We report for the first time a successful fabrication and operation of an InAs/GaAs quantum dot based intermediate band solar cell concentrator photovoltaic (QD-IBSC-CPV) module to the IEC62108 standard with recorded power conversion efficiency of 15.3%. Combining the measured experimental results at Underwriters Laboratory (UL®) licensed testing laboratory with theoretical simulations, we confirmed that the operational characteristics of the QD-IBSC-CPV module are a consequence of the carrier dynamics via the intermediate-band at room temperature.
We have investigated a useful method of extracting the electrical parameters of each subcell in a multi-junction solar cell from bias-voltage-dependent spectral response data (SR-V) which are obtained without light bias. Colored bias lights are commonly employed for biasing the respective subcells except for the targeted subcell, which is to be characterized. The extracted parameters for each subcell are J0, dark saturation current; Rs, series resistance; Rsh, shunt resistance; and Jphoto, photo current. The program code for the analysis has been developed with a nonlinear least-square method, Powell Hybrid algorithm. It is shown that this algorithm results in a stable convergence and the experimental results on the dark current–voltage (I–V) characteristics and photo I–V curves can be reliably reproduced using the extracted electrical parameters using this method.
We report here the fabrication and characterization of GaAs tunnel diode (TD) and ErAs nanoparticles (Nps) enhanced GaAs TD. Four GaAs TDs with different contact area were fabricated by using MOCVD. We found extremely high peak current density of ∼250A/cm2 for the TD with r=0.25mm contact area. Moreover a hysteresis loop was appeared during sweeping up and sweeping down the external voltage. A ‘vector load line model’ was proposed to explain the origin of the shape of the hysteresis loop and the onset of the bistability occurred at the intersect of the loadline and the current-voltage (I-V) curve of TD. Meanwhile, we have grown ErAs Nps on GaAs(100) surface by using MBE and succeeded in overgrowth of GaAs after ErAs deposition. GaAs(p+)/ErAs(Nps)/GaAs(n+) TDs were fabricated and characterized. We found the GaAs sample containing 70s deposition of ErAs showed the best TD behavior. No TD behavior was observed for the sample without addition of ErAs Nps, clearly indicating the strong tunneling enhancement effect from ErAs Nps.
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