Wanyi Nie

19.5k total citations · 8 hit papers
123 papers, 16.4k citations indexed

About

Wanyi Nie is a scholar working on Electrical and Electronic Engineering, Materials Chemistry and Polymers and Plastics. According to data from OpenAlex, Wanyi Nie has authored 123 papers receiving a total of 16.4k indexed citations (citations by other indexed papers that have themselves been cited), including 116 papers in Electrical and Electronic Engineering, 72 papers in Materials Chemistry and 32 papers in Polymers and Plastics. Recurrent topics in Wanyi Nie's work include Perovskite Materials and Applications (102 papers), Quantum Dots Synthesis And Properties (34 papers) and Conducting polymers and applications (29 papers). Wanyi Nie is often cited by papers focused on Perovskite Materials and Applications (102 papers), Quantum Dots Synthesis And Properties (34 papers) and Conducting polymers and applications (29 papers). Wanyi Nie collaborates with scholars based in United States, France and Taiwan. Wanyi Nie's co-authors include Hsinhan Tsai, Aditya D. Mohite, Jean‐Christophe Blancon, Sergei Tretiak, Jacky Even, Jared Crochet, Amanda J. Neukirch, Gautam Gupta, Constantinos C. Stoumpos and Mercouri G. Kanatzidis and has published in prestigious journals such as Nature, Science and Proceedings of the National Academy of Sciences.

In The Last Decade

Wanyi Nie

117 papers receiving 16.3k citations

Hit Papers

High-efficiency solution-processed perovskite solar cells... 2015 2026 2018 2022 2015 2016 2017 2019 2018 500 1000 1.5k 2.0k 2.5k
What are hit papers?

Hit papers significantly outperform the citation benchmark for their cohort. A paper qualifies if it has ≥500 total citations, achieves ≥1.5× the top-1% citation threshold for papers in the same subfield and year (this is the minimum needed to enter the top 1%, not the average within it), or reaches the top citation threshold in at least one of its specific research topics.

  1. High-efficiency solution-processed perovskite solar cells with millimeter-scale grains
    2015 3.0k citations Wanyi Nie, Hsinhan Tsai et al. Science profile →
  2. High-efficiency two-dimensional Ruddlesden–Popper perovskite solar cells
    2016 2.9k citations Hsinhan Tsai, Wanyi Nie et al. profile →
  3. Extremely efficient internal exciton dissociation through edge states in layered 2D perovskites
    2017 918 citations Jean‐Christophe Blancon, Hsinhan Tsai et al. Science profile →
  4. PEDOT:PSS for Flexible and Stretchable Electronics: Modifications, Strategies, and Applications
    2019 796 citations Wanyi Nie, Hsinhan Tsai et al. Advanced Science profile →
  5. Scaling law for excitons in 2D perovskite quantum wells
    2018 676 citations Jean‐Christophe Blancon, Hsinhan Tsai et al. Nature Communications profile →
  6. Light-induced lattice expansion leads to high-efficiency perovskite solar cells
    2018 637 citations Hsinhan Tsai, Reza Asadpour et al. Science profile →
  7. Light-activated photocurrent degradation and self-healing in perovskite solar cells
    2016 631 citations Wanyi Nie, Jean‐Christophe Blancon et al. Nature Communications profile →
  8. New Type of 2D Perovskites with Alternating Cations in the Interlayer Space, (C(NH2)3)(CH3NH3)nPbnI3n+1: Structure, Properties, and Photovoltaic Performance
    2017 430 citations Chan Myae Myae Soe, Constantinos C. Stoumpos et al. Journal of the American Chemical Society profile →

Peers

Wanyi Nie
Hsinhan Tsai United States
Li Na Quan Canada
Aditya Sadhanala United Kingdom
Yuchuan Shao China
Hairen Tan China
Zhengguo Xiao China
Yanjun Fang China
Yehao Deng United States
Jean‐Christophe Blancon United States
Hsinhan Tsai United States
Wanyi Nie
Citations per year, relative to Wanyi Nie Wanyi Nie (= 1×) peers Hsinhan Tsai

Countries citing papers authored by Wanyi Nie

Since Specialization
Citations

This map shows the geographic impact of Wanyi Nie's research. It shows the number of citations coming from papers published by authors working in each country. You can also color the map by specialization and compare the number of citations received by Wanyi Nie with the expected number of citations based on a country's size and research output (numbers larger than one mean the country cites Wanyi Nie more than expected).

Fields of papers citing papers by Wanyi Nie

Since Specialization
Physical SciencesHealth SciencesLife SciencesSocial Sciences

This network shows the impact of papers produced by Wanyi Nie. Nodes represent research fields, and links connect fields that are likely to share authors. Colored nodes show fields that tend to cite the papers produced by Wanyi Nie. The network helps show where Wanyi Nie may publish in the future.

Co-authorship network of co-authors of Wanyi Nie

This figure shows the co-authorship network connecting the top 25 collaborators of Wanyi Nie. A scholar is included among the top collaborators of Wanyi Nie based on the total number of citations received by their joint publications. Widths of edges represent the number of papers authors have co-authored together. Node borders signify the number of papers an author published with Wanyi Nie. Wanyi Nie is excluded from the visualization to improve readability, since they are connected to all nodes in the network.

