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electrolyte 1 m napf 6 in dimethoxyethane  (DuoDuo Pharmaceutical Co Ltd)

 
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    Structured Review

    DuoDuo Pharmaceutical Co Ltd electrolyte 1 m napf 6 in dimethoxyethane
    Sodium ion diffusion models for ZnSe 0.7 Te 0.3 ( a ) with and ( b ) without TBs along the TB (Se: green, Zn: gray, Te: dark yellow, and Na: yellow). The energy barrier of sodium ion diffusing ( c ) along and ( f ) across the TB for ZnSe 0.7 Te 0.3 with TBs and without TBs. Sodium ion diffusion models for ZnSe 0.7 Te 0.3 ( d ) with TBs and ( e ) without TBs across the TB. The diffusion rate of sodium ions during ( g ) charging and ( h ) discharging is calculated by GITT. i The energy barrier of sodium ion for ZnSe 0.7 Te 0.3 with two TBs across the TB. Test temperature: 25(±0.5) °C with air convection. Type of <t>electrolyte:</t> 1 M NaPF 6 in dimethoxyethane. Source data are provided as a Source Data file.
    Electrolyte 1 M Napf 6 In Dimethoxyethane, supplied by DuoDuo Pharmaceutical Co Ltd, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/electrolyte 1 m napf 6 in dimethoxyethane/product/DuoDuo Pharmaceutical Co Ltd
    Average 90 stars, based on 1 article reviews
    electrolyte 1 m napf 6 in dimethoxyethane - by Bioz Stars, 2026-02
    90/100 stars

    Images

    1) Product Images from "Engineering twin structures and substitutional dopants in ZnSe 0.7 Te 0.3 anode material for enhanced sodium storage performance"

    Article Title: Engineering twin structures and substitutional dopants in ZnSe 0.7 Te 0.3 anode material for enhanced sodium storage performance

    Journal: Nature Communications

    doi: 10.1038/s41467-025-59707-0

    Sodium ion diffusion models for ZnSe 0.7 Te 0.3 ( a ) with and ( b ) without TBs along the TB (Se: green, Zn: gray, Te: dark yellow, and Na: yellow). The energy barrier of sodium ion diffusing ( c ) along and ( f ) across the TB for ZnSe 0.7 Te 0.3 with TBs and without TBs. Sodium ion diffusion models for ZnSe 0.7 Te 0.3 ( d ) with TBs and ( e ) without TBs across the TB. The diffusion rate of sodium ions during ( g ) charging and ( h ) discharging is calculated by GITT. i The energy barrier of sodium ion for ZnSe 0.7 Te 0.3 with two TBs across the TB. Test temperature: 25(±0.5) °C with air convection. Type of electrolyte: 1 M NaPF 6 in dimethoxyethane. Source data are provided as a Source Data file.
    Figure Legend Snippet: Sodium ion diffusion models for ZnSe 0.7 Te 0.3 ( a ) with and ( b ) without TBs along the TB (Se: green, Zn: gray, Te: dark yellow, and Na: yellow). The energy barrier of sodium ion diffusing ( c ) along and ( f ) across the TB for ZnSe 0.7 Te 0.3 with TBs and without TBs. Sodium ion diffusion models for ZnSe 0.7 Te 0.3 ( d ) with TBs and ( e ) without TBs across the TB. The diffusion rate of sodium ions during ( g ) charging and ( h ) discharging is calculated by GITT. i The energy barrier of sodium ion for ZnSe 0.7 Te 0.3 with two TBs across the TB. Test temperature: 25(±0.5) °C with air convection. Type of electrolyte: 1 M NaPF 6 in dimethoxyethane. Source data are provided as a Source Data file.

    Techniques Used: Diffusion-based Assay, Convection

    a CV curves and b galvanostatic charge and discharge curves at a current density of 0.2 A g –1 of ZnSe 0.7 Te 0.3 @C. c Rate performance and e long–term cycling at the current density of 1 A g –1 of ZnSe@C, ZnSe 0.5 Te 0.5 @C, ZnSe 0.8 Te 0.2 @C and ZnSe 0.7 Te 0.3 @C (1 A g –1 = 1.6 C). d Charge and discharge curves of ZnSe 0.7 Te 0.3 @C at different current densities. f Long cycle performance at the current density of 5 A g –1 of ZnSe@C and ZnSe 0.7 Te 0.3 @C. Test temperature: 25( ± 0.5)°C with air convection. Type of electrolyte: 1 M NaPF 6 in dimethoxyethane. Source data are provided as a Source Data file.
    Figure Legend Snippet: a CV curves and b galvanostatic charge and discharge curves at a current density of 0.2 A g –1 of ZnSe 0.7 Te 0.3 @C. c Rate performance and e long–term cycling at the current density of 1 A g –1 of ZnSe@C, ZnSe 0.5 Te 0.5 @C, ZnSe 0.8 Te 0.2 @C and ZnSe 0.7 Te 0.3 @C (1 A g –1 = 1.6 C). d Charge and discharge curves of ZnSe 0.7 Te 0.3 @C at different current densities. f Long cycle performance at the current density of 5 A g –1 of ZnSe@C and ZnSe 0.7 Te 0.3 @C. Test temperature: 25( ± 0.5)°C with air convection. Type of electrolyte: 1 M NaPF 6 in dimethoxyethane. Source data are provided as a Source Data file.

