Four-junction wafer-bonded concentrator solar cells
F Dimroth, TND Tibbits, M Niemeyer… - IEEE Journal of …, 2015 - ieeexplore.ieee.org
The highest solar cell conversion efficiencies are achieved with four-junction devices under
concentrated sunlight illumination. Different cell architectures are under development, all …
concentrated sunlight illumination. Different cell architectures are under development, all …
Metalorganic vapor phase epitaxy of III–V-on-silicon: Experiment and theory
O Supplie, O Romanyuk, C Koppka, M Steidl… - Progress in Crystal …, 2018 - Elsevier
The integration of III–V semiconductors with Si has been pursued for more than 25 years
since it is strongly desired in various high-efficiency applications ranging from …
since it is strongly desired in various high-efficiency applications ranging from …
Additively manufactured RF components and modules: Toward empowering the birth of cost-efficient dense and ubiquitous IoT implementations
In this review, the particular importance and associated opportunities of additively
manufactured radiofrequency (RF) components and modules for Internet of Things (IoT) and …
manufactured radiofrequency (RF) components and modules for Internet of Things (IoT) and …
High-efficiency III–V multijunction solar cells
SP Philipps, F Dimroth, AW Bett - McEvoy's handbook of photovoltaics, 2018 - Elsevier
This chapter discusses solar cells made of III–V semiconductors, and how they have
reached efficiencies of over 46% in 2016, the highest of any photovoltaic technology to date …
reached efficiencies of over 46% in 2016, the highest of any photovoltaic technology to date …
High-performance bifacial perovskite/silicon double-tandem solar cell
Bifacial technology aims to boost power conversion efficiency of solar cells by effectively
harvesting the albedo sunlight reflected from the earth, which is typically uncollected in …
harvesting the albedo sunlight reflected from the earth, which is typically uncollected in …
Flexible four-junction inverted metamorphic AlGaInP/AlGaAs/In0. 17Ga0. 83As/In0. 47Ga0. 53As solar cell
X Huang, J Long, D Wu, S Ye, X Li, Q Sun… - Solar Energy Materials …, 2020 - Elsevier
A flexible four-junction (4 J) AlGaInP/AlGaAs/In 0.17 Ga 0.83 As/In 0.47 Ga 0.53 As solar cell
with the band gap energy of 1.92/1.53/1.18/0.82 eV was fabricated. Taking advantages of …
with the band gap energy of 1.92/1.53/1.18/0.82 eV was fabricated. Taking advantages of …
Degradation characteristics of electron and proton irradiated InGaAsP/InGaAs dual junction solar cell
XF Zhao, A Aierken, M Heini, M Tan, YY Wu… - Solar energy materials …, 2020 - Elsevier
The degradation characteristics of MOCVD grown InGaAsP/InGaAs dual junction solar cells,
irradiated by 1 MeV electron, 3 MeV and 10 MeV proton, have been investigated. Main …
irradiated by 1 MeV electron, 3 MeV and 10 MeV proton, have been investigated. Main …
New module design with 4-junction solar cells for high efficiencies
S van Riesen, M Neubauer, A Boos, MM Rico… - AIP Conference …, 2015 - pubs.aip.org
CPV systems using 3-junction solar cells have proven good performance and reliability. As
the performance of 3-junction cells is saturating [1], the logical next step is the introduction of …
the performance of 3-junction cells is saturating [1], the logical next step is the introduction of …
Low power design for future wearable and implantable devices
With the fast progress in miniaturization of sensors and advances in micromachinery
systems, a gate has been opened to the researchers to develop extremely small …
systems, a gate has been opened to the researchers to develop extremely small …
In situ characterization of interfaces relevant for efficient photoinduced reactions
Solar energy conversion and photoinduced bioactive sensors are representing topical
scientific fields, where interfaces play a decisive role for efficient applications. The key to …
scientific fields, where interfaces play a decisive role for efficient applications. The key to …