Modeling of Two-Dimensional Anode Materials (Ge--Si)O2 for Alkali Metal (Li,Na,K, Rb,Cs) Incorporation Batteries for Clean Energy-Saving

MOLLAAMIN, Fatemeh

doi:10.55815/432994

Modeling of Two-Dimensional Anode Materials (Ge--Si)O2 for Alkali Metal (Li,Na,K, Rb,Cs) Incorporation Batteries for Clean Energy-Saving

Yazarlar (1)
Dr. Öğr. Üyesi Fatemeh MOLLAAMIN Kurum Bilgileri Mühendislik ve Mimarlık Fakültesi Biyomedikal Mühendisliği - Özgeçmiş Sayfası İletişim Bilgileri: kuzey kent Av Kastamonu Üniversitesi, Türkiye

Devamını Göster

Özet

Alkali metals of rubidium and cesium are studied through doping in lithium, sodium or potassium ion batteries. A vast study on H-capture by LiRb (Ge--Si)O2, LiCs(Ge--Si)O2, NaRb(Ge--Si)O2, NaCs(Ge--Si) O2, KRb(Ge--Si)O2, KCs(Ge--Si)O2, was carried out including using density functional theory (DFT) computations at the Coulomb-attenuating method--Becke, 3-parameter, Lee-Yang-Parr with Dispersion--corrected (CAM--B3LYP--D3/6--311+G (d,p))/6--311+G (d,p) level of theory. The hypothesis of the hydrogen adsorption phenomenon was figured out by density distributions of charge density differences (CDD), total density of states (TDOS) and electron localization function (ELF) for nanoclusters of "LiRb(Ge--Si)O2--2H2, LiCs(Ge--Si) O2--2H2, NaRb(Ge--Si)O2--2H2, NaCs(Ge--Si)O2--2H2, KRb(Ge--Si)O2--2H2, KCs(Ge--Si)O2--2H2. The differences of charge density for these structures are measured as: ΔQLiRb(Ge--Si)O2 = --0.002, ΔQLiCs(Ge--Si)O2 = --0.005, ΔQNaRb(Ge--Si)O2 = --0.001, ΔQNaCs(Ge--Si)O2 = --0.004, ΔQKRb(Ge--Si)O2= --0.001, ΔQKCs(Ge--Si)O2 = --0.007 coulomb. Therefore, the results have shown that the cluster of KCs(Ge--Si)O2, LiCs(Ge--Si)O2 and NaCs(Ge--Si)O2 may have the most tensity for electron accepting owing to hydrogen grabbing. A small portion of Rb or Cs entered the Ge--Si layer to replace the Li, Na or K sites might improve the structural stability of the electrode material at high multiplicity, thereby improving the capacity retention rate. Among these, potassium-ion batteries seem to show the most promise in terms of Rb or Cs doping. The general tendency that the gap values of these ionic semiconductors are increased as their ionicities are increased and alkali metal incorporation into (Ge--Si)O2 heterocluster will be hopeful to broaden its band-gap.

Anahtar Kelimeler

alkali metal-ion battery, materials modeling | Density of states | energy saving

Makale Türü	Özgün Makale
Makale Alt Türü	SCOPUS dergilerinde yayınlanan tam makale
Dergi Adı	Afinidad
Dergi ISSN	2339-9686 Wos Dergi Scopus Dergi
Dergi Tarandığı Indeksler	SCOPUS
Makale Dili	İngilizce
Basım Tarihi	01-2025
Cilt No	82
Sayı	606
Sayfalar	471 / 481
Doi Numarası	10.55815/432994
Makale Linki	HTTPS://DOI.ORG/10.55815/432994

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Modeling of Two-Dimensional Anode Materials (Ge--Si)O2 for Alkali Metal (Li,Na,K, Rb,Cs) Incorporation Batteries for Clean Energy-Saving

Akademisyenler > Fatemeh MOLLAAMIN > Yayın Detayı

Modeling of Two-Dimensional Anode Materials (Ge--Si)O2 for Alkali Metal (Li,Na,K, Rb,Cs) Incorporation Batteries for Clean Energy-Saving

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