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1. Pillar effect boosting the electrochemical stability of Prussian blue-polypyrrole for potassium ion batteries

   Due to the high theoretical capacity and electrode potential, Prussian blue is regarded as promising cathode material for potassium ion batteries....

   Mengmeng Zhou, **aomeng Tian, ... Jieshan Qiu in Nano Research

   Article 13 April 2023
   

2. Nitrogen-doped carbon dots-modified Prussian blue with sandwich-like structure as a high-performance electrochromic material

   Prussian blue (PB), as a promising inorganic electrochromic material (ECM), has been widely used in smart windows, displays, sensors, etc. However,...

   Yaqi Zhang, Lide Li, ... Rufan Zhang in Nano Research

   Article 12 January 2024
   

3. Prussian blue assembled on graphene oxide for enhanced capacitive deionization and water disinfection

   Capacitive deionization (CDI) with water disinfection materials is an energy-efficient technology for the simultaneous desalination and...

   Nan Li, Panyu Ren, ... Peng Li in Science China Materials

   Article 07 December 2023
   

4. Active cation-integration high-entropy Prussian blue analogues cathodes for efficient Zn storage

   Mn-based Prussian blue analogues (Mn-PBAs), featuring a three-dimensional (3D) metal-organic framework and multiple redox couples, have gained wide...

   Jiangyuan **ng, Yongsheng Zhang, ... Qianzheng ** in Nano Research

   Article 21 October 2022
   

5. Enhanced conductivity and stability of Prussian blue cathodes in sodium-ion batteries by surface vapor-phase molecular self-assembly

   With many merits such as facile synthesis, economy, and relatively high theoretical capacity, Prussian blue analogs (PBAs) are considered promising...

   Tao Yuan, **aopan Fu, ... Shiyou Zheng in Nano Research

   Article 24 January 2024
   

6. Prussian blue-integrated porous β-TCP scaffolds for photothermal anti-tumor and NO-augmented osteogenesis

   With the increasing attention paid to the recurrence of malignant bone tumors and bone defect repair have raised an urgent need of the advance of...

   **ang Li, Hanxu Zhang, ... **song Pan in Journal of Materials Science

   Article 23 September 2023
   

7. FeNi Prussian blue analogues on highly graphitized carbon nanosheets as efficient glucose sensors

   Meeting the continuous glucose monitoring requirements of individuals necessitates the research and development of sensors with high sensitivity and...

   **-Hang Xue, Qiu-Hong Sun, ... **-Jie Qian in Rare Metals

   Article 14 March 2024
   

8. Enhanced electrochromic properties of inorganic–organic tungsten oxide and Prussian blue core–shell film

   Prussian blue (Fe ₄ [Fe(CN) ₆ ] ₃ , PB) has become a widely studied anodic electrochromic material due to its advantages such as large optical modulation...

   Yue Meng, Zixu Li, Zhifeng Liu in Journal of Materials Science: Materials in Electronics

   Article 30 September 2022
   

9. The activity origin of FeCo Prussian blue analogue for ambient electrochemical hydrogenation of nitrate to ammonia in neutral electrolyte

   Electrochemical reduction of nitrate to ammonia (nitrate reduction reaction, NO ₃ ⁻ RR) under ambient conditions is an alternative for ammonia synthesis...

   Shenghua Ye, **uyuan Yang, ... Qianling Zhang in Science China Materials

   Article 14 July 2023
   

10. Improving the electrochromic performance of prussian blue (PB) thin films by using an innovative electrothermophoresis method

    An innovative method called electrothermophoresis (ETP), which involves the use of a temperature gradient and a pulsed potential, was investigated...

    M. Safari Sekhavat, F. E. Ghodsi in Journal of Materials Research

    Article 17 April 2023
    

11. Engineering CuMn Prussian blue analog-shelled nanobox for efficient electrochemical reduction of nitrate to ammonia

    Electrocatalytic nitrate reduction reaction (ENRR) for ammonia synthesis is a promising strategy to relieve nitration contamination, as well as an...

    Zi-Yi Yang, Yu-Dong Li, ... **ao-Hui Yang in Tungsten

    Article 30 May 2024
    

12. Core—shell Prussian blue analogues derived from metal-organic frameworks as efficient electrocatalysts for oxygen evolution reaction

    Develo** high-performance and low-cost electrocatalysts for oxygen evolution reaction (OER) is still a great challenge for water-splitting...

    Qing Zhang, Hongyan Wang, ... Zhengyu Bai in Nano Research

    Article 22 August 2022
    

13. Controlled growth of a graphdiyne-Prussian blue analog heterostructure for efficient ammonia production

    Selective and efficient ammonia (NH ₃ ) production using an electrocatalytic nitrate reduction reaction (ECNtRR) under ambient conditions provides a...

    Yaqi Gao, Huimin Liu, ... Yuliang Li in NPG Asia Materials

    Article Open access 31 March 2023
    

14. Synthesis of prussian blue analog (Co/TCNi/HCCr) nanoparticles using a facile co-precipitation approach and evaluation of their dielectric characteristics for electronic applications

    The Prussian blue analog Co _0.4 /(TCNi) _0.2 /(HCCr) _0.6 (PBA) nanoparticles were synthesized via a chemical co-precipitation approach. The structural...

    S. Mosaad, Ahmed H. Ibrahim, ... Elsayed Elgazzar in Journal of Materials Science: Materials in Electronics

    Article Open access 23 November 2023
    

15. Polymorphic cerium-based Prussian blue derivatives with in situ growing CNT/Co heterojunctions for enhanced microwave absorption via polarization and magnetization

    In this paper, the structure evolution of cerium cobaltohexanoate (Ce[Co(CN) ₆ ], Ce-Co Prussian blue analog (PBA)) has been realized by solvent...

    Jixi Zhou, **nmeng Huang, ... Zirui Jia in Nano Research

    Article 18 November 2023
    

16. Prussian blue analogues-derived nitrogen-doped carbon-coated FeO/CoO hollow nanocages as a high-performance anode material for Li storage

    The design of electrode materials with specific structures is considered a promising approach for improving the performance of lithium-ion batteries...

    Chen Liu, Shuang Yuan, ... Qiang Wang in Rare Metals

    Article 20 October 2023
    

17. Design of manganese ion coated Prussian blue nanocarrier for the therapy of refractory diffuse large B-cell lymphoma based on a comprehensive analysis of ferroptosis regulators from clinical cases

    Diffuse large B-cell lymphoma (DLBCL) is a prevalent human malignancy, and understanding its biology will help identify problems in refractory...

    Yulu Yang, Rui Chen, ... Kaiyong Cai in Nano Research

    Article 07 December 2022
    

18. Designing TiO₂/Au/Prussian blue heterostructures nanorod arrays for ultra-stable cycle and ultra-fast response electrochromism

    Prussian blue (PB) is an anodic coloring candidate in the wide area of electrochromic (EC) applications. However, the co-influence of weak adhesion...

    Miao Xu, Kang Li, ... Yao Li in Nano Research

    Article 22 October 2022
    

19. Determining internal porosity in Prussian blue analogue cathode materials using positron annihilation lifetime spectroscopy

    Dominik Boras, Ida Nielsen, ... William R. Brant in Journal of Materials Science

    Article Open access 02 November 2023
    

20. Oxidation-State-Dependent Nonlinear Absorption of Prussian Blue

    Research concerning the third-order nonlinear optical (NLO) performance of Prussian blue (PB) is rare. Here, we report the correlation between the...

    Changnan Wu, Hui Li, ... Chi Zhang in Journal of Electronic Materials

    Article 29 October 2021