quantum efficiency การใช้
- The throughput is kept high by using high quantum efficiency CCDs.
- Charge recombination causes a drop in the external quantum efficiency.
- For perovskite solar cells, the internal quantum efficiency approaches 100 %.
- In quantum efficiency terms, DSSCs are extremely efficient.
- Current organic photovoltaics have shown 70 % of quantum efficiency for blue photons.
- This increases the quantum efficiency of the cell.
- Reflectance losses are a portion of quantum efficiency under " external quantum efficiency ".
- Reflectance losses are a portion of quantum efficiency under " external quantum efficiency ".
- A consequence is that the quantum efficiency of a thick device is extremely low.
- This shows for an optimum value of quantum efficiency the bandwidth has to sacrifice.
- This enhances transport of electrons and internal quantum efficiency ( IQE ) and photocurrent.
- Film morphology can also have a drastic effect on the quantum efficiency of the device.
- See Quantum efficiency of a solar cell.
- Improved quantum efficiency gives less power consumption.
- The RCE photodetectors are expected to have higher quantum efficiency ? than compare to conventional photodiodes.
- In actual practice, non-enzymatic reactions seldom exceed 1 % Q C, quantum efficiency.
- The external quantum efficiency therefore depends on both the absorption of light and the collection of charges.
- This is because of the large spectral range of HgCdTe detectors and also the high quantum efficiency.
- Recombination losses make up another portion of quantum efficiency, V OC ratio, and fill factor.
- Improvements to the detector are planned, adding light collecting mirrors and PMTs with higher quantum efficiency.
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