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4,841 to 4,850 of 8,204 Results

Enhancing Bifunctionality of CoN Nanowires by Mn Doping for Long-lasting Zn-Air Batteries Jun 11, 2022 - MOE Tier 2-2017 - Noval Plasma Zhang, Yongqi, 2022, "Enhancing Bifunctionality of CoN Nanowires by Mn Doping for Long-lasting Zn-Air Batteries", https://doi.org/10.21979/N9/7STU9Y, DR-NTU (Data), V1 In this work, we deploy the effective strategy of Mn doping to improve both OER and ORR activity of CoN nanowires as the cathode material for ZAB
Mn-CoN.rar Jun 11, 2022 - Enhancing Bifunctionality of CoN Nanowires by Mn Doping for Long-lasting Zn-Air Batteries RAR Archive - 96.0 MB - MD5: e11d9a2da517a3a48272115e1899f94e
Fluorine-Induced Dual Defects in Cobalt Phosphide Nanosheets Enhance Hydrogen Evolution Reaction Activity Jun 11, 2022 - MOE Tier 2-2017 - Noval Plasma Xu, Kun, 2022, "Fluorine-Induced Dual Defects in Cobalt Phosphide Nanosheets Enhance Hydrogen Evolution Reaction Activity", https://doi.org/10.21979/N9/HGBS3A, DR-NTU (Data), V1 Herein, we report that fluorine incorporation into cobalt phosphide alloy has a unique effect – it creates both F-anion doping and P vacancy, which results in nearly 15-fold enhancement in catalytic activity for hydrogen evolution reaction (HER) in neutral solution.
F-CoP.rar Jun 11, 2022 - Fluorine-Induced Dual Defects in Cobalt Phosphide Nanosheets Enhance Hydrogen Evolution Reaction Activity RAR Archive - 13.4 MB - MD5: f38ef578e2656df72527cd29f5941b03
Yin-Yang Harmony: Metal and Non-metal Dual-Doping Boosts Electrocatalytic Activity for Alkaline Hydrogen Evolution Jun 11, 2022 - MOE Tier 2-2017 - Noval Plasma Xu, Kun, 2022, "Yin-Yang Harmony: Metal and Non-metal Dual-Doping Boosts Electrocatalytic Activity for Alkaline Hydrogen Evolution", https://doi.org/10.21979/N9/D7H7TU, DR-NTU (Data), V1 In this work, we take CoP as the model material and demonstrate that a metal and nonmetal dual-doping strategy can achieve simultaneous modulation of these three parameters by inducing lattice irregularity and optimizing the electronic configuration in CoP nanomaterials.
O, Cu-CoP.rar Jun 11, 2022 - Yin-Yang Harmony: Metal and Non-metal Dual-Doping Boosts Electrocatalytic Activity for Alkaline Hydrogen Evolution RAR Archive - 39.1 MB - MD5: b7299f6b601de3d521c9055427802094
Replication Data for: Water-stable Perovskite Quantum Dots-Based FRET Nanosensor for the Detection of Rhodamine 6G in Water, Food, and Biological Samples Jun 6, 2022 - Chan Kok Ken Chan, Kok Ken, 2022, "Replication Data for: Water-stable Perovskite Quantum Dots-Based FRET Nanosensor for the Detection of Rhodamine 6G in Water, Food, and Biological Samples", https://doi.org/10.21979/N9/8ZURD3, DR-NTU (Data), V1, UNF:6:DBhvRwxxlwI1iwvRkAnN1A== [fileUNF] The practical application of perovskite quantum dots (QDs) for sensing in the aqueous phase has been restricted by their poor resistance to moisture and oxygen due to their highly ionic characteristic. In this work, we employed silica and phospholipid co-encapsulated water-stable...
Fig 2b inset1.jpg Jun 6, 2022 - Replication Data for: Water-stable Perovskite Quantum Dots-Based FRET Nanosensor for the Detection of Rhodamine 6G in Water, Food, and Biological Samples JPEG Image - 105.8 KB - MD5: 4f05b82455379b58dd7c8886c7c434df
Fig 2b inset2.jpg Jun 6, 2022 - Replication Data for: Water-stable Perovskite Quantum Dots-Based FRET Nanosensor for the Detection of Rhodamine 6G in Water, Food, and Biological Samples JPEG Image - 74.0 KB - MD5: 9084d5846c6d19c8220e61d986a79909
Fig 2b.tab Jun 6, 2022 - Replication Data for: Water-stable Perovskite Quantum Dots-Based FRET Nanosensor for the Detection of Rhodamine 6G in Water, Food, and Biological Samples Tabular Data - 9.4 KB - 4 Variables, 151 Observations - UNF:6:xtLdAg0ONNwjz2I2Sy6tIQ==

