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Articoli di riviste sul tema "ZnSeS"

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Autore: Grafiati
Pubblicato: 8 giugno 2024

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1

Kulakovich, O. S., L. I. Gurinovich, L. I. Trotsiuk, A. A. Ramanenka, Hongbo Li, N. A. Matveevskaya e S. V. Gaponenko. "Manipulation of the quantum dots photostability using gold nanoparticles". Doklady of the National Academy of Sciences of Belarus 66, n. 2 (6 maggio 2022): 148–55. http://dx.doi.org/10.29235/1561-8323-2022-66-2-148-155.

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Abstract (sommario):
The effect of plasmonic films containing gold nanoparticles of different shape (nanospheres and nanorods) on the photostability of InP/ZnSe/ZnSeS/ZnS and CdSe/ZnCdS/ZnS quantum dots with core/shell structure has been determined. Gold nanospheres increase the photostability of InP/ZnSe/ZnSeS/ZnS quantum dots when excited by blue LED radiation when reducing the average lifetime of the excited state of quantum dots and, accordingly, when reducing the probability of Auger processes. An increase in the average lifetime of the excited state of CdSe/ZnCdS/ZnS quantum dots in complexes with gold nanorods leads to a decrease in the photostability upon excitation at 449 and 532 nm.
2

Bao, Zhen, Zhen-Feng Jiang, Qiang Su, Hsin-Di Chiu, Heesun Yang, Shuming Chen, Ren-Jei Chung e Ru-Shi Liu. "ZnSe:Te/ZnSeS/ZnS nanocrystals: an access to cadmium-free pure-blue quantum-dot light-emitting diodes". Nanoscale 12, n. 21 (2020): 11556–61. http://dx.doi.org/10.1039/d0nr01019g.

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Abstract (sommario):
The emission wavelength of ZnSe/ZnS quantum dots was successfully tuned from the violet (∼420 nm) to pure-blue (∼455 nm) region by doping Te into the ZnSe core. A specific structure QLED fabricated with ZnSe:0.03Te/ZnSeS/ZnS QDs realized pure-blue emission.
3

Cingolani, R., M. Lomascolo, N. Lovergine, M. Dabbicco, M. Ferrara e I. Suemune. "Excitonic properties of ZnSe/ZnSeS superlattices". Applied Physics Letters 64, n. 18 (2 maggio 1994): 2439–41. http://dx.doi.org/10.1063/1.111592.

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4

Chen, Hsueh-Shih, Bertrand Lo, Jen-Yu Hwang, Gwo-Yang Chang, Chien-Ming Chen, Shih-Jung Tasi e Shian-Jy Jassy Wang. "Colloidal ZnSe, ZnSe/ZnS, and ZnSe/ZnSeS Quantum Dots Synthesized from ZnO". Journal of Physical Chemistry B 108, n. 50 (dicembre 2004): 19566. http://dx.doi.org/10.1021/jp040689k.

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5

Chen, Hsueh-Shih, Bertrand Lo, Jen-Yu Hwang, Gwo-Yang Chang, Chien-Ming Chen, Shih-Jung Tasi e Shian-Jy Jassy Wang. "Colloidal ZnSe, ZnSe/ZnS, and ZnSe/ZnSeS Quantum Dots Synthesized from ZnO". Journal of Physical Chemistry B 108, n. 44 (novembre 2004): 17119–23. http://dx.doi.org/10.1021/jp047035w.

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6

Boemare, C., Maria Helena Nazaré, W. Taudt, J. Söllner e M. Heuken. "Photoreflectance, Reflectivity and Photoluminescence of MOVPE Grown ZnSe/GaAs Epilayers and ZnSeS/ZnSe Superlattices". Materials Science Forum 196-201 (novembre 1995): 567–72. http://dx.doi.org/10.4028/www.scientific.net/msf.196-201.567.