    Techniques Used: Convection

    a Ex situ XRD pattern of the ZnSe 0.7 Te 0.3 @C during the first charge and discharge process. b TEM image, c HRTEM image, d HAADF–STEM image, and e elemental mapping images of the ZnSe 0.7 Te 0.3 @C after two full discharge and charge cycles. f Schematic diagram of sodium ion reaction mechanism of ZnSe 0.7 Te 0.3 during the first charge and discharge process. Test temperature: 25(±0.5) °C with air convection. Type of electrolyte: 1 M NaPF 6 in dimethoxyethane. Source data are provided as a Source Data file.
    Figure Legend Snippet: a Ex situ XRD pattern of the ZnSe 0.7 Te 0.3 @C during the first charge and discharge process. b TEM image, c HRTEM image, d HAADF–STEM image, and e elemental mapping images of the ZnSe 0.7 Te 0.3 @C after two full discharge and charge cycles. f Schematic diagram of sodium ion reaction mechanism of ZnSe 0.7 Te 0.3 during the first charge and discharge process. Test temperature: 25(±0.5) °C with air convection. Type of electrolyte: 1 M NaPF 6 in dimethoxyethane. Source data are provided as a Source Data file.

    Techniques Used: Ex Situ, Convection



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    electrolyte 1 m napf 6 in dimethoxyethane  (DuoDuo Pharmaceutical Co Ltd)
    90
    DuoDuo Pharmaceutical Co Ltd electrolyte 1 m napf 6 in dimethoxyethane
    Sodium ion diffusion models for ZnSe 0.7 Te 0.3 ( a ) with and ( b ) without TBs along the TB (Se: green, Zn: gray, Te: dark yellow, and Na: yellow). The energy barrier of sodium ion diffusing ( c ) along and ( f ) across the TB for ZnSe 0.7 Te 0.3 with TBs and without TBs. Sodium ion diffusion models for ZnSe 0.7 Te 0.3 ( d ) with TBs and ( e ) without TBs across the TB. The diffusion rate of sodium ions during ( g ) charging and ( h ) discharging is calculated by GITT. i The energy barrier of sodium ion for ZnSe 0.7 Te 0.3 with two TBs across the TB. Test temperature: 25(±0.5) °C with air convection. Type of <t>electrolyte:</t> 1 M NaPF 6 in dimethoxyethane. Source data are provided as a Source Data file.
    Electrolyte 1 M Napf 6 In Dimethoxyethane, supplied by DuoDuo Pharmaceutical Co Ltd, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/electrolyte 1 m napf 6 in dimethoxyethane/product/DuoDuo Pharmaceutical Co Ltd
    Average 90 stars, based on 1 article reviews
    electrolyte 1 m napf 6 in dimethoxyethane - by Bioz Stars, 2026-02
    90/100 stars
    		  Buy from Supplier

    Image Search Results


    Sodium ion diffusion models for ZnSe 0.7 Te 0.3 ( a ) with and ( b ) without TBs along the TB (Se: green, Zn: gray, Te: dark yellow, and Na: yellow). The energy barrier of sodium ion diffusing ( c ) along and ( f ) across the TB for ZnSe 0.7 Te 0.3 with TBs and without TBs. Sodium ion diffusion models for ZnSe 0.7 Te 0.3 ( d ) with TBs and ( e ) without TBs across the TB. The diffusion rate of sodium ions during ( g ) charging and ( h ) discharging is calculated by GITT. i The energy barrier of sodium ion for ZnSe 0.7 Te 0.3 with two TBs across the TB. Test temperature: 25(±0.5) °C with air convection. Type of electrolyte: 1 M NaPF 6 in dimethoxyethane. Source data are provided as a Source Data file.

