council, Lucknow, Uttar Pradesh, India

Poonam Juneja

Department of Physics, Maitreyi College, University of Delhi, Delhi, India

Sanjeev Rathore

Department of Physics, Government Degree College, Badaun, -۲۴۳۶۰۱, Uttar Pradesh, India

Hari Krishan

Department of Chemistry, Michigan Diagnostic LLC, ۲۶۱۱ Parmenter Blvd, Royal Oak, MI, USA ۴۸۰۷۳.

Narinder Kumar

Department of Physics, Uttaranchal Institute of Technology, Uttaranchal University, Dehradun-۲۴۸۰۰۷, Uttarakhand, India

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Agarwal, B.K. and Verma, L.P., ۱۹۷۰. A rule for chemical ...
Pan, J., Gao, B., Guo, K., Gao, Y., Xu, X. ...
Singh, V.P., Singh, S., Singh, D.P., Singh, P., Tiwari, K., ...
Kawata, S. and Maeda, K., ۱۹۷۳. Effects of chemical combination ...
Salem, S.I., Chang, C.N., Lee, P.L. and Severson, V., ۱۹۷۸. ...
Joseph, D., Basu, S., Jha, S.N. and Bhattacharyya, D., ۲۰۱۲. ...
Joseph, D. and Patra, N., ۲۰۱۷. Chemical shift at the ...
Rudolph, J. and Jacob, C.R., ۲۰۱۸. Revisiting the dependence of ...
Batail, P., ۲۰۰۴. Introduction: molecular metals. Chemical Reviews, ۱۰۴(۱۱), pp.۴۸۸۷–۴۸۹۰ ...
Pendharkar, A.V. and Mande, C., ۱۹۷۳. Fine structure of the ...
Tzeng, C.T., Lo, W.S., Yuh, J.Y., Chu, R.Y. and Tsuei, ...
Solomon, E.I., Hedman, B., Hodgson, K.O., Dey, A. and Szilagyi, ...
Ma, Q., Prater, J.T., Sudakar, C., Rosenberg, R.A. and Narayan, ...
Zhao, W., Wen, L., Parkin, I.P., Zhao, X. and Liu, ...
Dekker, A.J., ۲۰۱۷. Solid State Physics. Macmillan Indian Ltd ...
Pines, D., ۲۰۱۸. Elementary Excitations in Solids. CRC Press ...
Elzinga, E.J. and Reeder, R.J., ۲۰۰۲. X-ray absorption spectroscopy study ...
Minamimoto, H., Yasuda, K., Zhou, R., Li, X., Yasuda, S. ...
Saxena, N.N., Gupta, S.N. and Anihindi, R.G., ۱۹۷۴. Chemical shift ...
Zhao, X.Z., Jiang, T., Wang, L., Yang, H., Zhang, S. ...
Verma, L.P. and Agarwal, B.K., ۱۹۶۸. Shifts in the X-ray ...
Li, Y. and Korzhavyi, P.A., ۲۰۱۷. Physical and chemical properties ...
Rößler, N. and Staemmler, V., ۲۰۰۳. Ab initio calculations for ...
Morton, S.M., Silverstein, D.W. and Jensen, L., ۲۰۱۱. Theoretical studies ...
Halas, N.J., Lal, S., Chang, W.S., Link, S. and Nordlander, ...
Srivastava, K.S., Singh, S., Gupta, P., Srivastava, A.K., Kumar, V., ...
Akbari-Moghanjoughi, M., ۲۰۲۳. Energy Band Structure of Relativistic Quantum Plasmon ...
Baker, M.L., Mara, M.W., Yan, J.J., Hodgson, K.O., Hedman, B. ...
Saxena, N.N., Gupta, S.N. and Anihindi, R.G., ۱۹۷۴. Chemical shift ...
Verma, L.P. and Agarwal, B.K., ۱۹۶۸. Shifts in the X-ray ...
Paterson, P.J.K. and Leckey, R.C.G., ۱۹۷۴. Characteristic energy losses in ...
