刘剀博士

Kai Liu, Ph.D.

水与能源弹性可持续发展技术研究实验室

联系

邮箱: liukai@westlake.edu.cn

网站: https://water.lab.westlake.edu.cn/

刘剀博士

Kai Liu, Ph.D.

水与能源弹性可持续发展技术研究实验室

联系

邮箱: liukai@westlake.edu.cn

网站: https://water.lab.westlake.edu.cn/

“拼搏充实人生,创造丰富生活。”


个人简介


刘剀,江苏常州人。2016年获得清华大学环境学院工学博士学位,师从余刚院士;随后在美国加州理工学院(California Institute of Technology)进行博士后研究,师从Michael R. Hoffmann院士。2020年末加入西湖大学工学院,建立水与能源可持续发展技术研究实验室(Water-Energy Resilience Research Laboratory)。



学术成果


    刘剀博士主要从事环境能源交叉领域的研究。通过使用近代物理化学手段从原子与分子尺度来揭示纳米材料的工作机理,从而设计并制备纳米功能材料用于环境与能源催化,为全世界所面临的水与能源问题提供弹性可持续的解决方案。加入西湖大学以来,刘剀博士带领他的科研团队以通讯作者在Nature Communications、Advanced Materials、Advanced Energy Materials、Advanced Functional Materials、Environmental Science & Technology、Water Research等国际学术期刊发表研究论文20余篇,总影响影子265。已授权中国发明专利3件、国际发明专利3件。自2022年以来担任知名国际学术期刊Chemosphere编委。

    刘剀实验室研究方向包括新兴污染物的环境分布及生态风险,原子与纳米催化剂用于环境及能源催化(如高级氧化、污染物高值定向转化)及智能水质传感器开发等。实验室开发的智能水质传感器、机器学习算法、人机交互软件不仅具有自主知识产权且已被多家国内外水务企业使用。刘剀实验室致力于从理论研究、工程化应用以及政策法规多个维度助力双碳目标的实现。



代表论文(*代表通信作者,论文以发表时间排序)


1. Hao, Q; Liu, K* et al. Specific construction of asymmetric carbon-nickel-chlorine single-atom sites via carbon vacancy engineering for efficient CO2 electroreductionNature Communications 2025. (Accepted)

2. Fang, HB; Liu, K* et al. The Synthesis of High Purity SnBased Heteronuclear DualAtomic Sites by PreConfined LowTemperature Fixing Strategy for Electrocatalytic CO2 ReductionAdvanced Functional Materials 202507228, 2025. DOI: 10.1002/adfm.202507228

3. Xie, LX; Liu, K* et al. Asymmetric coordination engineering accelerates the electrochemical nitrate reduction kinetics on metal-organic frameworksApplied Catalysis B: Environment and Energy 125428, 2025. DOI: 10.1016/j.apcatb.2025.125428

4. Tang, Q; Liu, K* et al. Intrinsic Electron Transfer in Heteronuclear Dual-Atom Sites Facilitates Selective Electrocatalytic Carbon Dioxide ReductionAdvanced Energy Materials 202403778, 2024. DOI:10.1002/aenm.202403778

5. Tang, Q; Liu, K* et al. Regulating the Water Dissociation on Atomic Iron Sites to Speed Up CO2 Protonation and Achieve pH-Universal CO2 ElectroreductionAdvanced Energy Materials 202401364, 2024. DOI:10.1002/aenm.202401364

  

6. Hao, Q*; Liu, K* et al. Universal Formation of Single Atoms from Molten Salt for Facilitating Selective CO2 Reduction” Advanced Materials 202406380, 2024. DOI:10.1002/adma.202406380

7. Liu, X; Liu, K* et al. Modulating the Hydrogenation Mechanism of Electrochemical CO2 Reduction Using Ruthenium Atomic Species on Bismuth” Advanced Functional Materials 202405835, 2024. DOI: 10.1002/adfm.202405835

8. Wang, YT; Liu, K* et al. Soil Erosion is a Major Drive for Nano & Micro-Plastics to Enter Riverine Systems from Cultivated Land Water Research 256: 121597, 2024. DOI:10.1016/j.watres.2024.121597

9. Xu, LH; Liu, K* et al. Single Atom Environmental Catalysis: Influence of Supports and Coordination Environments” Advanced Functional Materials 2304468, 2023. DOI:10.1002/adfm.202304468

10. Cheng, Y; Liu, K* et al. “Temporal Trends of Legacy and Emerging PFASs from 2011 to 2021 in Agricultural Soils of Eastern China: Impacts of Stockholm Convention” Environmental Science & Technology 57: 9277-9286. 2023. DOI: 10.1021/acs.est.2c07873

12. Liu, K; Hoffmann, M* et al. “Metal-Organic Frameworks Derived Multi-Phase Porous Electrochemical Catalysts for Sustainable Electro-Fenton Degradation of Herbicides” Environmental Science & Technology 53: 6474-6482, 2019. DOI: 10.1021/acs.est.9b01143

13. Liu, K; Hoffmann, M* et al. “Degradation and Mineralization of Carbamazepine Using an Electro-Fenton Reaction Catalyzed by Magnetite Nanoparticles Fixed on an Electrocatalytic Carbon Fiber Textile Cathode” Environmental Science & Technology52: 12667-12674, 2018. DOI: 10. 1021/acs.est.8b03916

  

14. Liu, K; Yu, G* et al. “Photoreactivity of Metal Organic Frameworks in Aqueous Solutions: Metal Dependency of Reactive Oxygen Species Production” Environmental Science & Technology 50: 3634-3640, 2016. DOI: 10.1021/acs.est.5b06019

15. Liu, K; Yu, G* et al. “Understanding the Adsorption of PFOA on MIL-101(Cr)-Based Anionic-Exchange Metal-Organic Frameworks: Comparing DFT Calculations with Aqueous Sorption Experiments” Environmental Science & Technology 49:8657-8665, 2015. DOI: 10.1021/acs. est.5b802


联系方式


电子邮箱:liukai@westlake.edu.cn

课题组网站:https://water.lab.westlake.edu.cn/

实验室将在本年度招收3名博士生,1名博士后。有意申请的同学请将简历发至liukai@westlake.edu.cn