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7

Adegoke, Oluwasesan, Min-Woong Seo, Tatsuya Kato, Shoji Kawahito e Enoch Y. Park. "Gradient band gap engineered alloyed quaternary/ternary CdZnSeS/ZnSeS quantum dots: an ultrasensitive fluorescence reporter in a conjugated molecular beacon system for the biosensing of influenza virus RNA". Journal of Materials Chemistry B 4, n. 8 (2016): 1489–98. http://dx.doi.org/10.1039/c5tb02449h.

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8

Jang, Eun-Pyo, Jung-Ho Jo, Seung-Won Lim, Han-Byule Lim, Hwi-Jae Kim, Chang-Yeol Han e Heesun Yang. "Unconventional formation of dual-colored InP quantum dot-embedded silica composites for an operation-stable white light-emitting diode". Journal of Materials Chemistry C 6, n. 43 (2018): 11749–56. http://dx.doi.org/10.1039/c8tc04095h.

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9

Kulakovich, O., L. Gurinovich, Hui Li, A. Ramanenka, L. Trotsiuk, A. Muravitskaya, Jing Wei et al. "Photostability enhancement of InP/ZnSe/ZnSeS/ZnS quantum dots by plasmonic nanostructures". Nanotechnology 32, n. 3 (22 ottobre 2020): 035204. http://dx.doi.org/10.1088/1361-6528/abbdde.

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10

Mabrouk, Salima, Hervé Rinnert, Lavinia Balan, Jordane Jasniewski, Sébastien Blanchard, Ghouti Medjahdi, Rafik Ben Chaabane e Raphaël Schneider. "Highly Luminescent and Photostable Core/Shell/Shell ZnSeS/Cu:ZnS/ZnS Quantum Dots Prepared via a Mild Aqueous Route". Nanomaterials 12, n. 18 (19 settembre 2022): 3254. http://dx.doi.org/10.3390/nano12183254.

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Abstract (sommario):
An aqueous-phase synthesis of 3-mercaptopropionic acid (3-MPA)-capped core/shell/shell ZnSeS/Cu:ZnS/ZnS QDs was developed. The influence of the Cu-dopant location on the photoluminescence (PL) emission intensity was investigated, and the results show that the introduction of the Cu dopant in the first ZnS shell leads to QDs exhibiting the highest PL quantum yield (25%). The influence of the Cu-loading in the dots on the PL emission was also studied, and a shift from blue–green to green was observed with the increase of the Cu doping from 1.25 to 7.5%. ZnSeS/Cu:ZnS/ZnS QDs exhibit an average diameter of 2.1 ± 0.3 nm and are stable for weeks in aqueous solution. Moreover, the dots were found to be photostable under the continuous illumination of an Hg–Xe lamp and in the presence of oxygen, indicating their high potential for applications such as sensing or bio-imaging.
11

Shin, Dong‐Wook, Yo‐Han Suh, Sanghyo Lee, Bo Hou, Soo Deok Han, Yuljae Cho, Xiang‐Bing Fan et al. "Waterproof Flexible InP@ZnSeS Quantum Dot Light‐Emitting Diode". Advanced Optical Materials 8, n. 6 (marzo 2020): 1901362. http://dx.doi.org/10.1002/adom.201901362.

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12

Chang, Jun Hyuk, Hak June Lee, Seunghyun Rhee, Donghyo Hahm, Byeong Guk Jeong, Gabriel Nagamine, Lazaro A. Padilha, Kookheon Char, Euyheon Hwang e Wan Ki Bae. "Pushing the Band Gap Envelope of Quasi-Type II Heterostructured Nanocrystals to Blue: ZnSe/ZnSe1-XTeX/ZnSe Spherical Quantum Wells". Energy Material Advances 2021 (5 febbraio 2021): 1–10. http://dx.doi.org/10.34133/2021/3245731.

