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133 results on '"Evers, Wiel H."'

1. Zero-threshold optical gain in electrochemically doped nanoplatelets and the physics behind it

Author

Geuchies, Jaco J., Dijkhuizen, Robbert, Koel, Marijn, Grimaldi, Gianluca, Fossé, Indy du, Evers, Wiel H., Hens, Zeger, and Houtepen, Arjan J.

Subjects
Physics - Applied Physics, Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science
Abstract

Colloidal nanoplatelets (NPLs) are promising materials for lasing applications. The properties are usually discussed in the framework of 2D materials, where strong excitonic effects dominate the optical properties near the band edge. At the same time, NPLs have finite lateral dimensions such that NPLs are not true extended 2D structures. Here we study the photophysics and gain properties of CdSe/CdS/ZnS core-shell-shell NPLs upon electrochemical n doping and optical excitation. Steady-state absorption and PL spectroscopy show that excitonic effects are weaker in core-shell-shell nanoplatelets due to the reduced exciton binding energy. Transient absorption studies reveal a gain threshold of only one excitation per nanoplatelet. Using electrochemical n doping we observe the complete bleaching of the band edge exciton transitions. Combining electrochemical doping with transient absorption spectroscopy we demonstrate that the gain threshold is fully removed over a broad spectral range and gain coefficients of several thousand cm-1 are obtained. These doped NPLs are the best performing colloidal nanomaterial gain medium reported to date. The low exciton binding energy due to the CdS and ZnS shells, in combination with the relatively small lateral size of the NPLs, result in excited states that are effectively delocalised over the entire platelet. Core-shell NPLs are thus on the border between strong confinement in QDs and dominant Coulombic effects in 2D materials. We demonstrate that this limit is in effect ideal for optical gain, and that it results in an optimal lateral size of the platelets where the gain threshold per nm2 is minimal.

Published
2022

2. Quantitative electrochemical control over optical gain in quantum-dot solids

Author

Geuchies, Jaco J., Brynjarsson, Baldur, Grimaldi, Gianluca, Gudjonsdottir, Solrun, van der Stam, Ward, Evers, Wiel H., and Houtepen, Arjan J.

Subjects
Condensed Matter - Materials Science, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Realizing solution processed quantum dot (QD) lasers is one of the holy-grails of nanoscience. The reason that QD lasers are not yet commercialized is that the lasing threshold is too high: one needs > 1 exciton per QD, which is hard to achieve due to fast non-radiative Auger recombination. The optical gain threshold can be reduced by electronic doping of the QDs, which lowers the absorption near the band-edge, such that the stimulated emission (SE) can easily outcompete absorption. Here, we show that by electrochemically doping films of CdSe/CdS/ZnS QDs we achieve quantitative control over the gain threshold. We obtain stable and reversible doping with up to two electrons per QD. We quantify the gain threshold and the charge carrier dynamics using ultrafast spectroelectrochemistry and achieve quantitative agreement between experiments and theory. Over a range of wavelengths with appreciable gain coefficients, the gain thresholds reach record-low values of ~10^-5 excitons per QD. These results demonstrate an unprecedented level of control over the gain threshold in doped QD solids, paving the way for the creation of cheap, solution-processable low-threshold QD-lasers.

Published
2020

5. Energy landscape of self-assembled superlattices of PbSe nanocrystals

Author

Quan, Zewei, Wu, Di, Zhu, Jinlong, Evers, Wiel H, Boncella, James M, Siebbeles, Laurens DA, Wang, Zhongwu, Navrotsky, Alexandra, and Xu, Hongwu

Subjects
PbSe nanocrystal superlattices, thermodynamics, ligand interaction
Abstract

Self-assembly of nanocrystals (NCs) into superlattices is an intriguing multiscale phenomenon that may lead to materials with novel collective properties, in addition to the unique properties of individual NCs compared with their bulk counterparts. By using different dispersion solvents, we synthesized three types of PbSe NC superlattices--body-centered cubic (bcc), body-centered tetragonal (bct), and face-centered cubic (fcc)--as confirmed by synchrotron small-angle X-ray scattering. Solution calorimetric measurements in hexane show that the enthalpy of formation of the superlattice from dispersed NCs is on the order of -2 kJ/mol. The calorimetric measurements reveal that the bcc superlattice is the energetically most stable polymorph, with the bct being 0.32 and the fcc 0.55 kJ/mol higher in enthalpy. This stability sequence is consistent with the decreased packing efficiency of PbSe NCs from bcc (17.2%) to bct (16.0%) and to fcc (15.2%). The small enthalpy differences among the three polymorphs confirm a closely spaced energy landscape and explain the ease of formation of different NC superlattices at slightly different synthesis conditions.

