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Journal of Nanoparticle Research
Erschienen in: Journal of Nanoparticle Research 6/2017

01.06.2017 | Research Paper

CdTe magic-sized clusters and the use as building blocks for assembling two-dimensional nanoplatelets

verfasst von: Hu Xu, Yumei Hou, Hua Zhang

Erschienen in: Journal of Nanoparticle Research | Ausgabe 6/2017

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Abstract

A facile one-pot noninjection synthesis of CdTe magic-sized clusters (MSCs) and their use as building blocks for assembling two-dimensional (2D) quantum confined nanoplatelets (NPLs) are reported. Four distinct MSC families, with the first exciton absorption peaks at 447 nm (F447), 485 nm (F485), 535 nm (F535), and 555 nm (F555), are synthesized by the reaction between cadmium oleate and trioctylphosphine tellurium (TOP-Te) in octadecene media containing primary amine and TOP at appropriate intermediate temperatures. Especially, F447 is obtained in pure form and can self-assemble in situ into 2D NPLs in the reaction solution. The formation, growth, and transformation of CdTe MSCs are monitored mainly by UV–Vis absorption spectroscopy. The pure F447 and its assembled 2D NPLs are further characterized using transmission electron microscopy. The influence of various experimental variables, including reaction temperature, the nature, and amount of capping ligands, on the stability and growth kinetics of the obtained MSC families has been systematically investigated. Experimental results indicate that the appropriate reaction temperature and the presence of long hydrocarbon chain primary amines play a crucial role in the formation of MSCs and the subsequent assembly into 2D NPLs. Primary amines can also promote ultra-small sized CdTe regular nanocrystals to transform into MSCs, and therefore, CdTe MSCs can be obtained indirectly from regularly sized nanocrystals.
Vorheriger Artikel Nanostructured TiO2 and ZnO prepared by using pressurized hot water and their eco-toxicological evaluation
Nächster Artikel Magnetic phases at the molecular scale: the case of cylindrical Co nanoparticles

