Jhih-Wei Chen

816 total citations
21 papers, 715 citations indexed

About

Jhih-Wei Chen is a scholar working on Materials Chemistry, Electrical and Electronic Engineering and Biomedical Engineering. According to data from OpenAlex, Jhih-Wei Chen has authored 21 papers receiving a total of 715 indexed citations (citations by other indexed papers that have themselves been cited), including 17 papers in Materials Chemistry, 8 papers in Electrical and Electronic Engineering and 7 papers in Biomedical Engineering. Recurrent topics in Jhih-Wei Chen's work include Advanced Photocatalysis Techniques (6 papers), ZnO doping and properties (5 papers) and Electronic and Structural Properties of Oxides (4 papers). Jhih-Wei Chen is often cited by papers focused on Advanced Photocatalysis Techniques (6 papers), ZnO doping and properties (5 papers) and Electronic and Structural Properties of Oxides (4 papers). Jhih-Wei Chen collaborates with scholars based in Taiwan, China and Malaysia. Jhih-Wei Chen's co-authors include Chung-Lin Wu, Ying‐Hao Chu, Yi‐Chun Chen, Yung‐Jung Hsu, Chia‐Hao Chen, Nguyễn Văn Chiến, Wei Sea Chang, Wu-Ching Chou, Jan‐Chi Yang and Kai-An Tsai and has published in prestigious journals such as Nature Communications, ACS Nano and Energy & Environmental Science.

In The Last Decade

Jhih-Wei Chen

21 papers receiving 706 citations

Peers — A (Enhanced Table)

Peers by citation overlap · career bar shows stage (early→late) cites · hero ref

Name h Career Trend Papers Cites
Jhih-Wei Chen Taiwan 15 541 339 264 146 106 21 715
Yeming Xu China 12 768 1.4× 522 1.5× 266 1.0× 171 1.2× 122 1.2× 23 902
P. Chinnamuthu India 14 397 0.7× 283 0.8× 166 0.6× 147 1.0× 118 1.1× 47 595
Yuewu Huang China 20 767 1.4× 473 1.4× 370 1.4× 282 1.9× 105 1.0× 46 976
Chunyan Luan Hong Kong 16 880 1.6× 480 1.4× 417 1.6× 180 1.2× 126 1.2× 24 1.0k
Wenning Zhao China 16 404 0.7× 358 1.1× 133 0.5× 87 0.6× 119 1.1× 39 626
Sang Yun Jeong South Korea 15 565 1.0× 340 1.0× 521 2.0× 219 1.5× 74 0.7× 24 795
Chaolei Zuo China 8 455 0.8× 427 1.3× 112 0.4× 192 1.3× 132 1.2× 8 671
Mongur Hossain China 12 607 1.1× 360 1.1× 139 0.5× 200 1.4× 83 0.8× 21 831
Abhijit Bera India 13 395 0.7× 281 0.8× 125 0.5× 103 0.7× 57 0.5× 47 571

Countries citing papers authored by Jhih-Wei Chen

Since Specialization
Citations

This map shows the geographic impact of Jhih-Wei Chen'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 Jhih-Wei Chen with the expected number of citations based on a country's size and research output (numbers larger than one mean the country cites Jhih-Wei Chen more than expected).

Fields of papers citing papers by Jhih-Wei Chen

Since Specialization
Physical SciencesHealth SciencesLife SciencesSocial Sciences

This network shows the impact of papers produced by Jhih-Wei Chen. 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 Jhih-Wei Chen. The network helps show where Jhih-Wei Chen may publish in the future.

