Application of nitrogen-doped graphene quantum dots composite with quinoline as a solar cells material

被引:0
|
作者
Zainul, Rahadian [1 ,2 ,13 ,14 ]
Basem, Ali [3 ]
Altayeh, Aiham O. [4 ]
Kumar, Nitin [5 ,6 ]
Sharma, Rohit [7 ,8 ]
Al-Bahrani, Mohammed [9 ]
Alqarni, Sondos Abdullah [10 ]
Islam, Saiful [11 ]
Yadav, Anupam [12 ]
机构
[1] Univ Negeri Padang, Fac Math & Nat Sci, Dept Chem, Padang, Indonesia
[2] Univ Negeri Padang, Ctr Adv Mat Proc Artificial Intelligence & Biophys, Padang, Indonesia
[3] Warith Al Anbiyaa Univ, Fac Engn, Karbala 56001, Iraq
[4] Al Amarah Univ Coll, Dept Petr Engn, Maysan, Iraq
[5] Jain Deemed to be Univ, Sch Sci, Dept Phys, Bengaluru 560069, Karnataka, India
[6] Vivekananda Global Univ, Dept Sci, Jaipur 303012, Rajasthan, India
[7] Shobhit Univ, Sch Engn & Technol, Gangoh 247341, Uttar Pradesh, India
[8] Arka Jain Univ, Dept Mech Engn, Jamshedpur 831001, Jharkhand, India
[9] Al Mustaqbal Univ, Chem Engn & Petr Ind Dept, Babylon 51001, Iraq
[10] King Khalid Univ, Dept Elect Engn, Abha, Saudi Arabia
[11] King Khalid Univ, Coll Engn, Civil Engn Dept, Abha, Saudi Arabia
[12] GLA Univ, Dept CEA, Mathura 281406, India
[13] INTI Int Univ, Nilai 71800, Negeri Sembilan, Malaysia
[14] Super Univ, Lahore, Pakistan
来源
PHYSICA B-CONDENSED MATTER | 2024年 / 690卷
关键词
Quinoline; Dye-sensitized solar cells; Graphene quantum dots; Light-harvesting efficiency; DYES; SENSITIZER; DSSCS; PERFORMANCE;
D O I
10.1016/j.physb.2024.416239
中图分类号
O469 [凝聚态物理学];
学科分类号
070205 ;
摘要
In order to adjust electrochemical and optical attributes that impact performance of dye-sensitized solar cells (DSSCs), photosensitizer has a critical role. Hence, it must meet crucial needs for effective operation of dyesensitized solar cells. Present work suggests quinoline (QNL) as a photosensitizer by modifying its attributes via hybridization accompanied by N-doped graphene quantum dots (NGQDs). In order to study electronic, optical, geometric attributes, density functional theory (DFT) and its time-dependent approach have been employed. In order to prove validity of chosen basis set and functional, available experimental data of parent QNL has been applied. Energy gap (Eg) of QNL has been considerably narrowed via hybridization. Hence, its absorption has been altered from ultraviolet range to visible range that corresponds to solar spectra. Furthermore, an increment of absorption intensity resulted in high light-harvesting efficiency (LHE) that can enhance generation of electrical current. Redox potential and conduction band have been suitably matched with energy levels of created dye nanocomposites, demonstrating possibility of electron regeneration and injection. Noted traits validate that described substances display appealing features, making them potentially suitable for use in DSSCs.
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页数:6
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