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Literatur
Cassette E, Mahler B et al (2012) Colloidal CdSe/CdS dot-in-plate nanocrystals with 2D-polarized emission. ACS Nano 6:6741–6750CrossRef
Dagtepe P, Chikan V et al (2007) Quantized growth of CdTe quantum dots; observation of magic-sized CdTe quantum dots. J Phys Chem C 111:14977–14983CrossRef
de Mello Donega C (2011) Synthesis and properties of colloidal heteronanocrystals. Chem Soc Rev 40:1512–1521CrossRef
Delikanli S, Guzelturk B et al (2015) Continuously tunable emission in inverted type-I CdS/CdSe core/crown semiconductor nanoplatelets. Adv Funct Mater 25:4282–4289CrossRef
Deng ZT, Schulz O et al (2010) Aqueous synthesis of zinc blende CdTe/CdS magic-core/thick-shell tetrahedral-shaped nanocrystals with emission tunable to near-infrared. J Am Chem Soc 132:5592–5593CrossRef
Dukes AD, McBride JR, Rosenthal SJ (2012) Synthesis of magic-sized CdSe and CdTe nanocrystals with diisooctylphosphinic acid. Chem Mater 22:6402–6408CrossRef
Efros AL, Nesbitt DJ (2016) Origin and control of blinking in quantum dots. Nat Nanotech 11:661–671CrossRef
Groeneveld E, van Berkum S et al (2011) Growth and stability of ZnTe magic-size nanocrystals. Small 7:1247–1256CrossRef
Groeneveld E, van Berkum S et al (2012) Highly luminescent (Zn, Cd) Te/CdSe colloidal heteronanowires with tunable electron–hole overlap. Nano Lett 12:749–757CrossRef
Hong X, Tan CL et al (2015) AuAg nanosheets assembled from ultrathin AuAg nanowires. J Am Chem Soc 137:1444–1447CrossRef
Huang M, Hickey SG et al (2015) Band-emission evolutions from magic-sized clusters to nanosized quantum dots of Cd3As2 in the hot-bubbling synthesis. J Phys Chem C 119:16390–16395CrossRef
Ithurria S, Bousquet G, Dubertret B (2011) Continuous transition from 3D to 1D confinement observed during the formation of CdSe nanoplatelets. J Am Chem Soc 133:3070–3077CrossRef
Jiang ZJ, Kelley DF (2010) Role of magic-sized clusters in the synthesis of CdSe nanorods. ACS Nano 4:1561–1572CrossRef
Jun YW, Lee JH et al (2005) Symmetry-controlled colloidal nanocrystals: nonhydrolytic chemical synthesis and shape determining parameters. J Phys Chem B 109:14795–14806CrossRef
Kasuya A, Sivamohan R et al (2004) Ultra-stable nanoparticles of CdSe revealed from mass spectrometry. Nat Mater 3:99–102CrossRef
Kwon SG, Hyeon T (2011) Formation mechanisms of uniform nanocrystals via hot-injection and heat-up methods. Small 7:2685–2702CrossRef
Li Z, Peng XG (2011) Size/shape-controlled synthesis of colloidal CdSe quantum disks: ligand and temperature effects. J Am Chem Soc 133:6578–6586CrossRef
Liu Y-H, Wayman VL, Gibbons PC, Loomis RA, Buhro WE (2010) Origin of High Photoluminescence Efficiencies in CdSe Quantum Belts. Nano Letters 10 (1):352-357
Liu YH, Wang F et al (2011) Lamellar assembly of cadmium selenide nanoclusters into quantum belts. J Am Chem Soc 133:17005–17013CrossRef
Liu L, Feng Y et al (2016) Facet and dimensionality control of Pt nanostructures for efficient oxygen reduction and methanol oxidation electrocatalysts. Nano Res 9:2811–2821CrossRef
Newton JC, Ramasamy K et al (2012) Low-temperature synthesis of magic-sized CdSe nanoclusters: influence of ligands on nanocluster growth and photophysical properties. J Phys Chem C 116:4380–4389CrossRef
Park YS, Okamoto Y et al (2012) Aqueous phase synthesized CdSe magic-sized clusters: solution composition dependence of adsorption layer structure. J Nanosci Nanotech 12:539–546CrossRef
Peng ZA, Peng XG (2000) Formation of high-quality CdTe, CdSe, and CdS nanocrystals using CdO as precursor. J Am Chem Soc 123:183–184CrossRef
Rogach AL, Kornowski A et al (1999) Synthesis and characterization of a size series of extremely small thiol-stabilized CdSe nanocrystals. J Phys Chem B 103:3065–3069CrossRef
Sengupta S, Sarma DD, Acharya S (2011) Coalescence of magic sized CdSe into rods and wires and subsequent energy transfer. J Mater Chem 21:11585–11591CrossRef
Silvi S, Credi A (2015) Luminescent sensors based on quantum dot–molecule conjugates. Chem Soc Rev 44:4275–4289CrossRef
Son JS, Yu JH et al (2011) Colloidal synthesis of ultrathin two-dimensional semiconductor nanocrystals. Adv Mater 23:3214–3219CrossRef
Son JS, Park K et al (2012) Dimension-controlled synthesis of CdS nanocrystals: from 0D quantum dots to 2D nanoplates. Small 8:2394–2402CrossRef
Sung DY, Gunjakar JL et al (2013) Graphene-assisted room-temperature synthesis of 2D nanostructured hybrid electrode materials: dramatic acceleration of the formation rate of 2D metal oxide nanoplates induced by reduced graphene oxide nanosheets. Chem Eur J 19:7109–7117CrossRef
Wang RB, Ouyang JY (2009) Single-sized colloidal CdTe nanocrystals with strong bandgap photoluminescence. Chem Commun 962–964
Wang JD, Zhai JZ, Han SM (2013) Non-injection one-pot preparation strategy for multiple families of magic-sized CdTe quantum dots with bright bandgap photoemission. Chem Engineer J 215-216:23–28CrossRef
Wang YY, Zhou Y et al (2015) Magic-size II–VI nanoclusters as synthons for flat colloidal nanocrystals. Inorg Chem 54:1165–1177CrossRef
Wuister SF, van Driel F, Meijerink A (2003) Luminescence and growth of CdTe quantum dots and clusters. Phys Chem Chem Phys 5:1253–1258CrossRef
Yang T, Lu M et al (2013) Synthesis of CdS quantum dots (QDs) via a hot-bubbling route and co-sensitized solar cells assembly. Chem Engineer J 225:776–783CrossRef
Yu K (2012) CdSe magic-sized nuclei, magic-sized nanoclusters and regular nanocrystals: monomer effects on nucleation and growth. Adv Mater 24:1123–1132CrossRef
Yu JH, Liu XY (2010) Giant Zeeman splitting in nucleation-controlled doped CdSe: Mn2+ quantum nanoribbons. Nat Mater 9:47–53CrossRef
Yu WW, Wang YA, Peng XG (2003) Formation and stability of size-, shape-, and structure-controlled CdTe nanocrystals: ligand effects on monomers and nanocrystals. Chem Mater 15:4300–4308CrossRef
Zanella M, Abbasi AZ et al (2010) Discontinuous growth of II−VI semiconductor nanocrystals from different materials. J Phys Chem C 114:6205–6215CrossRef
Zhang W, Zhang H et al (2012a) Scalable single-step noninjection synthesis of high-quality core/shell quantum dots with emission tunable from violet to near infrared. ACS Nano 6:11066–11073
Zhang W, Jin C et al (2012b) Noninjection facile synthesis of gram-scale highly luminescent CdSe multipod nanocrystals. Inorg Chem 51:531–535CrossRef
Metadaten
Titel
CdTe magic-sized clusters and the use as building blocks for assembling two-dimensional nanoplatelets
verfasst von
Hu Xu
Yumei Hou
Hua Zhang
Publikationsdatum
01.06.2017
Verlag
Springer Netherlands
Erschienen in
Journal of Nanoparticle Research / Ausgabe 6/2017
Print ISSN: 1388-0764
Elektronische ISSN: 1572-896X
DOI
https://doi.org/10.1007/s11051-017-3878-7

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