Transformation Pathway from CdSe Magic‐Size Clusters with Absorption Doublets at 373/393 nm to Clusters at 434/460 nm

Zhu, Jingxian; Cao, Zhaopeng; Zhu, Yongcheng; Rowell, N. L.; Li, Yan; Wang, Shanling; Zhang, Chunchun; Jiang, Gang; Zhang, Meng; Zeng, Jianrong; Yu, Kui

doi:10.1002/anie.202104986

“…[1][2][3][4][5][6][7][8][9][10][11][12][13][14][15][16] Thef ormer (MSC-A) exhibits distinct optical absorption peaking at ac onstant wavelength A expressed in nanometers (nm), while the latter (PC-A) is usually transparent at this wavelength Aa nd to longer wavelengths.T he MSCs and their counterpart PCs are quasi isomers and transform mutually via reversible intramolecular reorganization. Furthermore,t he transformation between types of MSCs has been observed, [1][2][3][4][5][6][7][8][9][10] following ap athway that appears to be PC-enabled comprising three key steps (Scheme S1). ForaMSC-A to MSC-B transformation, the three steps are MSC-A to PC-A, PC-A to PC-B,and PC-B to MSC-B.However,the reported transformations are limited to those between two binary MSCs, [3][4][5][6][7][8][9][10] or between ab inary MSC and at ernary MSC.…”

Section: Introductionmentioning

confidence: 99%

“…Furthermore,t he transformation between types of MSCs has been observed, [1][2][3][4][5][6][7][8][9][10] following ap athway that appears to be PC-enabled comprising three key steps (Scheme S1). ForaMSC-A to MSC-B transformation, the three steps are MSC-A to PC-A, PC-A to PC-B,and PC-B to MSC-B.However,the reported transformations are limited to those between two binary MSCs, [3][4][5][6][7][8][9][10] or between ab inary MSC and at ernary MSC. [1,2,5] Before the present study, transformations in ternary MSCs have not been reported.…”

Section: Introductionmentioning

confidence: 99%

Transformation Pathways in Colloidal CdTeSe Magic‐Size Clusters

Yang

¹

,

Li

²

,

Luan

³

et al. 2021

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Ararely studied transformation in colloidal ternary magic-size clusters (MSCs) is addressed. We report the first observation of the transformation from ternary CdTeSe MSC-399 to MSC-422, whichoccurs at room temperature.These two MSC types displaysharp optical absorption resonances at 399 and 422 nm, respectively,and are related in that they are quasi isomers,together with their counterpart precursor compounds (PCs). Binary CdTea nd CdSe samples were prepared in the prenucleation stage also called the induction period (IP). After they were mixed and placed in am ixture of toluene and octylamine,the transformation was found to take place and to be assisted by the addition of the CdSe IP sample.Abinary IP sample contains corresponding binary PCs and monomers (Mo) and fragments (Fr). We argue that the transformation pathway is enabled by the corresponding ternary PCs,involving the substitution reaction, namely CdTeSe PC-399 + CdSe (Mo/Fr)-1 ) CdTeSe PC-422 + CdSe (Mo/Fr)-2. The present study provides an in-depth understanding of the formation characteristics of the MSCs.

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“…It is established that colloidal semiconductor compound magic-size clusters (MSCs) have particular precursor compounds (PCs). [1][2][3][4][5][6][7][8][9][10][11][12][13][14][15][16] Thef ormer (MSC-A) exhibits distinct optical absorption peaking at ac onstant wavelength A expressed in nanometers (nm), while the latter (PC-A) is usually transparent at this wavelength Aa nd to longer wavelengths.T he MSCs and their counterpart PCs are quasi isomers and transform mutually via reversible intramolecular reorganization. Furthermore,t he transformation between types of MSCs has been observed, [1][2][3][4][5][6][7][8][9][10] following ap athway that appears to be PC-enabled comprising three key steps (Scheme S1).…”