Co-authorship network of co-authors of Jhih-Wei Chen

This figure shows the co-authorship network connecting the top 25 collaborators of Jhih-Wei Chen. A scholar is included among the top collaborators of Jhih-Wei Chen 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 Jhih-Wei Chen. Jhih-Wei Chen 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.
Lai, Yu-Hong, Chunli Zhang, Yi‐Ting Hsieh, et al.. (2020). Giant Resistivity Change of Transparent ZnO/Muscovite Heteroepitaxy. ACS Applied Materials & Interfaces. 12(19). 21818–21826. 14 indexed citations
2.
Tan, Sin Tee, Yuanmin Zhu, Jhih-Wei Chen, et al.. (2020). Tunable Plasmon-Induced Charge Transport and Photon Absorption of Bimetallic Au–Ag Nanoparticles on ZnO Photoanode for Photoelectrochemical Enhancement under Visible Light. The Journal of Physical Chemistry C. 124(26). 14105–14117. 32 indexed citations
3.
Jiang, Jie, Pao-Wen Shao, Yu-Hong Lai, et al.. (2019). Oxide Heteroepitaxy-Based Flexible Ferroelectric Transistor. ACS Applied Materials & Interfaces. 11(29). 25882–25890. 29 indexed citations
4.
Chen, Jhih-Wei, Shun‐Tsung Lo, Yi-De Liu, et al.. (2018). A gate-free monolayer WSe2 pn diode. Nature Communications. 9(1). 3143–3143. 135 indexed citations
5.
Kuo, Ming-Yu, Yi-Hsuan Chiu, Ting-Hsuan Lai, et al.. (2018). Au@Cu2O core@shell nanocrystals as dual-functional catalysts for sustainable environmental applications. Applied Catalysis B: Environmental. 242. 499–506. 114 indexed citations
6.
Tan, Kok Hong, Yun-Wen Chen, Nguyễn Văn Chiến, et al.. (2018). Energy Band Gap Modulation in Nd-Doped BiFeO3/SrRuO3 Heteroepitaxy for Visible Light Photoelectrochemical Activity. ACS Applied Materials & Interfaces. 11(1). 1655–1664. 29 indexed citations
7.
Zhang, Qiang, Wei‐Ting Wang, Tobias Wächter, et al.. (2018). Toward a universal polymeric material for electrode buffer layers in organic and perovskite solar cells and organic light-emitting diodes. Energy & Environmental Science. 11(3). 682–691. 25 indexed citations
8.
Huang, Chun-Ying, et al.. (2017). Influences of sintering temperature on low-cost carbon paste based counter electrodes for dye-sensitized solar cells. Japanese Journal of Applied Physics. 56(8). 82301–82301. 7 indexed citations
9.
Chiến, Nguyễn Văn, Thi Hien, Jhih-Wei Chen, et al.. (2017). WO3 mesocrystal-assisted photoelectrochemical activity of BiVO4. NPG Asia Materials. 9(3). e357–e357. 59 indexed citations
10.
Tan, Kok Hong, Hing Wah Lee, Jhih-Wei Chen, et al.. (2017). Self-Assembled Heteroepitaxial AuNPs/SrTiO3: Influence of AuNPs Size on SrTiO3 Band Gap Tuning for Visible Light-Driven Photocatalyst. The Journal of Physical Chemistry C. 121(25). 13487–13495. 22 indexed citations
11.
12.
Hien, Thi, Nguyễn Văn Chiến, Kai-An Tsai, et al.. (2016). Superior photoelectrochemical activity of self-assembled NiWO4–WO3 heteroepitaxy. Nano Energy. 23. 153–160. 36 indexed citations
13.
Chen, Jhih-Wei, Hung-Ying Chen, Ting‐Chang Chang, et al.. (2016). Approaching Defect-free Amorphous Silicon Nitride by Plasma-assisted Atomic Beam Deposition for High Performance Gate Dielectric. Scientific Reports. 6(1). 28326–28326. 21 indexed citations
14.
Chen, Jhih-Wei, Domenica Convertino, Camilla Coletti, et al.. (2016). Efficient n -type doping in epitaxial graphene through strong lateral orbital hybridization of Ti adsorbate. Carbon. 109. 300–305. 6 indexed citations
15.
Chiến, Nguyễn Văn, Wei Sea Chang, Jhih-Wei Chen, et al.. (2015). Heteroepitaxial approach to explore charge dynamics across Au/BiVO4 interface for photoactivity enhancement. Nano Energy. 15. 625–633. 69 indexed citations
16.
Chen, Jhih-Wei, et al.. (2014). Imaging and characterization of piezoelectric potential in a single bent ZnO microwire. Applied Physics Letters. 105(12). 10 indexed citations
17.
Chang, Wei Sea, Heng‐Jui Liu, Jhih-Wei Chen, et al.. (2014). Tuning Electronic Transport in a Self-Assembled Nanocomposite. ACS Nano. 8(6). 6242–6249. 16 indexed citations
18.
19.
Chen, Jhih-Wei, et al.. (2012). Graphene On Au-Coated SiO$_{x}$ Substrate: Its Core-Level Photoelectron Microspectroscopy Study. Applied Physics Express. 5(8). 85101–85101. 6 indexed citations
20.
Chen, Yi‐Chun, et al.. (2011). Non-volatile domain nucleation and growth in multiferroic BiFeO3films. Nanotechnology. 22(25). 254030–254030. 29 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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