Charlie Y. DONG

副教授

RSC Fellow, IAMM Fellow
教育背景

博士后(Tokyo Institute of Technology, Japan)

博士后(University of Limerick, Ireland)

博士(University of Science and Technology of China)

研究领域
膜材料与技术;水处理和脱盐;能源应用;人工智能
学术领域
材料学,新能源科学与工程,人工智能与机器人
电子邮件
ycdong@cuhk.edu.cn
个人简介

工学博士,在欧洲和日本知名大学从事博士后研究(IRCSET-Maria Curie Fellowship和JSPS Fellowship),耶鲁大学、代尔夫特理工大学、佐治亚理工学院和香港大学等世界一流大学访问。研究领域聚焦膜技术和人工智能在能源和环境领域的应用。发表了100多篇论文,拥有10余项专利。他是多个主流SCI 期刊的编辑和编委。

学术著作

(通讯作者) 

  1. Ultrastable Ceramic-based MOF membranes with missing linkers for robust desalination, Nature Water 2 (2024) 464-474
  2. Precise regulation of intracrystalline missing linkers in metal-organic framework pervaporation membranes for desalination of hypersaline waters, Nature Communications (2024) In Revision
  3. Robust ultrathin nanoporous MOF membrane with intra-crystalline defects for fast water transport, Nature Communications 13 (2022) 266
  4. Advanced membrane-based high-value metal recovery from wastewater, Water Research,  (2024) (https://doi.org/10.1016/j.watres.2024.122122).
  5. Enhanced water treatment performance of ceramic-based forward osmosis membranes via MOF interlayer, Water Research, 254 (2024)121395.
  6. Robust ceramic-based graphene membrane for challenging water treatment with enhanced fouling and scaling resistance, Water Research 243 (2023) 120348.
  7. Superhydrophobic carbon nanotube network membranes for membrane distillation: high-throughput performance and transport mechanism, Environmental Science & Technology, 56 (9) (2022) 5775–5785.
  8. Electro-enhanced separation for microsized oil-in-water emulsion via metallic membranes: performance and mechanistic insights, Environmental Science & Technology 56 (7) (2022) 4518–4530.
  9. Cost and efficiency perspectives of ceramic membranes for water treatment, Water Research, 220 (2022) 118629
  10. Fast proton and water transport in ceramic membrane-based magic-angle graphene, Water Research 225 (2022) 119076.
  11. Silicon carbide catalytic ceramic membranes with nano-wire structure for enhanced anti-fouling performance, Water Research 226 (2022) 119209.
  12. Progress in alumina ceramic membranes for water purification: status and prospects, Water Research 226 (2022) 119173.
  13. Treatment of oily wastewaters by highly porous whisker-constructed ceramic membranes: separation performance and fouling models, Water Research 211 (2022) 118042
  14. Robust zirconia ceramic membrane with exceptional performance for purifying nano-emulsion oily wastewater, Water Research 208 (2022) 117859.
  15. Stable Zr-based metal-organic framework nano-porous membrane for efficient desalination of hypersaline water, Environmental Science & Technology 55 (21) (2021) 14917-14927.
  16. Recent development of pressure retarded osmosis membranes for water and energy sustainability: A critical review, Water Research, 189 (2021) 116666.
  17. Cross-linked graphene oxide framework membranes with robust nano-channels for enhanced sieving ability, Environmental Science & Technology, 54 (23) (2020) 15442–15453.
  18. Flexible superhydrophobic metal-based carbon nanotube membrane for electrochemically enhanced water treatment, Environmental Science & Technology, 54 (14) (2020) 9074–9082.
  19. Engineering a nano-composite interlayer for a novel ceramic-based forward osmosis membrane with enhanced performance, Environmental Science & Technology, 54 (12) (2020) 7715–7724.
  20. Spinel-based ceramic membranes coupling solid sludge recycling with oily wastewater treatment, Water Research, 169 (2020) 115180.
  21. Stable superhydrophobic ceramic-carbon-nanotube composite desalination membranes, Nano Letters 18 (9) (2018) 5514–5521.
  22. A low-cost mullite-titania composite ceramic hollow fiber microfiltration membrane for highly efficient separation of oil-in-water emulsion, Water Research, 90 (2016) 277-285.