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Abstract (sommario):
Quasi-type II heterostructured nanocrystals (NCs) have been of particular interest due to their great potential for controlling the interplay of charge carriers. However, the lack of material choices for quasi-type II NCs restricts the accessible emission wavelength from red to near-infrared (NIR), which hinders their use in light-emitting applications that demand a wide range of visible colors. Herein, we demonstrate a new class of quasi-type II nanoemitters formulated in ZnSe/ZnSe1-XTeX/ZnSe seed/spherical quantum well/shell heterostructures (SQWs) whose emission wavelength ranges from blue to orange. In a given geometry, ZnSe1-XTeX emissive layers grown between the ZnSe seed and the shell layer are strained to fit into the surrounding media, and thus, the lattice mismatch between ZnSe1-XTeX and ZnSe is effectively alleviated. In addition, composition of the ZnSe1-XTeX emissive layer and the dimension of the ZnSe shell layer are engineered to tailor the distribution and energy of electron and hole wave functions. Benefitting from the capabilities to tune the charge carriers on demand and to form defect-free heterojunctions, ZnSe/ZnSe1-XTeX/ZnSe/ZnS NCs show near-unity photoluminescence quantum yield (PL QY>90%) in a broad range of emission wavelengths (peak PL from 450 nm to 600 nm). Finally, we exemplify dichromatic white NC-based light-emitting diodes (NC-LEDs) employing the mixed layer of blue- and yellow-emitting ZnSe/ZnSe1-XTeX/ZnSe/ZnS SQW NCs.
13

Nga, Pham Thu, Nguyen Hai Yen, Dinh Hung Cuong, Nguyen Ngoc Hai, Nguyen Xuan Nghia, Vu Thi Hong Hanh, Le Van Vu e Laurent Coolen. "Study on the fabrication of CdZnSe/ZnSeS ternary alloy quantum dots". International Journal of Nanotechnology 12, n. 5/6/7 (2015): 525. http://dx.doi.org/10.1504/ijnt.2015.067910.

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14

Lim, Jaehoon, Wan Ki Bae, Donggu Lee, Min Ki Nam, Joohyun Jung, Changhee Lee, Kookheon Char e Seonghoon Lee. "InP@ZnSeS, Core@Composition Gradient Shell Quantum Dots with Enhanced Stability". Chemistry of Materials 23, n. 20 (25 ottobre 2011): 4459–63. http://dx.doi.org/10.1021/cm201550w.

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15

Vikram, Ajit, Vivek Kumar, Utkarsh Ramesh, Karthik Balakrishnan, Nuri Oh, Kishori Deshpande, Trevor Ewers, Peter Trefonas, Moonsub Shim e Paul J. A. Kenis. "A Millifluidic Reactor System for Multistep Continuous Synthesis of InP/ZnSeS Nanoparticles". ChemNanoMat 4, n. 9 (19 luglio 2018): 943–53. http://dx.doi.org/10.1002/cnma.201800160.

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16

Nguyen, Hai Yen, Willy Daney de Marcillac, Clotilde Lethiec, Ngoc Hong Phan, Catherine Schwob, Agnès Maître, Quang Liem Nguyen et al. "Synthesis and optical properties of core/shell ternary/ternary CdZnSe/ZnSeS quantum dots". Optical Materials 36, n. 9 (luglio 2014): 1534–41. http://dx.doi.org/10.1016/j.optmat.2014.04.020.

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17

Park, Sangjun, Jeehye Yang, Seunghan Kim, Donghyo Hahm, Hyunwoo Jo, Wan Ki Bae e Moon Sung Kang. "Light‐Emitting Electrochemical Cells with Polymer‐Blended InP/ZnSeS Quantum Dot Active Layer". Advanced Optical Materials 8, n. 24 (29 ottobre 2020): 2001535. http://dx.doi.org/10.1002/adom.202001535.

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18

Adegoke, Oluwasesan, Philani Mashazi, Tebello Nyokong e Patricia B. C. Forbes. "Fluorescence properties of alloyed ZnSeS quantum dots overcoated with ZnTe and ZnTe/ZnS shells". Optical Materials 54 (aprile 2016): 104–10. http://dx.doi.org/10.1016/j.optmat.2016.02.024.

