Your search keyword '"Khan, Ali Hossain"' showing total 4 results

1. Role of Thermally Occupied Hole States in Room‐Temperature Broadband Gain in CdSe/CdS Giant‐Shell Nanocrystals.

Author

Tanghe, Ivo, Llusar, Jordi, Climente, Juan I., Barker, Alex, Paternò, Giuseppe, Scotognella, Francesco, Polovitsyn, Anatolii, Khan, Ali Hossain, Hens, Zeger, Van Thourhout, Dries, Geiregat, Pieter, and Moreels, Iwan

Subjects

NANOCRYSTALS, ELECTRON-hole recombination, ELECTRON density, DETECTION limit, FERMI-Dirac distribution

Abstract

Growing CdSe/CdS nanocrystals from a large CdSe core, and employing a giant CdS shell, a continuous, broadband gain spectrum, covering the spectral range between the CdSe and the CdS band edge, is induced. As revealed by k·p calculations, this feature is enabled by a set of closely spaced S‐, P‐ and, for larger CdSe cores, D‐state hole levels, which are thermally occupied at room temperature, combined with a sparse density of electron states. This leads to a range of bleach signals in the transient absorption spectra that persist up to a microsecond. By extending a state‐filling model including relevant higher‐energy states and a Fermi–Dirac distribution of holes at finite temperature, it is shown that thermal occupancy can lower the gain threshold for excited states. Inclusion of Gaussian broadening of discrete transitions also leads to a smoothening of the gain threshold spectrum. Next to a direct measurement of the gain threshold, a method is also developed to extract this from the gain lifetime, taking advantage that population inversion is limited by Auger recombination and recombination rates scale with the exciton density as 〈N〉·(〈N〉 − 1). The results should be readily extendable to other systems, such as perovskite or III–V colloidal nanocrystals. [ABSTRACT FROM AUTHOR]

Published

2022

2. Preferred Growth Direction by PbS Nanoplatelets Preserves Perovskite Infrared Light Harvesting for Stable, Reproducible, and Efficient Solar Cells.

Author

Sánchez‐Godoy, Humberto Emmanuel, Erazo, Eider Ansisar, Gualdrón‐Reyes, Andrés Fabián, Khan, Ali Hossain, Agouram, Said, Barea, Eva Maria, Rodriguez, Rubén Arturo, Zarazúa, Isaac, Ortiz, Pablo, Cortés, María Teresa, Muñoz‐Sanjosé, Vicente, Moreels, Iwan, Masi, Sofia, and Mora‐Seró, Iván

Subjects

SOLAR cells, NANOPARTICLES, ELECTRON transport, PEROVSKITE, CRYSTAL orientation, CRYSTAL growth, PHOTOVOLTAIC power systems

Abstract

Formamidinium‐based perovskite solar cells (PSCs) present the maximum theoretical efficiency of the lead perovskite family. However, formamidinium perovskite exhibits significant degradation in air. The surface chemistry of PbS has been used to improve the formamidinium black phase stability. Here, the use of PbS nanoplatelets with (100) preferential crystal orientation is reported, to potentiate the repercussion on the crystal growth of perovskite grains and to improve the stability of the material and consequently of the solar cells. As a result, a vertical growth of perovskite grains, a stable current density of 23 mA cm−2, and a stable incident photon to current efficiency in the infrared region of the spectrum for 4 months is obtained, one of the best stability achievements for planar PSCs. Moreover, a better reproducibility than the control device, by optimizing the PbS concentration in the perovskite matrix, is achieved. These outcomes validate the synergistic use of PbS nanoplatelets to improve formamidinium long‐term stability and performance reproducibility, and pave the way for using metastable perovskite active phases preserving their light harvesting capability. [ABSTRACT FROM AUTHOR]

Published

2020

3. Mechanism of Versatile Catalytic Activities of Quaternary CuZnFeS Nanocrystals Designed by a Rapid Synthesis Route.

Author

Dalui, Amit, Thupakula, Umamahesh, Khan, Ali Hossain, Ghosh, Tanmay, Satpati, Biswarup, and Acharya, Somobrata

Published

2015

4. Efficient Solid-State Light-Emitting CuCdS Nanocrystals Synthesized in Air.

Author

Khan, Ali Hossain, Dalui, Amit, Mukherjee, Soham, Segre, Carlo U., Sarma, D. D., and Acharya, Somobrata

Subjects

*NANOCRYSTALS, *SEMICONDUCTOR nanocrystals, *PHOTOLUMINESCENCE, *X-ray absorption near edge structure, *LIGHT emitting diodes

Abstract

Semiconductor nanocrystals (NCs) possess high photoluminescence (PL) typically in the solution phase. In contrary, PL rapidly quenches in the solid state. Efficient solid state luminescence can be achieved by inducing a large Stokes shift. Here we report on a novel synthesis of compositionally controlled CuCdS NCs in air avoiding the usual complexity of using inert atmosphere. These NCs show long-range color tunability over the entire visible range with a remarkable Stokes shift up to about 1.25 eV. Overcoating the NCs leads to a high solid-state PL quantum yield (QY) of ca. 55 % measured by using an integrating sphere. Unique charge carrier recombination mechanisms have been recognized from the NCs, which are correlated to the internal NC structure probed by using extended X-ray absorption fine structure (EXAFS) spectroscopy. EXAFS measurements show a Cu-rich surface and Cd-rich interior with 46 % CuI being randomly distributed within 84 % of the NC volume creating additional transition states for PL. Color-tunable solid-state luminescence remains stable in air enabling fabrication of light-emitting diodes (LEDs). [ABSTRACT FROM AUTHOR]

Published

2015