Published
2014

10. Size-Dependent Optical Properties of InP Colloidal Quantum Dots

Author

Almeida, Guilherme, van der Poll, Lara, Evers, Wiel H., Szoboszlai, Emma, Vonk, Sander J.W., Rabouw, Freddy T., Houtepen, Arjan J., Almeida, Guilherme, van der Poll, Lara, Evers, Wiel H., Szoboszlai, Emma, Vonk, Sander J.W., Rabouw, Freddy T., and Houtepen, Arjan J.

Abstract

Indium phosphide colloidal quantum dots (CQDs) are the main alternative for toxic and restricted Cd based CQDs for lighting and display applications. Here we systematically report on the size-dependent optical absorption, ensemble, and single particle photoluminescence (PL) and biexciton lifetimes of core-only InP CQDs. This systematic study is enabled by improvements in the synthesis of InP CQDs to yield a broad size series of monodisperse core-only InP CQDs with narrow absorption and PL line width and significant PL quantum yield.

Published
2023

11. Size-Dependent Optical Properties of InP Colloidal Quantum Dots

Author

Sub Condensed Matter and Interfaces, Sub Organic Chemistry and Catalysis, Sub Soft Condensed Matter, Sub Inorganic Chemistry and Catalysis, Dep Scheikunde, Soft Condensed Matter and Biophysics, Almeida, Guilherme, van der Poll, Lara, Evers, Wiel H., Szoboszlai, Emma, Vonk, Sander J.W., Rabouw, Freddy T., Houtepen, Arjan J., Sub Condensed Matter and Interfaces, Sub Organic Chemistry and Catalysis, Sub Soft Condensed Matter, Sub Inorganic Chemistry and Catalysis, Dep Scheikunde, Soft Condensed Matter and Biophysics, Almeida, Guilherme, van der Poll, Lara, Evers, Wiel H., Szoboszlai, Emma, Vonk, Sander J.W., Rabouw, Freddy T., and Houtepen, Arjan J.

Published
2023

18. The Fine-Structure Constant as a Ruler for the Band-Edge Light Absorption Strength of Bulk and Quantum-Confined Semiconductors

Author

Prins, P. Tim, Alimoradi Jazi, Maryam, Killilea, Niall A., Evers, Wiel H., Geiregat, Pieter, Heiss, Wolfgang, Houtepen, Arjan J., Delerue, Christophe, Hens, Zeger, Vanmaekelbergh, Daniel, Condensed Matter and Interfaces, Sub Inorganic Chemistry and Catalysis, Sub Condensed Matter and Interfaces, Debye Institute for Nanomaterials Science, Utrecht University [Utrecht], Friedrich-Alexander Universität Erlangen-Nürnberg (FAU), Delft University of Technology (TU Delft), Universiteit Gent = Ghent University (UGENT), Physique - IEMN (PHYSIQUE - IEMN), Institut d’Électronique, de Microélectronique et de Nanotechnologie - UMR 8520 (IEMN), Centrale Lille-Université de Lille-Centre National de la Recherche Scientifique (CNRS)-Université Polytechnique Hauts-de-France (UPHF)-JUNIA (JUNIA), Université catholique de Lille (UCL)-Université catholique de Lille (UCL)-Centrale Lille-Université de Lille-Centre National de la Recherche Scientifique (CNRS)-Université Polytechnique Hauts-de-France (UPHF)-JUNIA (JUNIA), Université catholique de Lille (UCL)-Université catholique de Lille (UCL), support by The Netherlands Organization for Scientific Research (NWO, Grant 14614 'Q-Lumicon') and the European Research Council (ERC Advanced Grant 692691 'First step'). Z.H. acknowledges support by FWO-Vlaanderen (research project 17006602) and Ghent University (BOF-GOA 01G01019). D.V.M, W.H., C.D., and Z.H. acknowledge support from the European Commission via the Marie-Skłodowska Curie action Phonsi (H2020-MSCA-ITN-642656)., European Project: FIRST STEP, European Project: 642656,H2020,H2020-MSCA-ITN-2014,Phonsi(2015), Centrale Lille-Université de Lille-Centre National de la Recherche Scientifique (CNRS)-Université Polytechnique Hauts-de-France (UPHF)-JUNIA (JUNIA)-Centrale Lille-Université de Lille-Centre National de la Recherche Scientifique (CNRS)-Université Polytechnique Hauts-de-France (UPHF)-JUNIA (JUNIA), Universiteit Gent = Ghent University [Belgium] (UGENT), Condensed Matter and Interfaces, Sub Inorganic Chemistry and Catalysis, and Sub Condensed Matter and Interfaces