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19

Zeng, Ruosheng, Rongan Shen, Yunqiang Zhao, Zhiguo Sun, Xingsheng Li, Jinju Zheng, Sheng Cao e Bingsuo Zou. "Water-soluble, highly emissive, color-tunable, and stable Cu-doped ZnSeS/ZnS core/shell nanocrystals". CrystEngComm 16, n. 16 (2014): 3414. http://dx.doi.org/10.1039/c3ce42273a.

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20

Hajj Hussein, R., O. Pagès, A. Polian, A. V. Postnikov, H. Dicko, F. Firszt, K. Strzałkowski et al. "Pressure-induced phonon freezing in the ZnSeS II–VI mixed crystal: phonon–polaritons andab initiocalculations". Journal of Physics: Condensed Matter 28, n. 20 (26 aprile 2016): 205401. http://dx.doi.org/10.1088/0953-8984/28/20/205401.

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21

Syrotyuk, S. V., A. Y. Nakonechnyi, Yu V. Klysko, H. I. Vlakh-Vyhrynovska e Z. E. Veres. "Electronic and magnetic properties of ZnSeS solid solution modified by Mn impurity, Zn vacancy and pressure". Physics and Chemistry of Solid State 25, n. 1 (15 febbraio 2024): 65–72. http://dx.doi.org/10.15330/pcss.25.1.65-72.

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Abstract (sommario):
The spin-polarized electronic energy spectra of the ZnSeS solid solution were obtained based on calculations for the supercell, which contains 64 atoms. At the first stage, the properties of the material based on the Mn:ZnSeS supercell, in which Mn replaces the Zn atom, were calculated. The calculation results reveal that the material is a semiconductor for both spin orientations. The second stage is based on the simultaneous presence of a Mn impurity and a cation vacancy. Comparing the results of the first two stages allows us to reveal significant changes in the electronic energy structure caused by the cation vacancy. The material with a vacancy exhibits metallic properties for both spin orientations. The third stage is implemented for the supercell without a vacancy, but under the action of hydrostatic pressure. The material exhibits semiconducting properties for both values of the spin moment. At the fourth stage, the Mn:ZnSeS supercell with a vacancy and under pressure is considered. In the presence of pressure and a VZn vacancy, the ZnMnSeS material exhibits metallic properties for both spin orientations. A material with a vacancy and under pressure can be characterized as a magnetic metal.
22

Jo, Hyun-Jun, e In-Ho Bae. "Electroreflectance Study of ZnSe in ZnSe/GaAs Heterostructure". Journal of the Korean Vacuum Society 21, n. 6 (30 novembre 2012): 322–27. http://dx.doi.org/10.5757/jkvs.2012.21.6.322.

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23

Liu, Pai, Yajun Lou, Shihao Ding, Wenda Zhang, Zhenghui Wu, Hongcheng Yang, Bing Xu, Kai Wang e Xiao Wei Sun. "Green InP/ZnSeS/ZnS Core Multi‐Shelled Quantum Dots Synthesized with Aminophosphine for Effective Display Applications". Advanced Functional Materials 31, n. 11 (20 gennaio 2021): 2008453. http://dx.doi.org/10.1002/adfm.202008453.

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24

Lee, YuJin, Dae-Yeon Jo, Taehee Kim, Jung-Ho Jo, Jumi Park, Heesun Yang e Dongho Kim. "Effectual Interface and Defect Engineering for Auger Recombination Suppression in Bright InP/ZnSeS/ZnS Quantum Dots". ACS Applied Materials & Interfaces 14, n. 10 (3 marzo 2022): 12479–87. http://dx.doi.org/10.1021/acsami.1c20088.

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25

Mabrouk, Salima, Hervé Rinnert, Lavinia Balan, Sébastien Blanchard, Jordane Jasniewski, Ghouti Medjahdi, Rafik Ben Chaabane e Raphaël Schneider. "Aqueous synthesis of highly luminescent ternary alloyed Mn-doped ZnSeS quantum dots capped with 2-mercaptopropionic acid". Journal of Alloys and Compounds 858 (marzo 2021): 158315. http://dx.doi.org/10.1016/j.jallcom.2020.158315.

