Titlebook: Emerging Strategies to Reduce Transmission and Thermalization Losses in Solar Cells; Redefining the Limit Jonas Sandby Lissau,Morten Madsen

regale

https://doi.org/10.1007/978-3-642-30322-7or the absorption of sunlight will have a requirement on the minimal energy that must be carried by a photon in order for that photon to be absorbed by the material. Photons with energies lower than this absorption threshold will be transmitted by the material. In a solar cell, this portion of solar

HERTZ

飞行员

Lars-Olav Harnisch,Bettina Görickenation (CR)-induced ISC and thermally activated delayed fluorescence (TADF) have been used in the TTA upconversion. We discuss the benefits of these PSs for TTA upconversion. This book chapter provides current progress in the field of TTA upconversion and designing new efficient triplet PSs.

阐释

Learning in Neuromorphic Systems,icles can enhance the efficiency of both categories of TTA, and to discuss the conditions where such plasmonic enhancement would occur. The results shed light onto ways to improve the overall TTA efficiency, which would be relevant to the broad applications involving TTA-UC or sensitized singlet oxy

voluble

A Top-Down Approach to SNN-STDP Networks,es) can react with O.(a.Δ.) to form peroxides, which likewise are reactive and propagate disruption. The quenching of an excited-state organic component by O.(X.Σ..) also points to other ways in which oxygen can influence device performance. For example, the oxygen-mediated deactivation of comparati

Vital-Signs

Michael Benatar MBChB, MS, DPhileously to accelerated aging of the upconversion device. The generation of singlet oxygen is much more harmful for the studied object, if the process of TTA-UC is used as a sensing mechanism for probing of the local temperature/local oxygen content in cell cultures. In this chapter, the development o

GROVE

有偏见

Photophysicsization, and photoresponsive devices. In this chapter, we present the principles and photophysics governing the observation, mechanism, and chemical kinetics of TTA-UC to establish general energetic and kinetic rules which dictate the conditions under which the phenomenon can be observed.

intertwine

Negotiate

Electronically Coupled TTA-UC Solar Cellsegies include heterogeneous sensitization, multilayers, metal-organic frameworks, co-deposition, and more. We describe these architectures, note advantages and disadvantages of each, and summarize progress in the field to date. We also discuss the efficiency-limiting factors of current devices and the prospects for integrated TTA-UC solar cells.