Terahertz photonics

Plasmonic-induced photon recycling in metal halide perovskite solar cells

Advanced Functional Materials Wiley 25:31 (2015) 5038-5046

Authors:

M Saliba, W Zhang, Victor Burlakov, Michael Johnston, Alain Goriely, Henry Snaith, Et al.

Abstract:

Organic–inorganic metal halide perovskite solar cells have emerged in the past few years to promise highly effi cient photovoltaic devices at low costs. Here, temperature-sensitive core–shell Ag@TiO 2 nanoparticles are successfully incorporated into perovskite solar cells through a low-temperature processing route, boosting the measured device efficiencies up to 16.3%. Experimental evidence is shown and a theoretical model is developed which predicts that the presence of highly polarizable nanoparticles enhances the radiative decay of excitons and increases the reabsorption of emitted radiation, representing a novel photon recycling scheme. The work elucidates the complicated subtle interactions between light and matter in plasmonic photovoltaic composites. Photonic and plasmonic schemes such as this may help to move highly efficient perovskite solar cells closer to the theoretical limiting efficiencies.

Progress on THz Applications for Plasma Diagnostics

Institute of Electrical and Electronics Engineers (IEEE) (2015) 1-2

Authors:

M Zerbini, F Causa, A Doria, GP Gallerano, E Giovenale, AA Tuccillo, G Galatola-Teka, Francesco Curtaia, M Johnston

Terahertz Spectroscopy of Modulation Doped Core-Shell GaAs/AlGaAs Nanowires

Institute of Electrical and Electronics Engineers (IEEE) (2015) 1-1

Authors:

Jessica L Boland, Sonia Conesa-Boj, G Tütüncouglu, F Matteini, D Rüffer, A Casadei, F Gaveen, F Amaduzzi, P Parkinson, C Davies, HJ Joyce, LM Herz, A Fontcuberta I Morral, Michael B Johnston

Enhanced Amplified Spontaneous Emission in Perovskites using a Flexible Cholesteric Liquid Crystal Reflector

Nano letters American Chemical Society 15:8 (2015) 4935-4941

Authors:

Samuel D Stranks, Simon M Wood, Konrad Wojciechowski, Felix Deschler, Michael Saliba, Hitesh Khandelwal, Jay B Patel, Steve J Elston, Laura Herz, Michael Johnston, Albertus PHJ Schenning, Michael G Debije, Moritz Riede, Stephen M Morris, Henry J Snaith

Abstract:

Organic-inorganic perovskites are highly promising solar cell materials with laboratory-based power conversion efficiencies already matching those of established thin film technologies. Their exceptional photovoltaic performance is in part attributed to the presence of efficient radiative recombination pathways, thereby opening up the possibility of efficient light-emitting devices. Here, we demonstrate optically pumped amplified spontaneous emission (ASE) at 780 nm from a 50 nm-thick film of CH3NH3PbI3 perovskite that is sandwiched within a cavity composed of a thin-film (∼7 μm) cholesteric liquid crystal (CLC) reflector and a metal back-reflector. The threshold fluence for ASE in the perovskite film is reduced by at least two orders of magnitude in the presence of the CLC reflector, which results in a factor of two reduction in threshold fluence compared to previous reports. We consider this to be due to improved coupling of the oblique and out-of-plane modes that are reflected into the bulk in addition to any contributions from cavity modes. Furthermore, we also demonstrate enhanced ASE on flexible reflectors and discuss how improvements in the quality factor and reflectivity of the CLC layers could lead to single-mode lasing using CLC reflectors. Our work opens up the possibility of fabricating widely wavelength-tunable "mirror-less" single-mode lasers on flexible substrates, which could find use in applications such as flexible displays and friend or foe identification.

In(x)Ga(1-x)As nanowires with uniform composition, pure wurtzite crystal phase and taper-free morphology.

Nanotechnology 26:20 (2015) 205604

Authors:

Amira S Ameruddin, H Aruni Fonseka, Philippe Caroff, Jennifer Wong-Leung, Roy LM Op het Veld, Jessica L Boland, Michael B Johnston, Hark Hoe Tan, Chennupati Jagadish

Abstract:

Obtaining compositional homogeneity without compromising morphological or structural quality is one of the biggest challenges in growing ternary alloy compound semiconductor nanowires. Here we report growth of Au-seeded InxGa1-xAs nanowires via metal-organic vapour phase epitaxy with uniform composition, morphology and pure wurtzite (WZ) crystal phase by carefully optimizing growth temperature and V/III ratio. We find that high growth temperatures allow the InxGa1-xAs composition to be more uniform by suppressing the formation of typically observed spontaneous In-rich shells. A low V/III ratio results in the growth of pure WZ phase InxGa1-xAs nanowires with uniform composition and morphology while a high V/III ratio allows pure zinc-blende (ZB) phase to form. Ga incorporation is found to be dependent on the crystal phase favouring higher Ga concentration in ZB phase compared to the WZ phase. Tapering is also found to be more prominent in defective nanowires hence it is critical to maintain the highest crystal structure purity in order to minimize tapering and inhomogeneity. The InP capped pure WZ In0.65Ga0.35As core-shell nanowire heterostructures show 1.54 μm photoluminescence, close to the technologically important optical fibre telecommunication wavelength, which is promising for application in photodetectors and nanoscale lasers.