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26

Zhang, Xiaoli, Lipeng Wu, Youwei Zhang, Ruiqiang Xu e Yajun Lou. "Sodium-doped InP/ZnSeS/ZnS quantum dots as a saturable absorber for passive Q-switched fiber lasers". Journal of Luminescence 263 (novembre 2023): 120153. http://dx.doi.org/10.1016/j.jlumin.2023.120153.

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27

Lai, Chun-Feng, Yu-Ching Chang e Yu-Shan Huang. "Enhanced Luminous Efficacy and Stability of InP/ZnSeS/ZnS Quantum Dot-Embedded SBA-15 Mesoporous Particles for White Light-Emitting Diodes". Nanomaterials 12, n. 9 (4 maggio 2022): 1554. http://dx.doi.org/10.3390/nano12091554.

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Abstract (sommario):
Environmentally friendly quantum dots (QDs) of InP-based materials are widely investigated, but their reliability remains inadequate to realize their full potential and wide application. In this study, InP/ZnSeS/ZnS QDs (pristine QDs) were dispersed and embedded into Santa Barbara Amorphous-15 mesoporous particles (SBA-15 MPs) for the first time. A solvent-free method for preparing QD white light-emitting diodes (WLEDs) that is compatible with the WLED packaging process was developed. The photoluminescence (PL) spectrum of pristine QD powder exhibited cluster states and had huge redshift of approximately 23 nm. By comparison, the PL spectrum of the SBA-15 MP/QD hybrid powder had a slight redshift of approximately 8 nm, only because the pristine QDs were dispersed and embedded well in the SBA-15 MPs. The PL intensity of the SBA-15 MP/QD hybrid powder slightly decreased after heating and cooling compared with that of the pristine QDs. Moreover, the luminous efficacy of the SBA-15 MP/QD hybrid WLEDs was enhanced by approximately 14% compared with that of the pristine QD-WLEDs. Furthermore, reliability analysis revealed that the SBA-15 MPs could improve the stability of the pristine QDs on chips. Thus, these MPs promise good potential for applications in mini-LEDs in the future.
28

Yoo, Jeong-Yeol, Yoon-Jeong Choi e Jong-Gyu Kim. "Synthesis of narrow blue emission gradient ZnSeS quantum dots and their quantum dot light-emitting diode device performance". Journal of Luminescence 240 (dicembre 2021): 118415. http://dx.doi.org/10.1016/j.jlumin.2021.118415.

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29

Kim, Misung, Weon Ho Shin e Jiwon Bang. "Highly luminescent and stable green-emitting In(Zn,Ga)P/ZnSeS/ZnS small-core/thick-multishell quantum dots". Journal of Luminescence 205 (gennaio 2019): 555–59. http://dx.doi.org/10.1016/j.jlumin.2018.10.009.

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30

Min, Chan-Hong, e Jin Joo. "Studies on the effect of acetate ions on the optical properties of InP/ZnSeS core/shell quantum dots". Journal of Industrial and Engineering Chemistry 82 (febbraio 2020): 254–60. http://dx.doi.org/10.1016/j.jiec.2019.10.021.

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31

Park, Seon A., Woon Ho Jung, Jeong-Yeol Yoo, Chil Won Lee, Jang Sub Kim, Jong-Gyu Kim e Byung Doo Chin. "Electrical resonant effects of ligands on the luminescent properties of InP/ZnSeS/ZnS quantum dots and devices configured therefrom". Organic Electronics 87 (dicembre 2020): 105955. http://dx.doi.org/10.1016/j.orgel.2020.105955.

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32

Zimdars, Julia, Jan Pilger, Michael Entrup, Daniel Deiting, Andreas H. Schäfer e Michael Bredol. "A facile synthesis of alloyed Mn-doped ZnSeS nanoparticles using a modified selenium/sulfur precursor in a one-pot approach". New Journal of Chemistry 40, n. 10 (2016): 8465–70. http://dx.doi.org/10.1039/c6nj01493c.

