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World Journal of Engineering Research and Technology

( An ISO 9001:2015 Certified International Journal )

An International Peer Reviewed Journal for Engineering Research and Technology

An Official Publication of Society for Advance Healthcare Research (Reg. No. : 01/01/01/31674/16)

ISSN 2454-695X

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Abstract

28.21 % (27.77 %)- HIGHEST EFFICIENCIES IN -ALLOY JUNCTION SOLAR CELLS AT 300 K, ACCORDING TO HIGHEST HOT RESERVOIR TEMPERATURES, (), OBTAINED FROM CARNOT-EFFICIENCY THEOREM. (XIII)

*Prof. Dr. Huynh Van Cong

ABSTRACT

In -alloy junction solar cells at T=300 K,, by basing on the same physical model and the same treatment method, as those used in our recent works[1,2], we will also investigate the maximal efficiencies, , obtained at the open circuit voltage according to highest hot reservoir temperatures, , obtained from the Carnot efficiency theorem, which was demonstrated by the use of the entropy law. In the present work, some concluding remarks are given in the following.(1) In the heavily doped emitter region, the effective density of electrons (holes), , given in parabolic conduction (valence) bands, expressed as functions of the total dense impurity density, , donor (acceptor)-radius, , and x-concentration, is defined in Eq. (9d), as: ), where is the Mott critical density in the metal-insulator transition, determined in Eq. (9a). Then, we have showed that (i) the origin of such the Mott’s criterium, Eq. (9a), is exactly obtained from the reduced effective Wigner-Seitz radius , characteristic of interactions, as given in Equations (9b, 9c), and further (ii) is just the density of electrons (holes) localized in the exponential conduction (valence)-band tail (EBT) as that demonstrated in.[1] In this work, N, given in[2], is now replaced by , representing the heavily doped compensated emitter region.(2) In Table 3n, for the alloy junction solar cell and for -radius, one obtains with increasing x=(0, 0.5, 1): = 28.21%, 26.90%, 25.67%, according to at , respectively.(3) In Table 5p, for the alloy junction solar cell and for -radius, one obtains with increasing x=(0, 0.5, 1): = 27.77%, 26.33%, 24.87%, according to at , respectively.

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