Subjects
Letter, Materials science, Exciton, Superlattice, Bioengineering, 02 engineering and technology, 01 natural sciences, Condensed Matter::Materials Science, 0103 physical sciences, General Materials Science, Quantum coupling, fine-structure constant, [PHYS.COND]Physics [physics]/Condensed Matter [cond-mat], 010306 general physics, Absorption (electromagnetic radiation), dielectric screening, optical transitions, Condensed matter physics, business.industry, Condensed Matter::Other, Mechanical Engineering, Fine-structure constant, General Chemistry, 021001 nanoscience & nanotechnology, Condensed Matter Physics, Condensed Matter::Mesoscopic Systems and Quantum Hall Effect, Chemistry, quantum coupling, Semiconductor, Quantum dot, Absorptance, light absorption, PBSE, 0210 nano-technology, business
Abstract

International audience; Low-dimensional semiconductors have found numerous applications in optoelectronics. However, a quantitative comparison of the absorption strength of lowdimensional versus bulk semiconductors has remained elusive. Here, we report generality in the band-edge light absorptance of semiconductors, independent of their dimensions. First, we provide atomistic tight-binding calculations that show that the absorptance of semiconductor quantum wells equals mπα (m = 1 or 2 with α as the fine-structure constant), in agreement with reported experimental results. Then, we show experimentally that a monolayer (superlattice) of quantum dots has similar absorptance, suggesting an absorptance quantum of mπα per (confined) exciton diameter. Extending this idea to bulk semiconductors, we experimentally demonstrate that an absorptance quantum equal to mπα per exciton Bohr diameter explains their widely varying absorption coefficients. We thus provided compelling evidence that the absorptance quantum πα per exciton diameter rules the band-edge absorption of all direct semiconductors, regardless of their dimension.

Published
2021

19. The Fine-Structure Constant as a Ruler for the Band-Edge Light Absorption Strength of Bulk and Quantum-Confined Semiconductors

Author

Condensed Matter and Interfaces, Sub Inorganic Chemistry and Catalysis, Sub Condensed Matter and Interfaces, Prins, P. Tim, Alimoradi Jazi, Maryam, Killilea, Niall A., Evers, Wiel H., Geiregat, Pieter, Heiss, Wolfgang, Houtepen, Arjan J., Delerue, Christophe, Hens, Zeger, Vanmaekelbergh, Daniel, Condensed Matter and Interfaces, Sub Inorganic Chemistry and Catalysis, Sub Condensed Matter and Interfaces, Prins, P. Tim, Alimoradi Jazi, Maryam, Killilea, Niall A., Evers, Wiel H., Geiregat, Pieter, Heiss, Wolfgang, Houtepen, Arjan J., Delerue, Christophe, Hens, Zeger, and Vanmaekelbergh, Daniel

Published
2021

23. Efficient Steplike Carrier Multiplication in Percolative Networks of Epitaxially Connected PbSe Nanocrystals

Author

Kulkarni, Aditya, Evers, Wiel H., Tomić, Stanko, Beard, Matthew C., Vanmaekelbergh, Daniel, Siebbeles, Laurens D.A., Sub Condensed Matter and Interfaces, Condensed Matter and Interfaces, Sub Condensed Matter and Interfaces, and Condensed Matter and Interfaces

