Photocarrier recombination dynamics in Cu2ZnSn(S,Se)4 and Cu(In,Ga)Se2 studied by temperature-dependent time resolved Photoluminescence (TR-PL)

The thermal properties of FAPbBr3 perovskite nanocrystals (PNCs) is investigated by use of temperature-dependent steady-state/time-resolved photoluminescence and first-principle calculations.

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Instrumentation for Reliably Determining Porous Silicon Photoluminescence Responses to Gaseous Analyte Vapors

Applied Spectroscopy ◽

10.1177/0003702816653125 ◽

2016 ◽

Vol 70 (12) ◽

pp. 1974-1980 ◽

Cited By ~ 3

Author(s):

Justin M. Reynard ◽

Nathan S. Van Gorder ◽

Caley A. Richardson ◽

Richie D. Eriacho ◽

Frank V. Bright

Keyword(s):

Porous Silicon ◽

Vapor Concentration ◽

Photoluminescence Intensity ◽

Spectral Measurements ◽

Temperature Dependent ◽

Time Resolved ◽

Hyper Spectral ◽

New Instrumentation ◽

Time Resolved Photoluminescence ◽

New System

We report new instrumentation for rapidly and reliably measuring the temperature-dependent photoluminescence response from porous silicon as a function of analyte vapor concentration. The new system maintains the porous silicon under inert conditions and it allows on-the-fly steady-state and time-resolved photoluminescence intensity and hyper-spectral measurements between 293 K and 450 K. The new system yields reliable data at least 100-fold faster in comparison to previous instrument platforms.

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Temperature-dependent time-resolved photoluminescence study of monocrystalline CdTe/MgCdTe double heterostructures with low defect density

2014 IEEE 40th Photovoltaic Specialist Conference (PVSC) ◽

10.1109/pvsc.2014.6925634 ◽

2014 ◽

Author(s):

Xin-Hao Zhao ◽

Michael J. DiNezza ◽

Shi Liu ◽

Pathiraja A. R. D. Jayathilaka ◽

Odille C. Noriega ◽

...

Keyword(s):

Defect Density ◽

Temperature Dependent ◽

Time Resolved ◽

Photoluminescence Study ◽

Double Heterostructures ◽

Time Resolved Photoluminescence

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Recombination Dynamics in ZnxCd$_{\bf 1-\ninmb{x}}$S Single Quantum Well Grown by Photoassisted Metalorganic Vapour Phase Epitaxy by Time-Resolved Photoluminescence Spectroscopy

Japanese Journal of Applied Physics ◽

10.1143/jjap.34.l1336 ◽

1995 ◽

Vol 34 (Part 2, No. 10B) ◽

pp. L1336-L1339 ◽

Cited By ~ 5

Author(s):

Hervé Dumont ◽

Yoichi Kawakami ◽

Shizuo Fujita ◽

Shigeo Fujita

Keyword(s):

Quantum Well ◽

Vapour Phase ◽

Photoluminescence Spectroscopy ◽

Single Quantum ◽

Single Quantum Well ◽

Time Resolved ◽

Vapour Phase Epitaxy ◽

Metalorganic Vapour Phase Epitaxy ◽

Time Resolved Photoluminescence ◽

Recombination Dynamics

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Study Study on photoluminescence properties of porous GaP material

VNU Journal of Science Natural Sciences and Technology ◽

10.25073/2588-1140/vnunst.4703 ◽

2018 ◽

Vol 34 (1) ◽

Author(s):

Pham Thi Thuy ◽

Bui Xuan Vuong

Keyword(s):