All Works

20 of 20 papers shown
1.
Baskoro, Febri, Hui Qi Wong, Afriyanti Sumboja, et al.. (2025). 2D and 3D organic/inorganic hybrid perovskites for electrochemical energy storage applications. Journal of Materials Chemistry A. 14(14). 8002–8013.
2.
Khan, Shaukat, Ruipeng Li, Yijia Gu, et al.. (2025). Designing Robust Quasi‐2D Perovskites Thin Films for Stable Light‐Emitting Applications. Advanced Materials. 37(25). e2413412–e2413412. 4 indexed citations
3.
4.
Evans, Amanda C., et al.. (2024). Influence of Material Properties on Surface Chemistry Induced Circular Dichroism in Halide Perovskite: Computational Insights. Nano Letters. 24(30). 9276–9282. 2 indexed citations
5.
Eperon, Giles E., Alessandro Virtuani, Quentin Jeangros, et al.. (2024). Stability and reliability of perovskite containing solar cells and modules: degradation mechanisms and mitigation strategies. Energy & Environmental Science. 17(20). 7566–7599. 38 indexed citations
6.
Sheehan, Chris J., Andrew C. Jones, Gyu‐Chul Yi, et al.. (2024). Perovskite Grown in Gallium Nitride Nanowire Matrix for Stable and High‐Efficiency X‐Ray Detection. Advanced Functional Materials. 34(40). 2 indexed citations
7.
Tsai, Hsinhan, Lei Pan, Xinxin Li, et al.. (2023). Quantum Efficiency Gain in 2D Perovskite Photo and X‐Ray Detectors. Advanced Optical Materials. 11(23). 9 indexed citations
8.
Kunwar, Sundar, Michael Saccone, Francesco Caravelli, et al.. (2023). An Interface‐Type Memristive Device for Artificial Synapse and Neuromorphic Computing. SHILAP Revista de lepidopterología. 5(8). 26 indexed citations
9.
Tsai, Hsinhan, Hsin‐Hsiang Huang, John Watt, et al.. (2022). Cesium Lead Halide Perovskite Nanocrystals Assembled in Metal‐Organic Frameworks for Stable Blue Light Emitting Diodes. Advanced Science. 9(14). e2105850–e2105850. 42 indexed citations
10.
Ghosh, Dibyajyoti, Kevin L. Jensen, Daniel Finkenstadt, et al.. (2021). Cesium-Coated Halide Perovskites as a Photocathode Material: Modeling Insights. The Journal of Physical Chemistry Letters. 12(27). 6269–6276. 8 indexed citations
11.
Shrestha, Shreetu, Exian Liu, L. B. Coleman, et al.. (2021). In-situ observation of trapped carriers in organic metal halide perovskite films with ultra-fast temporal and ultra-high energetic resolutions. Nature Communications. 12(1). 1636–1636. 16 indexed citations
12.
Liu, Fangze, Siraj Sidhik, Mark A. Hoffbauer, et al.. (2021). Highly efficient photoelectric effect in halide perovskites for regenerative electron sources. Nature Communications. 12(1). 673–673. 14 indexed citations
13.
Tsai, Hsinhan, Shreetu Shrestha, Rafael A. Vilá, et al.. (2021). Bright and stable light-emitting diodes made with perovskite nanocrystals stabilized in metal–organic frameworks. Nature Photonics. 15(11). 843–849. 173 indexed citations
14.
Tsai, Hsinhan, Wanyi Nie, Jean‐Christophe Blancon, et al.. (2020). Edge States Drive Exciton Dissociation in Ruddlesden–Popper Lead Halide Perovskite Thin Films. ACS Materials Letters. 2(10). 1360–1367. 22 indexed citations
15.
Zagni, Nicolò, Fangze Liu, Kasun Fernando, et al.. (2019). Halide Perovskite High-k Field Effect Transistors with Dynamically Reconfigurable Ambipolarity. ACS Materials Letters. 1(6). 633–640. 38 indexed citations
16.
Tsai, Hsinhan, Reza Asadpour, Jean‐Christophe Blancon, et al.. (2018). Light-induced lattice expansion leads to high-efficiency perovskite solar cells. Science. 360(6384). 67–70. 637 indexed citations breakdown →
17.
Traoré, Boubacar, Laurent Pédesseau, Jean‐Christophe Blancon, et al.. (2018). Composite Nature of Layered Hybrid Perovskites: Assessment on Quantum and Dielectric Confinements and Band Alignment. ACS Nano. 12(4). 3321–3332. 165 indexed citations
18.
Képénékian, Mikaël, Boubacar Traoré, Jean‐Christophe Blancon, et al.. (2018). Concept of Lattice Mismatch and Emergence of Surface States in Two-dimensional Hybrid Perovskite Quantum Wells. Nano Letters. 18(9). 5603–5609. 112 indexed citations
19.
Soe, Chan Myae Myae, Constantinos C. Stoumpos, Mikaël Képénékian, et al.. (2017). New Type of 2D Perovskites with Alternating Cations in the Interlayer Space, (C(NH2)3)(CH3NH3)nPbnI3n+1: Structure, Properties, and Photovoltaic Performance. Journal of the American Chemical Society. 139(45). 16297–16309. 430 indexed citations breakdown →
20.
Mallajosyula, Arun Tej, Wanyi Nie, Gautam Gupta, et al.. (2016). Critical Role of the Sorting Polymer in Carbon Nanotube-Based Minority Carrier Devices. ACS Nano. 10(12). 10808–10815. 14 indexed citations

Rankless uses publication and citation data sourced from OpenAlex, an open and comprehensive bibliographic database. While OpenAlex provides broad and valuable coverage of the global research landscape, it—like all bibliographic datasets—has inherent limitations. These include incomplete records, variations in author disambiguation, differences in journal indexing, and delays in data updates. As a result, some metrics and network relationships displayed in Rankless may not fully capture the entirety of a scholar's output or impact.

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