Weifeng Wang

Photo
wang_weifeng.jpeg

2026 Cohort 2026年度

K2-SPRING · Q-ENERGY Innovator Unit · Admission 2026 K2-SPRING · グリーンイノベーションユニット · 2026年度入学

Weifeng Wang

Weifeng Wang

Affiliation
所属: Graduate School of Engineering; 工学府

Major / Department
専攻: Hydrogen Energy Systems; 水素エネルギーシステム専攻

Supervisor
指導教員: Prof. Zhenying WANG 王振英教授

§ 01

K2-SPRING research

K2-SPRING 研究

Photothermal Nanoparticle-Enhanced Liquid Evaporation for Solar-Driven Energy and Water Harvest

Photothermal Nanoparticle-Enhanced Liquid Evaporation for Solar-Driven Energy and Water Harvest

This project investigates how photothermal (plasmonic) nanoparticles redistribute and deposit during solar-driven liquid evaporation, and how the resulting deposition morphology governs optical absorption, internal Marangoni and capillary flows, and overall evaporation efficiency. Quantitative microPIV/PTV/LIF experiments map the flow dynamics of nanoparticle-laden droplets under solar radiation and the three-dimensional pattern formation of drying colloidal droplets. A finite-element computational framework is developed to capture plasmonic heating, thermocapillary flow, and the resulting deposition. Modified nanoparticles and Patterned Liquid-Like Surfaces are then engineered to suppress contact-line pinning and enable controlled deposition. Collaboration with the Yukina Takahashi laboratory at I²CNER provides photoelectrochemical-materials expertise.

This project investigates how photothermal (plasmonic) nanoparticles redistribute and deposit during solar-driven liquid evaporation, and how the resulting deposition morphology governs optical absorption, internal Marangoni and capillary flows, and overall evaporation efficiency. Quantitative microPIV/PTV/LIF experiments map the flow dynamics of nanoparticle-laden droplets under solar radiation and the three-dimensional pattern formation of drying colloidal droplets. A finite-element computational framework is developed to capture plasmonic heating, thermocapillary flow, and the resulting deposition. Modified nanoparticles and Patterned Liquid-Like Surfaces are then engineered to suppress contact-line pinning and enable controlled deposition. Collaboration with the Yukina Takahashi laboratory at I²CNER provides photoelectrochemical-materials expertise.

§ 02

Doctoral research — context for the K2-SPRING project

博士研究 — K2-SPRINGプロジェクトの背景

Main PhD work 博士課程主研究

Fundamental theories of wetting phenomena and multicomponent droplet dynamics

Fundamental theories of wetting phenomena and multicomponent droplet dynamics

Combines state-of-the-art laser-/optical-based experiments with CFD simulations using interface-tracking methods to reveal the flow and wetting behavior of complex droplets. Core themes are: multiphase flow with contaminant transport (nanoparticles, surfactants, salts); wetting and evaporation of binary and multi-fluid mixtures; and flow-structure control near the three-phase contact line. The findings provide a basis for renewable-energy harvesting, desalination, and other thermal-fluids applications.

Combines state-of-the-art laser-/optical-based experiments with CFD simulations using interface-tracking methods to reveal the flow and wetting behavior of complex droplets. Core themes are: multiphase flow with contaminant transport (nanoparticles, surfactants, salts); wetting and evaporation of binary and multi-fluid mixtures; and flow-structure control near the three-phase contact line. The findings provide a basis for renewable-energy harvesting, desalination, and other thermal-fluids applications.

§ 03

Research achievements

研究業績

Research Papers論文

Wang, Weifeng, Huang, X., Wang, L., Teng, L., Luo, X., Li, W., Li, J., Yin, P., Luo, Y. and Jiang, L. “Study on the mechanism of sessile droplets evaporation enhanced by the electric field” Chemical Engineering Science, Vol. 288, 119768 (2024) [peer-reviewed] — 10.1016/j.ces.2024.119768
Bai, J.*, Wang, Weifeng*, Qiu, G., Huang, X., Yin, P., Li, Z. and Teng, L. “Ammonia absorption by water droplet in a small controlled atmosphere wind tunnel” Chemical Engineering Science, Vol. 292, 119998 (2024) [peer-reviewed, co-first author] — 10.1016/j.ces.2024.119998
Teng, L., Wang, Weifeng, Huang, X., Luo, X., Li, W., Li, J., Yin, P., Luo, Y. and Jiang, L. “Evaporation of sessile droplet on surfaces with various wettability” Chemical Engineering Science, Vol. 268, 118413 (2023) [peer-reviewed] — 10.1016/j.ces.2022.118413
Han, Y., Fan, G., Han, Y., Huang, X., Wang, Weifeng, Luo, X., Zhang, Y. and Han, L. “Suppression of coffee rings by controllable nanoparticle enrichment through superhydrophobicity-enabled dynamic evaporation” Journal of Colloid and Interface Science, Vol. 673, pp. 735–745 (2024) [peer-reviewed] — 10.1016/j.jcis.2024.06.113

Conference Presentations学会発表

Teng, L., Wang, Weifeng, Huang, X., Li, W., Luo, Y. and Jiang, L. “Study on the mechanism of droplet evaporation on substrates with different wettability” 2022 Chinese Society of Engineering Thermophysics — Multiphase Flow Annual Conference, Zhuhai, China (2023/02) [Domestic, Oral]
Teng, L., Wang, F., Wang, Weifeng, Luo, X. and Huang, X. “Study on the mechanism of suspended droplet evaporation under the direct current electric field” 2023 Chinese Society of Engineering Thermophysics — Multiphase Flow Annual Conference, Shanghai, China (2023/10) [Domestic, Oral]

Other Achievementsその他の業績

Graduate with Honors — 1st place, College of Chemical Engineering, Fuzhou University (1/285) (2025)
Merit Student (Top 1%) — Fuzhou University (2023)
2nd Prize, Academic Poster Exhibition — Fuzhou University (2023)
3rd National Prize, 1st Oil & Gas Storage and Transportation Engineering Numerical Simulation Competition (2022)
National Recommendation of Excellent Undergraduate Students for Exemption from Graduate Entrance Examination (2021)
Merit Student — Fuzhou University (2021)

Programme & institutional affiliation プログラム・機関情報

JST SPRING programmeJSTスプリングプログラム

Unit coordinatorユニットコーディネーター

Q-Energy Innovator Unitグリーンイノベーションユニット

Host universityホスト大学