Solvent-Less Solid State Synthesis of Dispersible Metal and Semiconducting Metal Sulfide Nanocrystals

Bera, Abhijit; Busupalli, Balanagulu; Prasad, Bhagavatula L. V.

doi:10.1021/acssuschemeng.8b02292

Cited by 15 publications

(13 citation statements)

References 88 publications

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“…A second key advantage of this approach based on liquid mercury is the possibility of conducting highly concentrated syntheses leading to several grams of NCs per experiment . A significant effort has been conducted to achieve gram-scale synthesis for PbS, ,− but this effort was still lacking for HgTe, which has been identified as a major limitation toward industrial transfer of mid-IR NCs . Here, we have been able to develop a procedure which allows the synthesis of 7 g of HgTe NCs out of 100 mL of reaction medium and which used only 50 mL of solvent for two steps of cleaning (see Figures a,b and S15).…”

Section: Discussionmentioning

confidence: 99%

Near- to Long-Wave-Infrared Mercury Chalcogenide Nanocrystals from Liquid Mercury

et al. 2020

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HgTe nanocrystals are currently the most promising colloidal material for infrared detection, combining broadly tunable infrared absorption and photoconductive properties. Current synthesis leads to a limited amount of material and relies on a highly toxic water-soluble form of Hg. Here, we explore the possibility of using Hg thiolate as Hg source and demonstrate that the latter can be formed in situ from liquid Hg. The developed protocol allows large masses (7 g) and highly concentrated (100 g/L) synthesis, which is a step forward for the transfer of this material towards industry. The transport properties of the material have also been investigated and we observe a transition from p to n-type with size. We observe that the threshold of the p to n switch depends on the growth method which enables for a given size of nanocrystal the formation of p-n junction. This work has great potential to design infrared sensor with optimized charge dissociation.

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Section: Discussionmentioning

confidence: 99%

Near- to Long-Wave-Infrared Mercury Chalcogenide Nanocrystals from Liquid Mercury

et al. 2020

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“…105 More recently, monodispersed Ag NPs (4.04 AE 0.45 nm) were synthesized using a silver thiolate as a starting material. 99 By manually grinding the metal precursor with NaBH 4 in an agate mortar, the metal thiolates precursor were reduced to generate Ag and thiol stabilizing agents. The thiol molecules are responsible to control the particle growth and to stabilize the Ag NPs.…”

Section: Monometallic Npsmentioning

confidence: 99%

“…This was mainly used for the preparation of semiconducting PbS, CdS, ZnS, and CuS NPs from Pb, Cd, Zn, and Cu thiolates, respectively. 99 Other thiolates have been used in the synthesis of Ag clusters by simple manual grinding. 107,108,120 The synthetic procedure afforded Ag 9 , 120 Ag 32 (ref.…”

Section: Monometallic Npsmentioning

confidence: 99%

Challenges and opportunities in the bottom-up mechanochemical synthesis of noble metal nanoparticles

et al. 2020

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“…CdS and CdSe-based nanocrystals have been explored extensively for cellular imaging/labeling, , solar cell, , and light emitting devices. − The unique optoelectronic properties in these nanocrystals often arise due to the confinement of charge carriers . Further, tunable emission in colloidal nanocrystals is significantly influenced by the composition of the constituents. − The high extinction coefficient and photoluminescence quantum yield (PLQY) are added advantages of semiconductor nanocrystals . However, the use of the toxic phosphine-based solvent and often tedious fabrication routes retard the wide-scale application.…”

Section: Introductionmentioning

confidence: 99%

“…16−18 The high extinction coefficient and photoluminescence quantum yield (PLQY) are added advantages of semiconductor nanocrystals. 19 However, the use of the toxic phosphine-based solvent and often tedious fabrication routes retard the wide-scale application. Hence, it is worthy of developing cost-effective and environmentally benign synthetic protocols for semiconductor nanocrystals for solid-state white light emission.…”

Section: ■ Introductionmentioning

confidence: 99%

One-Pot Phosphine-Free Route for Single-Component White Light Emitting CdSe_xS_y Alloy Nanocrystals

Jaiswal

Pathak

Kundu

et al. 2021

ACS Sustainable Chem. Eng.

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In an enduring quest to develop highly efficient display and lighting devices over the decades, semiconductor nanocrystals have recently emerged as favorable candidates. However, developing a prudent and viable methodology to fabricate high-quality semiconductor nanocrystals exhibiting tunable luminescence, including single-component white light emission, is challenging. Herein, we report a facile one-pot synthetic route to fabricate white light emitting CdSe x S y nanocrystals demonstrating high quantum yield using CdO, S powder, and Se powder as precursors. A phosphine-free route was adopted, employing paraffin oil as the reducing agent and solvent for the fabrication. The optical properties can be effectively tailored by controlling the reaction time and the Se/S molar ratio. The pristine CdSe x S y nanocrystals exhibited a broad visible range emission from 400 to 750 nm. The CdSe x S y nanocrystals (Se/S = 0.4) displayed white light emission with Commission Internationale de l'Eclairage (CIE) chromaticity coordinates of (0.30, 0.31) and quantum yield of 50 ± 3%. Moreover, by manipulating the Se/S ratio effectively, the band-edge (∼400−450 nm) to trap-state (∼550−750 nm) emission was tuned, and the distinct shades of white light were obtained. The white light emission was retained in nanocrystalsembedded poly(methyl methacrylate) (PMMA) thin film and also in the hydrogel matrix. Furthermore, white light emission characteristics from CdSe x S y nanocrystals (Se/S = 0.4), PMMA thin film, and thin film coated white light emitting devices were found to be similar even after months of fabrication, indicating the high stability of the nanocrystals and sustainability of the materials derived from nanocrystals. The one-pot, low-cost fabrication route demonstrated in the present study offers the promising scope of white light emitting CdSe x S y nanocrystals in solid-state display applications.

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Solvent-Less Solid State Synthesis of Dispersible Metal and Semiconducting Metal Sulfide Nanocrystals

Cited by 15 publications

References 88 publications

Near- to Long-Wave-Infrared Mercury Chalcogenide Nanocrystals from Liquid Mercury

Near- to Long-Wave-Infrared Mercury Chalcogenide Nanocrystals from Liquid Mercury

Challenges and opportunities in the bottom-up mechanochemical synthesis of noble metal nanoparticles

One-Pot Phosphine-Free Route for Single-Component White Light Emitting CdSe_xS_y Alloy Nanocrystals

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Solvent-Less Solid State Synthesis of Dispersible Metal and Semiconducting Metal Sulfide Nanocrystals

Cited by 15 publications

References 88 publications

Near- to Long-Wave-Infrared Mercury Chalcogenide Nanocrystals from Liquid Mercury

Near- to Long-Wave-Infrared Mercury Chalcogenide Nanocrystals from Liquid Mercury

Challenges and opportunities in the bottom-up mechanochemical synthesis of noble metal nanoparticles

One-Pot Phosphine-Free Route for Single-Component White Light Emitting CdSexSy Alloy Nanocrystals

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Product

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One-Pot Phosphine-Free Route for Single-Component White Light Emitting CdSe_xS_y Alloy Nanocrystals