    Journal: Nature Communications

    Article Title: Engineering twin structures and substitutional dopants in ZnSe 0.7 Te 0.3 anode material for enhanced sodium storage performance

    doi: 10.1038/s41467-025-59707-0

    Figure Lengend Snippet: Sodium ion diffusion models for ZnSe 0.7 Te 0.3 ( a ) with and ( b ) without TBs along the TB (Se: green, Zn: gray, Te: dark yellow, and Na: yellow). The energy barrier of sodium ion diffusing ( c ) along and ( f ) across the TB for ZnSe 0.7 Te 0.3 with TBs and without TBs. Sodium ion diffusion models for ZnSe 0.7 Te 0.3 ( d ) with TBs and ( e ) without TBs across the TB. The diffusion rate of sodium ions during ( g ) charging and ( h ) discharging is calculated by GITT. i The energy barrier of sodium ion for ZnSe 0.7 Te 0.3 with two TBs across the TB. Test temperature: 25(±0.5) °C with air convection. Type of electrolyte: 1 M NaPF 6 in dimethoxyethane. Source data are provided as a Source Data file.

    Article Snippet: Sodium carboxymethyl cellulose and electrolyte (1 M NaPF 6 in dimethoxyethane) were bought from Duoduo Chemical Technology Co., Ltd. None of the reagents were further purified.

    Techniques: Diffusion-based Assay, Convection

    a CV curves and b galvanostatic charge and discharge curves at a current density of 0.2 A g –1 of ZnSe 0.7 Te 0.3 @C. c Rate performance and e long–term cycling at the current density of 1 A g –1 of ZnSe@C, ZnSe 0.5 Te 0.5 @C, ZnSe 0.8 Te 0.2 @C and ZnSe 0.7 Te 0.3 @C (1 A g –1 = 1.6 C). d Charge and discharge curves of ZnSe 0.7 Te 0.3 @C at different current densities. f Long cycle performance at the current density of 5 A g –1 of ZnSe@C and ZnSe 0.7 Te 0.3 @C. Test temperature: 25( ± 0.5)°C with air convection. Type of electrolyte: 1 M NaPF 6 in dimethoxyethane. Source data are provided as a Source Data file.

    Journal: Nature Communications

    Article Title: Engineering twin structures and substitutional dopants in ZnSe 0.7 Te 0.3 anode material for enhanced sodium storage performance

    doi: 10.1038/s41467-025-59707-0

    Figure Lengend Snippet: a CV curves and b galvanostatic charge and discharge curves at a current density of 0.2 A g –1 of ZnSe 0.7 Te 0.3 @C. c Rate performance and e long–term cycling at the current density of 1 A g –1 of ZnSe@C, ZnSe 0.5 Te 0.5 @C, ZnSe 0.8 Te 0.2 @C and ZnSe 0.7 Te 0.3 @C (1 A g –1 = 1.6 C). d Charge and discharge curves of ZnSe 0.7 Te 0.3 @C at different current densities. f Long cycle performance at the current density of 5 A g –1 of ZnSe@C and ZnSe 0.7 Te 0.3 @C. Test temperature: 25( ± 0.5)°C with air convection. Type of electrolyte: 1 M NaPF 6 in dimethoxyethane. Source data are provided as a Source Data file.

    Article Snippet: Sodium carboxymethyl cellulose and electrolyte (1 M NaPF 6 in dimethoxyethane) were bought from Duoduo Chemical Technology Co., Ltd. None of the reagents were further purified.

    Techniques: Convection

    a Ex situ XRD pattern of the ZnSe 0.7 Te 0.3 @C during the first charge and discharge process. b TEM image, c HRTEM image, d HAADF–STEM image, and e elemental mapping images of the ZnSe 0.7 Te 0.3 @C after two full discharge and charge cycles. f Schematic diagram of sodium ion reaction mechanism of ZnSe 0.7 Te 0.3 during the first charge and discharge process. Test temperature: 25(±0.5) °C with air convection. Type of electrolyte: 1 M NaPF 6 in dimethoxyethane. Source data are provided as a Source Data file.

    Journal: Nature Communications

    Article Title: Engineering twin structures and substitutional dopants in ZnSe 0.7 Te 0.3 anode material for enhanced sodium storage performance

    doi: 10.1038/s41467-025-59707-0

    Figure Lengend Snippet: a Ex situ XRD pattern of the ZnSe 0.7 Te 0.3 @C during the first charge and discharge process. b TEM image, c HRTEM image, d HAADF–STEM image, and e elemental mapping images of the ZnSe 0.7 Te 0.3 @C after two full discharge and charge cycles. f Schematic diagram of sodium ion reaction mechanism of ZnSe 0.7 Te 0.3 during the first charge and discharge process. Test temperature: 25(±0.5) °C with air convection. Type of electrolyte: 1 M NaPF 6 in dimethoxyethane. Source data are provided as a Source Data file.

    Article Snippet: Sodium carboxymethyl cellulose and electrolyte (1 M NaPF 6 in dimethoxyethane) were bought from Duoduo Chemical Technology Co., Ltd. None of the reagents were further purified.

    Techniques: Ex Situ, Convection