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33

Ke, Bao, Xianwei Bai, Rongkai Wang, Yayun Shen, Chunxiao Cai, Kun Bai, Ruosheng Zeng, Bingsuo Zou e Zhencheng Chen. "Alkylthiol-enabled Se powder dissolving for phosphine-free synthesis of highly emissive, large-sized and spherical Mn-doped ZnSeS nanocrystals". RSC Advances 7, n. 71 (2017): 44867–73. http://dx.doi.org/10.1039/c7ra06873e.

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34

Umlauff, M., W. Langbein, H. Kalt, M. Scholl, J. Söllner, M. Heuken, H. Frost, A. Nebel e R. Beigang. "Optical Nonlinearities in ZnSe/ZnSSe Heterostructures". Materials Science Forum 182-184 (febbraio 1995): 203–6. http://dx.doi.org/10.4028/www.scientific.net/msf.182-184.203.

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35

Krysa, A. B., Yu V. Korostelin, V. I. Kozlovsky, P. V. Shapkin, H. Kalisch, R. Rüland, M. Heuken e K. Heime. "ZnSe/ZnMgSSe structures on ZnSSe substrates". Journal of Crystal Growth 214-215 (giugno 2000): 355–58. http://dx.doi.org/10.1016/s0022-0248(00)00107-x.

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36

Haase, M. A., H. Cheng, D. K. Misemer, T. A. Strand e J. M. DePuydt. "ZnSe‐ZnSSe electro‐optic waveguide modulators". Applied Physics Letters 59, n. 25 (16 dicembre 1991): 3228–29. http://dx.doi.org/10.1063/1.105740.

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37

Lim, Jaehoon, Myeongjin Park, Wan Ki Bae, Donggu Lee, Seonghoon Lee, Changhee Lee e Kookheon Char. "Highly Efficient Cadmium-Free Quantum Dot Light-Emitting Diodes Enabled by the Direct Formation of Excitons within InP@ZnSeS Quantum Dots". ACS Nano 7, n. 10 (24 settembre 2013): 9019–26. http://dx.doi.org/10.1021/nn403594j.

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38

Kang, Hyelim, Sohee Kim, Ji Hye Oh, Hee Chang Yoon, Jung-Ho Jo, Heesun Yang e Young Rag Do. "Color-by-Blue QD-Emissive LCD Enabled by Replacing RGB Color Filters with Narrow-Band GR InP/ZnSeS/ZnS QD Films". Advanced Optical Materials 6, n. 11 (15 marzo 2018): 1701239. http://dx.doi.org/10.1002/adom.201701239.

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39

Lomascolo, M., R. Cingolani, C. Stevens, M. Dabbicco, M. Ferrara, K. Syassen, G. H. Li e I. Suemune. "Radiative mechanisms in ZnSe/ZnSSe symmetric superlattices". Superlattices and Microstructures 16, n. 4 (dicembre 1994): 367–70. http://dx.doi.org/10.1006/spmi.1994.1153.

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40

Adegoke, Oluwasesan, Craig McKenzie e Niamh Nic Daeid. "Multi-shaped cationic gold nanoparticle-l-cysteine-ZnSeS quantum dots hybrid nanozyme as an intrinsic peroxidase mimic for the rapid colorimetric detection of cocaine". Sensors and Actuators B: Chemical 287 (maggio 2019): 416–27. http://dx.doi.org/10.1016/j.snb.2019.02.074.

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41

Stevens, C. J., R. Cingolani, L. Calcagnile, M. Dabbicco, R. A. Taylor, J. F. Ryan, M. Lomascolo e I. Suemune. "Excitonic processes and lasing in ZnSSe/ZnSe superlattices". Superlattices and Microstructures 16, n. 4 (dicembre 1994): 371–77. http://dx.doi.org/10.1006/spmi.1994.1154.