Enhancing Bifunctionality of CoN Nanowires by Mn Doping for Long-lasting Zn-Air Batteries

Jun 11, 2022 - MOE Tier 2-2017 - Noval Plasma

Zhang, Yongqi, 2022, "Enhancing Bifunctionality of CoN Nanowires by Mn Doping for Long-lasting Zn-Air Batteries", https://doi.org/10.21979/N9/7STU9Y, DR-NTU (Data), V1

In this work, we deploy the effective strategy of Mn doping to improve both OER and ORR activity of CoN nanowires as the cathode material for ZAB

Mn-CoN.rar

Jun 11, 2022 - Enhancing Bifunctionality of CoN Nanowires by Mn Doping for Long-lasting Zn-Air Batteries

RAR Archive - 96.0 MB -

Fluorine-Induced Dual Defects in Cobalt Phosphide Nanosheets Enhance Hydrogen Evolution Reaction Activity

Jun 11, 2022 - MOE Tier 2-2017 - Noval Plasma

Xu, Kun, 2022, "Fluorine-Induced Dual Defects in Cobalt Phosphide Nanosheets Enhance Hydrogen Evolution Reaction Activity", https://doi.org/10.21979/N9/HGBS3A, DR-NTU (Data), V1

Herein, we report that fluorine incorporation into cobalt phosphide alloy has a unique effect – it creates both F-anion doping and P vacancy, which results in nearly 15-fold enhancement in catalytic activity for hydrogen evolution reaction (HER) in neutral solution.

F-CoP.rar

Jun 11, 2022 - Fluorine-Induced Dual Defects in Cobalt Phosphide Nanosheets Enhance Hydrogen Evolution Reaction Activity

RAR Archive - 13.4 MB -

Yin-Yang Harmony: Metal and Non-metal Dual-Doping Boosts Electrocatalytic Activity for Alkaline Hydrogen Evolution

Jun 11, 2022 - MOE Tier 2-2017 - Noval Plasma

Xu, Kun, 2022, "Yin-Yang Harmony: Metal and Non-metal Dual-Doping Boosts Electrocatalytic Activity for Alkaline Hydrogen Evolution", https://doi.org/10.21979/N9/D7H7TU, DR-NTU (Data), V1

In this work, we take CoP as the model material and demonstrate that a metal and nonmetal dual-doping strategy can achieve simultaneous modulation of these three parameters by inducing lattice irregularity and optimizing the electronic configuration in CoP nanomaterials.

O, Cu-CoP.rar

Jun 11, 2022 - Yin-Yang Harmony: Metal and Non-metal Dual-Doping Boosts Electrocatalytic Activity for Alkaline Hydrogen Evolution

RAR Archive - 39.1 MB -

Replication Data for: Water-stable Perovskite Quantum Dots-Based FRET Nanosensor for the Detection of Rhodamine 6G in Water, Food, and Biological Samples

Jun 6, 2022 - Chan Kok Ken

Chan, Kok Ken, 2022, "Replication Data for: Water-stable Perovskite Quantum Dots-Based FRET Nanosensor for the Detection of Rhodamine 6G in Water, Food, and Biological Samples", https://doi.org/10.21979/N9/8ZURD3, DR-NTU (Data), V1, UNF:6:DBhvRwxxlwI1iwvRkAnN1A== [fileUNF]

The practical application of perovskite quantum dots (QDs) for sensing in the aqueous phase has been restricted by their poor resistance to moisture and oxygen due to their highly ionic characteristic. In this work, we employed silica and phospholipid co-encapsulated water-stable...

Fig 2b inset1.jpg

Jun 6, 2022 - Replication Data for: Water-stable Perovskite Quantum Dots-Based FRET Nanosensor for the Detection of Rhodamine 6G in Water, Food, and Biological Samples

JPEG Image - 105.8 KB -

Fig 2b inset2.jpg

Jun 6, 2022 - Replication Data for: Water-stable Perovskite Quantum Dots-Based FRET Nanosensor for the Detection of Rhodamine 6G in Water, Food, and Biological Samples

JPEG Image - 74.0 KB -

Fig 2b.tab

Jun 6, 2022 - Replication Data for: Water-stable Perovskite Quantum Dots-Based FRET Nanosensor for the Detection of Rhodamine 6G in Water, Food, and Biological Samples

Tabular Data - 9.4 KB - 4 Variables, 151 Observations -

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