Publications by authors named "Ching-Ying Lu"
Article Synopsis
- The paper presents the use of metal oxides, specifically nickel oxide (NiO) and titanium oxide (TiO), as carrier-selective contacts in ultrathin crystalline silicon solar cells, leading to about a 13% increase in efficiency.
- An ultrathin c-Si solar cell, only 2 μm thick, achieves efficiency over 10% without light-trapping, thanks to NiO's unique band offsets that reduce contact recombination.
- The integration process for both NiO and TiO is scalable and compatible with existing manufacturing techniques, enabling a champion efficiency of 10.8% when both materials are used.
Silicon single-photon avalanche detectors are becoming increasingly significant in research and in practical applications due to their high signal-to-noise ratio, complementary metal oxide semiconductor compatibility, room temperature operation, and cost-effectiveness. However, there is a trade-off in current silicon single-photon avalanche detectors, especially in the near infrared regime. Thick-junction devices have decent photon detection efficiency but poor timing jitter, while thin-junction devices have good timing jitter but poor efficiency.
View Article and Find Full Text PDFIn this study, we have successfully demonstrated that a GaN nanowire (GaNNW) based extended-gate field-effect-transistor (EGFET) biosensor is capable of specific DNA sequence identification under label-free in situ conditions. Our approach shows excellent integration of the wide bandgap semiconducting nature of GaN, surface-sensitivity of the NW-structure, and high transducing performance of the EGFET-design. The simple sensor-architecture, by direct assembly of as-synthesized GaNNWs with a commercial FET device, can achieve an ultrahigh detection limit below attomolar level concentrations: about 3 orders of magnitude higher in resolution than that of other FET-based DNA-sensors.
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