Prof Michael Johnston

The Importance of Interface Morphology for Hysteresis-Free Perovskite Solar Cells

Fundacio Scito (2017)

Authors:

Jay Patel, Jennifer Wong-Leung, Stephan Van Reenen, Nobuya Sakai, Jacob Wang, Elizabeth Parrott, Mingzhen Liu, Henry Snaith, Laura Herz, Michael Johnston

Modulation of terahertz polarization on picosecond timescales using polymer-encapsulated semiconductor nanowires

Conference on Lasers and Electro-Optics (CLEO 2017) Optical Society of America 2017-January (2017) 1-2

Authors:

Jessica Boland, Djamshid Damry, HH Tan, C Jagadish, HJ Joyce, Michael Johnston

Abstract:

We exploit the photoconductivity of semiconductor nanowires to achieve ultrafast broad-bandwidth modulation of THz pulses. A modulation depth of -8 dB was exhibited by a polarizer consisting of 14 layers of nanowires encapsulated in polymer.

Modulation of terahertz polarization on picosecond timescales using polymer-encapsulated semiconductor nanowires

2017 Conference on Lasers and Electro-Optics, CLEO 2017 - Proceedings 2017-January (2017) 1-2

Authors:

SA Baig, JL Boland, DA Damry, H Hoe Tan, C Jagadish, HJ Joyce, MB Johnston

Abstract:

We exploit the photoconductivity of semiconductor nanowires to achieve ultrafast broad-bandwidth modulation of THz pulses. A modulation depth of -8 dB was exhibited by a polarizer consisting of 14 layers of nanowires encapsulated in polymer.

THz modulators and detectors based on semiconductor nanowires

2017 42nd International Conference on Infrared, Millimeter, and Terahertz Waves (IRMMW-THz) IEEE (2017)

Abstract:

Semiconductors nanowires have to potential to be building blocks for future nano-optoelectronic devices. We have recently demonstrated high performance THz photonic devices based on GaAs and InP nanowires. These include ultrafast optically switched modulators of THz radiation and single nanowire photoconductive detectors of THz pulses.

Unveiling the influence of pH on the crystallization of hybrid perovskites, felivering low voltage loss photovoltaics

Joule Cell Press 1:2 (2017) 328-343

Authors:

Nakita Noel, M Congiu, Alexandra J Ramadan, S Fearn, David P McMeekin, Jay B Patel, Michael B Johnston, Bernard Wenger, Henry J Snaith

Abstract:

Impressive power conversion efficiencies coupled with the relative ease of fabrication have made perovskite solar cells a front runner for next-generation photovoltaics. Although perovskite films and optoelectronic devices have been widely studied, relatively little is known about the chemistry of the precursor solutions. Here, we present a study on the hydrolysis of N,N-dimethylformamide, correlating how pH changes related to its degradation affect the crystallization of MAPbI3xClx perovskite films. By careful manipulation of the pH, and the resulting colloid distribution in precursor solutions, we fabricate perovskite films with greatly improved crystallinity, which when incorporated into photovoltaic devices reproducibly yield efficiencies of over 18%. Extending this method to the mixed cation, mixed halide perovskite FA0.83MA0.17Pb(I0.83Br0.17)3, we obtain power conversion efficiencies of up to 19.9% and open-circuit voltages of 1.21 V for a material with a bandgap of 1.57 eV, achieving the lowest yet reported loss in potential from bandgap to a VOC of only 360 mV.