Section: Introductionmentioning

confidence: 99%

“…[30][31][32] Fors emiconductor binary systems,a nI Ps ample typically contains av ariety of species,i ncluding the corresponding ME PCs, monomers (Mo), and fragments (Fr) (Scheme S2). [1][2][3][4][5][6][7][8][9][10][11][12][13][14][15][16] After two binary IP samples of CdTea nd CdSe were mixed with each other, ternary CdTeSe MSC-399 was seen to evolve at room temperature when the mixture was incubated or placed in mixtures of toluene (Tol) and octylamine (OTA). [1,2] The formation of the counterpart PC for MSC-399, PC-399, occurred as described by the monomer substitution reaction given in Equation (1): [1] CdTe PC-371 þ CdSe ðMo=FrÞ)…”

Section: Introductionmentioning

confidence: 99%

Transformation Pathways in Colloidal CdTeSe Magic‐Size Clusters

Yang

¹

,

Li

²

,

Luan

³

et al. 2021

Self Cite

View full text Add to dashboard Cite

Ararely studied transformation in colloidal ternary magic-size clusters (MSCs) is addressed. We report the first observation of the transformation from ternary CdTeSe MSC-399 to MSC-422, whichoccurs at room temperature.These two MSC types displaysharp optical absorption resonances at 399 and 422 nm, respectively,and are related in that they are quasi isomers,together with their counterpart precursor compounds (PCs). Binary CdTea nd CdSe samples were prepared in the prenucleation stage also called the induction period (IP). After they were mixed and placed in am ixture of toluene and octylamine,the transformation was found to take place and to be assisted by the addition of the CdSe IP sample.Abinary IP sample contains corresponding binary PCs and monomers (Mo) and fragments (Fr). We argue that the transformation pathway is enabled by the corresponding ternary PCs,involving the substitution reaction, namely CdTeSe PC-399 + CdSe (Mo/Fr)-1 ) CdTeSe PC-422 + CdSe (Mo/Fr)-2. The present study provides an in-depth understanding of the formation characteristics of the MSCs.

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“…Colloidal semiconductor binary II–VI metal chalcogenide (ME) magic-size clusters (MSCs) and quantum dots (QDs) are expected to improve our understanding of the evolution of optical/electronic properties when the size increases from individual molecules toward extended bulk materials. − It has long been acknowledged that MSCs and QDs have different optical properties. − For example, MSCs have a relatively narrow-band optical absorption due to their tight size distribution. Due to structural stability, the absorption of each MSC species peaks at essentially a constant wavelength.…”

mentioning

confidence: 99%

Evolution of Two Types of ZnTe Magic-Size Clusters Displaying Sharp Doublets in Optical Absorption

Wang

¹

,

Zhang

²

,

Zhang

³

et al. 2021

J. Phys. Chem. Lett.

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The two-pathway model proposed for colloidal semiconductor metal chalcogenide (ME) quantum dots (QDs) and magic-size clusters (MSCs) is demonstrated for ZnTe. Two new types of ZnTe MSCs have been found, which exhibit sharp optical absorption doublets peaking at 356/389 and 389/420 nm. Labeled dMSC-389 and dMSC-420, respectively, they were produced from reaction mixtures in 1-octadecene (ODE) of zinc oleate (Zn(OA)2), tri-n-octylphosphine telluride (TeTOP), diphenylphosphine (HPPh2), and acetic acid (HOAc, CH3COOH). The collective use of HOAc and HPPh2 enabled the exclusive production of dMSC-389 and dMSC-420 from reaction mixtures that had high Zn-to-Te feed molar ratios and a high Te feed concentration of 60 mmol/kg. The present findings demonstrate the utility of HOAc in synthesizing MSCs displaying a sharp absorption doublet, as well as of a secondary phosphine that decreases the temperature at which the M–E covalent bonds form.

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Transformation Pathway from CdSe Magic‐Size Clusters with Absorption Doublets at 373/393 nm to Clusters at 434/460 nm

Cited by 17 publications

References 63 publications

Transformation Pathways in Colloidal CdTeSe Magic‐Size Clusters

Transformation Pathways in Colloidal CdTeSe Magic‐Size Clusters

Transformation Pathways in Colloidal CdTeSe Magic‐Size Clusters

Evolution of Two Types of ZnTe Magic-Size Clusters Displaying Sharp Doublets in Optical Absorption

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