Subjects
Materials science, Band gap, General Physics and Astronomy, 02 engineering and technology, Photon energy, 010402 general chemistry, terahertz spectroscopy, 01 natural sciences, law.invention, law, Solar cell, General Materials Science, solar cell efficiency, Thin film, business.industry, Energy conversion efficiency, charge carrier mobility, General Engineering, 021001 nanoscience & nanotechnology, 0104 chemical sciences, Terahertz spectroscopy and technology, Multiple exciton generation, Solar cell efficiency, Optoelectronics, nanocrystal networks, carrier multiplication, 0210 nano-technology, business
Abstract

Carrier multiplication (CM) is a process in which a single photon excites two or more electrons. CM is of interest to enhance the efficiency of a solar cell. Until now, CM in thin films and solar cells of semiconductor nanocrystals (NCs) has been found at photon energies well above the minimum required energy of twice the band gap. The high threshold of CM strongly limits the benefits for solar cell applications. We show that CM is more efficient in a percolative network of directly connected PbSe NCs. The CM threshold is at twice the band gap and increases in a steplike fashion with photon energy. A lower CM efficiency is found for a solid of weaker coupled NCs. This demonstrates that the coupling between NCs strongly affects the CM efficiency. According to device simulations, the measured CM efficiency would significantly enhance the power conversion efficiency of a solar cell.

Published
2018

25. Efficient Steplike Carrier Multiplication in Percolative Networks of Epitaxially Connected PbSe Nanocrystals

Author

Sub Condensed Matter and Interfaces, Condensed Matter and Interfaces, Kulkarni, Aditya, Evers, Wiel H., Tomić, Stanko, Beard, Matthew C., Vanmaekelbergh, Daniel, Siebbeles, Laurens D.A., Sub Condensed Matter and Interfaces, Condensed Matter and Interfaces, Kulkarni, Aditya, Evers, Wiel H., Tomić, Stanko, Beard, Matthew C., Vanmaekelbergh, Daniel, and Siebbeles, Laurens D.A.

Published
2018

28. Hot-electron transfer in quantum-dot heterojunction films

Author

Grimaldi, Gianluca, primary, Crisp, Ryan W., additional, ten Brinck, Stephanie, additional, Zapata, Felipe, additional, van Ouwendorp, Michiko, additional, Renaud, Nicolas, additional, Kirkwood, Nicholas, additional, Evers, Wiel H., additional, Kinge, Sachin, additional, Infante, Ivan, additional, Siebbeles, Laurens D. A., additional, and Houtepen, Arjan J., additional

Published
2018
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32. Enhanced vapour sensing using silicon nanowire devices coated with Pt nanoparticle functionalized porous organic frameworks

Author

Cao, Anping, primary, Shan, Meixia, additional, Paltrinieri, Laura, additional, Evers, Wiel H., additional, Chu, Liangyong, additional, Poltorak, Lukasz, additional, Klootwijk, Johan H., additional, Seoane, Beatriz, additional, Gascon, Jorge, additional, Sudhölter, Ernst J. R., additional, and de Smet, Louis C. P. M., additional

Published
2018
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36. In situ study of the formation mechanism of two-dimensional superlattices from PbSe nanocrystals

Author

Geuchies, Jaco J., primary, van Overbeek, Carlo, additional, Evers, Wiel H., additional, Goris, Bart, additional, de Backer, Annick, additional, Gantapara, Anjan P., additional, Rabouw, Freddy T., additional, Hilhorst, Jan, additional, Peters, Joep L., additional, Konovalov, Oleg, additional, Petukhov, Andrei V., additional, Dijkstra, Marjolein, additional, Siebbeles, Laurens D. A., additional, van Aert, Sandra, additional, Bals, Sara, additional, and Vanmaekelbergh, Daniel, additional

Published
2016
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38. Organic Linker Defines the Excited-State Decay of Photocatalytic MIL-125(Ti)-Type Materials

Author

Santaclara, Jara G., primary, Nasalevich, Maxim A., additional, Castellanos, Sonia, additional, Evers, Wiel H., additional, Spoor, Frank C. M., additional, Rock, Kamila, additional, Siebbeles, Laurens D. A., additional, Kapteijn, Freek, additional, Grozema, Ferdinand, additional, Houtepen, Arjan, additional, Gascon, Jorge, additional, Hunger, Johannes, additional, and van der Veen, Monique A., additional

Published
2016
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40. [Invited] Artificial graphene superlattices made of semiconductor nanocrystals