Velu, S., Suzuki, K., Vijayaraj, M., Barman, S. and Gopinath, ...
Krishchenko, I.M., Manoilov, É.G., Kravchenko, S.A. and Snopok, B.A., ۲۰۲۰. ...
Huang, H.B., Yu, K., Zhang, N., Xu, J.Y., Yu, X.T., ...
Jian, C.C., Zhang, J. and Ma, X., ۲۰۲۰. Cu–Ag alloy ...
Leon, D.A., Cardoso, C. and Berland, K., ۲۰۲۵. Bulk plasmons ...
Raether, H. (۲۰۰۶). Excitation of plasmons and interband transitions by ...
Vehse, R.C. and Arakawa, E.T., ۱۹۶۹. Optical and photoemissive properties ...
Philipp, H.R. and Ehrenreich, H., ۱۹۶۳. Optical properties of semimetals. ...
Tomaev, V.V., Polishchuk, V.A., Vartanyan, T.A. and Vasil’ev, E.A., ۲۰۱۹. ...
Amekura, H., Shinotsuka, H. and Yoshikawa, H., ۲۰۱۷. Are the ...
Derkachova, A., Kolwas, K. and Demchenko, I., ۲۰۱۶. Dielectric function ...
Saxena, N.N., Gupta, S.N. and Anihindi, R.G., ۱۹۷۴. Chemical shift ...
Verma, L.P. and Agarwal, B.K., ۱۹۶۸. Shifts in the X-ray ...
Chaboy, J., Muñoz-Páez, A., Carrera, F., Merkling, P. and Marcos, ...
Levlev, V.M. and Shvedov, E.V., ۲۰۱۸. Physics of the Solid ...
Matsumoto, Y., Katayama, M., Abe, T., Ohsawa, T., Ohkubo, I., ...
Gorai, S.K. and Mahto, P., ۲۰۱۳. Correlation between ground state ...
Link, S. and El-Sayed, M.A., ۱۹۹۹. Size and temperature dependence ...
Brouder, C., Alouani, M. and Arnaud, B., ۲۰۰۴. Electronic structure ...
Stebunov, Y.V., Yakubovsky, D.I., Fedyanin, D.Y., Arsenin, A.V. and Volkov, ...
Stern, E.A. and Ferrell, R.A., ۱۹۶۰. Surface plasma oscillations of ...
Lal, S., Link, S. and Halas, N.J., ۲۰۰۷. Nano-optics from ...
Geetha, P.P., Ramachandran, A. and Nair, S.S., ۲۰۲۰. Tuning of ...
Cortez-Valadez, M., Bocarando-Chacon, J.G., Hernández-Martínez, A.R., Hurtado, R.B., Alvarez, R.A., ...
Indhu, A.R., Dharanya, C. and Dharmalingam, G., ۲۰۲۴. Plasmonic copper: ...
Pillai, A.M., Nair, N., Das, M.K. and Ram, S.K., ۲۰۲۵. ...
Park, B.K., Jeong, S., Kim, D., Moon, J., Lim, S. ...
Devasenathipathy, R., Wu, D.Y. and Tian, Z.Q., ۲۰۱۹. Surface plasmon ...
Liu, J., Jalali, M., Mahshid, S. and Wachsmann-Hogiu, S., ۲۰۲۰. ...
Reddy, K.R., Hassan, M. and Gomes, V.G., ۲۰۱۵. Hybrid nanostructures ...
Hutter, E. and Fendler, J.H., ۲۰۰۴. Exploitation of localized surface ...
Jiang, Q., Ji, C., Riley, D.J. and Xie, F., ۲۰۱۸. ...
Tomaev, V.V., Polishchuk, V.A., Vartanyan, T.A. and Vasil’ev, E.A., ۲۰۱۹. ...
Ievlev, V.M. and Shvedov, E.V., ۲۰۰۶. Kinetics of formation of ...
Amekura, H., Shinotsuka, H. and Yoshikawa, H., ۲۰۱۷. Are the ...
Rajamanickam, U., Mylsamy, P., Viswanathan, S. and Muthusamy, P., ۲۰۱۲. ...
Singh, S.C. and Gopal, R., ۲۰۰۷. Zinc nanoparticles in solution ...

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