2013
DOI: 10.1364/ome.3.001777
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Modeling of InGaN p-n junction solar cells

Abstract: InGaN p-n junction solar cells with various indium composition and thickness of upper p-InGaN and lower n-InGaN junctions are investigated theoretically. The physical properties of InGaN p-n junction solar cells, such as the short circuit current density (J SC), open circuit voltage (V oc), fill factor (FF), and conversion efficiency (η), are theoretically calculated and simulated by varying the device structures, position of the depletion region, indium content, and photon penetration depth. The results indic… Show more

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Cited by 37 publications
(32 citation statements)
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“…4 (d) it indicates a weak field site which is consistent with the emission, absorption and lifetime measurements. In a tetrahedral d 2 configuration the 3 A 2 ( 3 F)> 3 T 2 ( 3 F) transition is expected to be significantly weaker than the other two spin-allowed transitions because it is only magnetic dipole allowed [7,45], however this is not evident from the derivative absorption and PLE spectra of V:GLS, this indicates that V:GLS, may not have a tetrahedral d 2 configuration.…”
Section: Octahedral D 3 Configurationmentioning
confidence: 97%
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“…4 (d) it indicates a weak field site which is consistent with the emission, absorption and lifetime measurements. In a tetrahedral d 2 configuration the 3 A 2 ( 3 F)> 3 T 2 ( 3 F) transition is expected to be significantly weaker than the other two spin-allowed transitions because it is only magnetic dipole allowed [7,45], however this is not evident from the derivative absorption and PLE spectra of V:GLS, this indicates that V:GLS, may not have a tetrahedral d 2 configuration.…”
Section: Octahedral D 3 Configurationmentioning
confidence: 97%
“…Table 2 gives the energy matrix for the 1 E( 1 D, 1 G) state. Diagonalizing the matrix in Table 2 and dividing by B gives: (7) and (8) In Tanabe-Sugano diagrams, the energy term of the lowest energy level, in this case E( 3 A 2 ( 3 F))/B=-12Dq/B-8, is subtracted from the energy terms of all the energy levels, as has been done in Eqs. 9 to 12 for the energy levels of interest i.e.…”
Section: Tetrahedral D 2 Configurationmentioning
confidence: 99%
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“…Hence, homojunction devices would be essential to achieve higher efficiencies because employing p-i-n structures could eliminate the polarization effects. Homojunction In 0.60 Ga 0.40 N p-n junctions with optimal device designs are predicted to be 21.5% efficiency under AM1.5g conditions (Feng et al 2013). InGaN based p-i-n solar cells with InGaN as the intrinsic layer between GaN and with graded indium composition up to 50% could lead to theoretical efficiency of 18.53% under AM1.5 (Mahala et al 2013).…”
Section: Lattice-mismatched Ingan-on-simentioning
confidence: 99%
“…3 The material has a larger peak electron velocity, larger saturation velocity, higher breakdown voltage, and thermal stability, making it highly suitable for use as a channel material in microwave power devices. 4,5 Applications of InGaN include LEDs, laser diodes, [6][7][8] solar cells, [9][10][11] and photodetectors. Much interest has been focused on InGaN/GaN multi quantum wells (MQWs) because of their utility as the active layer in high-brightness III-nitride LEDs and continuous-wave (CW) blue-green laser diodes (LDs).…”
Section: Introductionmentioning
confidence: 99%