Author

Kalesaki, Efterpi, Boneschanscher, Mark Pieter, Geuchies, Jaco J., Delerue, Christophe, Morais Smith, Cristiane, Evers, Wiel H., Allan, Guy, Altantzis, Thomas, Bals, Sara, Vanmaekelbergh, Daniel, Institut d’Électronique, de Microélectronique et de Nanotechnologie - UMR 8520 (IEMN), Centrale Lille-Université de Lille-Centre National de la Recherche Scientifique (CNRS)-Université Polytechnique Hauts-de-France (UPHF)-JUNIA (JUNIA), Debye Institute for Nanomaterials Science, Utrecht University [Utrecht], Centrale Lille-Institut supérieur de l'électronique et du numérique (ISEN)-Université de Valenciennes et du Hainaut-Cambrésis (UVHC)-Université de Lille-Centre National de la Recherche Scientifique (CNRS)-Université Polytechnique Hauts-de-France (UPHF), Institute for Theoretical Physics [Utrecht], EMAT - Electron Microscopy for Material Research (EMAT), EMAT - Electron Microscopy for Material Research, and Université catholique de Lille (UCL)-Université catholique de Lille (UCL)

Subjects
[PHYS.COND]Physics [physics]/Condensed Matter [cond-mat]
Published
2013

41. High charge mobility in two-dimensional percolative networks of PbSe quantum dots connected by atomic bonds

Author

Evers, Wiel H., primary, Schins, Juleon M., additional, Aerts, Michiel, additional, Kulkarni, Aditya, additional, Capiod, Pierre, additional, Berthe, Maxime, additional, Grandidier, Bruno, additional, Delerue, Christophe, additional, van der Zant, Herre S. J., additional, van Overbeek, Carlo, additional, Peters, Joep L., additional, Vanmaekelbergh, Daniel, additional, and Siebbeles, Laurens D. A., additional

Published
2015
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43. Tuning and Probing the Distribution of Cu+and Cu2+Trap States Responsible for Broad-Band Photoluminescence in CuInS2Nanocrystals

Author

van der Stam, Ward, de Graaf, Max, Gudjonsdottir, Solrun, Geuchies, Jaco J., Dijkema, Jurgen J., Kirkwood, Nicholas, Evers, Wiel H., Longo, Alessandro, and Houtepen, Arjan J.

Abstract

The processes that govern radiative recombination in ternary CuInS2(CIS) nanocrystals (NCs) have been heavily debated, but recently, several research groups have come to the same conclusion that a photoexcited electron recombines with a localized hole on a Cu-related trap state. Furthermore, it has been observed that single CIS NCs display narrower photoluminescence (PL) line widths than the ensemble, which led to the conclusion that within the ensemble there is a distribution of Cu-related trap states responsible for PL. In this work, we probe this trap-state distribution with in situphotoluminescence spectroelectrochemistry. We find that Cu2+states result in individual “dark” nanocrystals, whereas Cu+states result in “bright” NCs. Furthermore, we show that we can tune the PL position, intensity, and line width in a cyclic fashion by injecting or removing electrons from the trap-state distribution, thereby converting a subset of “dark” Cu2+containing NCs into “bright” Cu+containing NCs and vice versa. The electrochemical injection of electrons results in brightening, broadening, and a red shift of the PL, in line with the activation of a broad distribution of “dark” NCs (Cu2+states) into “bright” NCs (Cu+states) and a rise of the Fermi level within the ensemble trap-state distribution. The opposite trend is observed for electrochemical oxidation of Cu+states into Cu2+. Our work shows that there is a direct correlation between the line width of the ensemble Cu+/Cu2+trap-state distribution and the characteristic broad-band PL feature of CIS NCs and between Cu2+cations in the photoexcited state (bright) and in the electrochemically oxidized ground state (dark).

Published
2018
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50. Quantitative Structural Analysis of Binary Nanocrystal Superlattices by Electron Tomography

Author

Friedrich, Heiner, primary, Gommes, Cedric J., additional, Overgaag, Karin, additional, Meeldijk, Johannes D., additional, Evers, Wiel H., additional, Nijs, Bart de, additional, Boneschanscher, Mark P., additional, de Jongh, Petra E., additional, Verkleij, Arie J., additional, de Jong, Krijn P., additional, van Blaaderen, Alfons, additional, and Vanmaekelbergh, Daniel, additional

Published
2009
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