Application of metal, metal‐oxide, and silicon‐oxide based intermediate reflective layers for current matching in autonomous high‐voltage multijunction photovoltaic devices

Vrijer, Thierry de; Miedema, Sander; Blackstone, Thijs; Nijen, David van; Han, Can; Smets, Arno H. M.

doi:10.1002/pip.3600

Cited by 2 publications

(4 citation statements)

References 39 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…The presence of the interference peak likely results from the bottom of the honeycomb, which appears optically flat, as indicated by the relatively large specular component in the AID measurements of T honey . A spectral shift of the interference fringes has been demonstrated, for instance, as a function of the thickness of a n-nc-SiO X :H layers positioned between two junctions [5]. The difference between simulated and experimental results is therefore likely due to a difference in layer thicknesses.…”

Section: Influence Of Textures On Solar Cell Performancementioning

confidence: 96%

“…In these devices, a crystalline silicon junction is combined with additional junction(s) based on different PV technologies. However, many of these technologies, including nano-crystalline silicon [3][4][5], perovskites and C(I)GS materials [6][7][8], contain a crystalline phase which is incompatible with the relatively steep slopes of the conventional <111> crystal orientation. The formation of defective regions, or cracks, in the crystalline phase has been reported to occur in the focal point of perpendicular growth on steep features [9][10][11].…”

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

The optical performance of random and periodic textured mono crystalline silicon surfaces for photovoltaic applications

et al. 2022

View full text Add to dashboard Cite

Surface textures that result in high optical yields are crucial for high efficiency photovoltaic (PV) devices. In this work three different texturing approaches are presented that result in smooth concave structures devoid of sharp features. Such features can sustain the crack-free growth of device quality nano- to poly-crystalline materials such as nano-crystalline silicon, perovskites or C(I)GS, facilitating routes towards hybrid multijunction PV devices. A sacrificial implanted poly-c-Si layer is used to develop a random surface texture for the first texturing approach (Tsac). The influence of the processing conditions, such as layer thickness, implantation energy, dose and ion type, annealing time and temperature, of the sacrificial layer on the developed surface features is investigated. Additionally, a photolithographically developed honeycomb texture (Thoney) is presented. The influence of mask design on the honeycomb features is discussed and a relation is established between the honeycomb period and crack formation in nano-crystalline silicon layers. The reflective properties (spectral reflection, haze in reflection and angular intensity distribution) of these approaches are characterized and compared to a third texturing approach, Tsp, the result of chemically smoothened pyramidal <111> features. It was demonstrated that high optical scattering yields can be achieved for both Thoney and Tsp. Additionally, the performance of a-Si/nc-Si tandem devices processed onto the different textures is compared using both optical device simulations and real device measurements. Simulations demonstrate strong improvements in Jsc-sum (≈45%), in reference to a flat surface, and high Voc*FF of over 1 V are demonstrated for Tsp.

show abstract

Section: Influence Of Textures On Solar Cell Performancementioning

confidence: 96%

Section: Introductionmentioning

confidence: 99%

The optical performance of random and periodic textured mono crystalline silicon surfaces for photovoltaic applications

et al. 2022

View full text Add to dashboard Cite

show abstract

“…The study resulted in design rules for the integration of silicon-oxide based TRJs and provides fundamental insights into the sensitivity of the electrical performance of the TRJ's to doping concentrations, to alignment of the conduction and valence bands of consecutive sub-cells, to the nature of interface defects, to the growth of amorphous and crystalline phases and its dependence on substrate or seed layers and to the nanoscale thicknesses of the TRJ layers. Then, in [13], optimal current matching in MJ devices is investigated. Specifically, the influence was studied of variations in absorber thickness as well as thickness variations of different intermediate reflective layers based on SiOX, various transparent conductive oxides and metallic layers on all-silicon MJ PV devices.…”

Section: Multijunction Devicesmentioning

confidence: 99%

“…An EQE diagram of the champion device, including all three subcells as well as the sum of three subcells and 1-R curves (dashed line) is presented. From [13] In addition to the optimization of this particular device architecture, the flexible application of earth abundant and chemically inert silicon and silicon-germanium alloys is demonstrated in two distinct device architectures, as shown in Fig. 7, combining up to 4 different junctions, yielding a relatively continuous Voc range of 0.5V to 2.8V.…”

Section: Multijunction Devicesmentioning

confidence: 99%