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42

Akinci, Özden, H. Hakan Gürel e Hilmi Ünlü. "Semi-empirical tight binding modelling of CdSTe/CdTe, ZnSSe/ZnSe and ZnSSe/ CdSe heterostructures". Thin Solid Films 517, n. 7 (febbraio 2009): 2431–37. http://dx.doi.org/10.1016/j.tsf.2008.11.040.

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43

Chen, W. R., S. J. Chang, Y. K. Su, T. Y. Tsai, J. F. Chen, W. H. Lan, W. J. Lin, Y. T. Cherng, C. H. Liu e U. H. Liaw. "ZnSe epitaxial layers and ZnSSe/ZnSe strain layer superlattices grown by molecular beam epitaxy". Superlattices and Microstructures 32, n. 1 (luglio 2002): 59–63. http://dx.doi.org/10.1006/spmi.2002.1057.

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44

Li, X., W. I. Wang e I. W. Tao. "‘Flip-chip’ transfer of ZnSSe/ZnSe/CdZnSe LED films". Electronics Letters 31, n. 6 (16 marzo 1995): 491–93. http://dx.doi.org/10.1049/el:19950344.

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45

Seemann, M., F. Kieseling, H. Stolz, G. Manzke, K. Henneberger, T. Passow e D. Hommel. "Phase resolved polariton interferences in a ZnSe-ZnSSe heterostructure". physica status solidi (c) 3, n. 7 (agosto 2006): 2453–56. http://dx.doi.org/10.1002/pssc.200668107.

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Mabrouk, Salima, Hervé Rinnert, Lavinia Balan, Jordane Jasniewski, Ghouti Medjahdi, Rafik Ben Chaabane e Raphaël Schneider. "Aqueous synthesis of core/shell/shell ZnSeS/Cu:ZnS/ZnS quantum dots and their use as a probe for the selective photoluminescent detection of Pb2+ in water". Journal of Photochemistry and Photobiology A: Chemistry 431 (ottobre 2022): 114050. http://dx.doi.org/10.1016/j.jphotochem.2022.114050.

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Tenishev, L. N., S. A. Permogorov, D. L. Fedorov, G. G. Yakushcheva e P. I. Kuznetsov. "Free Exciton Luminescence in ZnCdSe Solid Solutions, ZnSe Epitaxial Films and ZnSe1-xSx/ZnSe1-ySySuperlattices". Acta Physica Polonica A 90, n. 5 (novembre 1996): 959–64. http://dx.doi.org/10.12693/aphyspola.90.959.

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Jo, Jung-Ho, Dae-Yeon Jo, Sun-Hyoung Lee, Suk-Young Yoon, Han-Byule Lim, Bum-Joo Lee, Young Rag Do e Heesun Yang. "InP-Based Quantum Dots Having an InP Core, Composition-Gradient ZnSeS Inner Shell, and ZnS Outer Shell with Sharp, Bright Emissivity, and Blue Absorptivity for Display Devices". ACS Applied Nano Materials 3, n. 2 (28 gennaio 2020): 1972–80. http://dx.doi.org/10.1021/acsanm.0c00008.

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Adegoke, Oluwasesan, Kayode Oyinlola, Ojodomo J. Achadu e Zhugen Yang. "Blue-emitting SiO2-coated Si-doped ZnSeS quantum dots conjugated aptamer-molecular beacon as an electrochemical and metal-enhanced fluorescence biosensor for SARS-CoV-2 spike protein". Analytica Chimica Acta 1281 (novembre 2023): 341926. http://dx.doi.org/10.1016/j.aca.2023.341926.

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Matsumura, Nobuo, Mitsutaka Tsubokura, Nobuhiro Nakamura, Kazuhiro Miyagawa, Yoichi Miyanagi e Junji Saraie. "Nitrogen-Doped ZnSe and ZnSSe Grown by Molecular Beam Epitaxy". Japanese Journal of Applied Physics 29, Part 2, No. 2 (20 febbraio 1990): L221—L224. http://dx.doi.org/10.1143/jjap.29.l221.

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