Solid State ◽

Electrochemical Etching ◽

Green Emission ◽

Functional Materials ◽

Bulk Sample ◽

Electrochemical Anodization ◽

Photoluminescence Intensity ◽

Temperature Dependent ◽

Time Resolved ◽

Time Resolved Photoluminescence

This paper reports on the photoluminescence of porous GaPprepared by electrochemical anodization of (111)-oriented bulk material.Porous and bulk GaP exhibits green and red photoluminescence, respectively when excited by the 355-nm laser. The photoluminescence intensity of porous GaP is much stronger than that of the bulk sample. Temperature-dependent time-resolved photoluminescence shows that the green emission gradually decreases when the temperature increases and the photoluminescence full width at haft maximum (FWHM) slightly narrow with decreasing temperature. These results assigned to the contribution of lattice vibrations. Raman scattering measurement is carried out to confirm the size decreasing of the porous GaP material. Keywords PorousGaP, photoluminescence, time-resolved photoluminescence, electrochemical etching References 1. L. T. Canham, Appl. Phys.Lett. 57, 1046 (1990).2. K. Grigoras, Jpn. J. Appl. Phys. 39, 378 (2000)3. H. Koyama, J. Appl. Electrochem. 36, 999 (2006)4. H. A. Hadi, International Letters of Chemistry, Physics and Astronomy, 17(2), 142-152 (2014).5. S. Setzu, P. Ferrand, and R. Romestain, Mater.Sci. Eng, 34, 69-70 (2000).6. S. E. Letant and M. J. Sailor, Adv. Mater, 355, 12 (2000).7. M. T. Kelly, J. K. M. Chun, and A. B. Bocarsly, Nature, 382, 214 (1996).8. G. Di Francia, V. La Ferrara, L. Quercia, and G. Faglia, J. Porous Mater, 7, 287 (2000).9. J. Drott, K. Lindstrom, L. Rosengren, and T. Laurell, J. Micromech. Microeng, 7, 14 (1997).10. B. P. Azeredo, Y. W. Lin, A. Avagyan, M. Sivaguru, K. Hsu, P. Ferreira, Advanced Functional Materials, 26, 2929-2939 (2016).11. A. Anedda, A. Serpi, V. A. Karavanskii, I. M. Tiginyanu, and V. M. Ichizli, Appl. Phys.Lett, 67, 3316 (1995).12. A. I. Belogorokhov, V. A. Karavanskii, A. N. Obraztsov and V. Yu. Timoshenko, JETP Lett. 60, 274 (1994).13. K. Tomioka, S. Adachi, J. App. Phys, 98, 073511 (2005).14. M. A. Stevens-Kalceff, I. M. Tiginyanu, S. Langa, H. Foll and H. L. Hartnagel, J. App. Phys, 89,2560 (2001).15. A. V. Zoteev, P. K. Kashkarov, A. N. Obraztsov and V. Y. Timoshenko, Semiconductors, 30, 775 (1996).16. A. A. Lebedev, V. Y. Rud and Y. V. Rud, Tech. Phys. Lett, 22, 754 (1996).17. H. Richter, Z. P. Wang, and L. Ley, Solid State Commum, 39, 625 (1981).18. L. H. Campbell and P. M.Fauchet, Solid State Commum, 58, 739 (1986).19. V. V. Ursaki, N. N. Syrbu, S. Albu, V. V. Zalamai, I. M. Tiginyanu, and R. W. Boyd, Semicond. Sci. Technl, 20, 745- 748 (2005)20. R. W. Tjerkstra, Electrochemical and Solid-State Letters,9 (5), C81-C84 (2006)

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Temperature dependent and time-resolved photoluminescence studies of InAs self-assembled quantum dots with InGaAs strain reducing layer structure

Journal of Applied Physics ◽

10.1063/1.3159648 ◽

2009 ◽

Vol 106 (1) ◽

pp. 013512 ◽

Cited By ~ 25

Author(s):

Lingmin Kong ◽

Zhe Chuan Feng ◽

Zhengyun Wu ◽

Weijie Lu

Keyword(s):

Quantum Dots ◽

Layer Structure ◽

Temperature Dependent ◽

Time Resolved ◽

Self Assembled ◽

Photoluminescence Studies ◽

Time Resolved Photoluminescence

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Recombination Dynamics of Surface-Related Excitonic States in Single ZnO Nanowires

Journal of Nanoscience and Nanotechnology ◽

10.1166/jnn.2008.n06 ◽

2008 ◽

Vol 8 (1) ◽

pp. 228-232 ◽

Cited By ~ 11

Author(s):

Tobias Voss ◽

Lars Wischmeier

Keyword(s):

Low Temperatures ◽

Optical Spectra ◽

Semiconductor Nanowires ◽

Emission Lines ◽

Time Resolved ◽

Photoluminescence Studies ◽

Different Diameters ◽

Excitonic States ◽

Time Resolved Photoluminescence ◽

Recombination Dynamics

With decreasing diameter the influence of surface-related effects becomes increasingly important for an understanding of the optical properties of semiconductor nanowires. We present time integrated and time resolved photoluminescence studies of single zincoxide nanowires with different diameters. We analyze the changes in the optical spectra for wires with different surface-to-volume ratios, present optical spectra of single wires at different excitation densities, and study the time-resolved dynamics of the surface related and donor-bound exciton related emission lines for a single nanowire at low temperatures.

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