李浩（Li Hao）

長聘教軌副教授

電子郵件：hao_li@sjtu.edu.cn  
辦公地點：綠色環境樓831

研究方向

• 汙染控製化學
• 光/電催化化學
• 納米環境材料

歡迎對以上領域感興趣的本科生同學來做科研項目或畢業設計，歡迎申報研究生、博士後🛸。

個人簡歷

代表性論著

1. Silicate-Confined Hydrogen on Nanoscale Zerovalent Iron for Efficient Defluorination Reactions. J. Am. Chem. Soc. 2025, 147, 3402.
   
2. Simultaneous Copper and EDTA Ligands Recovery from Electroless Effluent with Metallic Copper and Formaldehyde. Environ. Sci. Technol. 2025, 59, 968.
   
3. Twisted BiOCl Moiré Superlattices for Photocatalytic Chloride Reforming of Methane. J. Am. Chem. Soc. 2024, 146, 32816.
   
4. Mechanochemical Thioglycolate Modification of Microscale Zero-Valent Iron for Superior Heavy Metal Removal. Angew. Chemie. Int. Ed. 2024, e202415051.
   
5. Formic Acid-Intensified Photoreduction of NOx on Iron Minerals Triggers Daytime HONO Formation through Active Hydrogen. Environ. Sci. Technol. 2024, 58, 18295.
   
6. Green Energy-Driven Ammonia Production for Sustainable Development Goals. Chem. 2024, 10, 2636.
   
7. Highly selective urea electrooxidation coupled with efficient hydrogen evolution. Nat. Commun. 2024, 15, 5918.
   
8. Selective electrosynthesis of chlorine disinfectants from seawater. Nat. Sustain. 2024, 7, 148.
   
9. Symmetry dependent activation and reactivity of peroxysulfates on FeS₂(001) surface. Sci. Bull. 2024, 69, 154.
   
10. Oxalate-Promoted SO₂ Uptake and Oxidation on Iron Minerals: Implications for Secondary Sulfate Aerosol Formation. Environ. Sci. Technol. 2023, 57, 13559.
    
11. Highly Selective Synthesis of Surface Fe^IV=O with Nanoscale Zero-Valent Iron and Chlorite for Efficient Oxygen Transfer Reactions. Proc. Natl. Acad. Sci. U.S.A. 2023, 120, e2304562120.
    
12. Locally Asymmetric BiOBr for Efficient Exciton Dissociation and Selective O₂ Activation toward Oxidative Coupling of Amines. ACS Nano 2023, 17, 15077.
    
13. Visible Light-Driven Conversion of Carbon-Sequestrated Seawater into Stoichiometric CO and HClO with Nitrogen-Doped BiOCl Atomic Layers. Angew. Chemie. Int. Ed. 2023, e202302286.
    
14. Surface Boronizing Can Weaken the Excitonic Effects of BiOBr Nanosheets for Efficient O2 Activation and Selective NO Oxidation under Visible Light Irradiation. Environ. Sci. Technol. 2022, 56, 14478.
15. Strained Zero-Valent Iron for Highly Efficient Heavy Metal Removal, Adv. Funct. Mater. 2022, 2200498.
16. Atomic-Layered Cu5 Nanoclusters on FeS2 with Dual Catalytic Sites for Efficient and Selective H2O2 Activation, Angew. Chemie. Int. Ed. 2022, 61, e202200670.
17. Oxygen and Chlorine Dual Vacancies Enable Photocatalytic O2 Dissociation into Monatomic Reactive Oxygen on BiOCl for Refractory Aromatic Pollutant Removal, Environ. Sci. Technol. 2022, 56, 3587.
18. Vacancy-Rich and Porous NiFe-Layered Double Hydroxide Ultrathin Nanosheets for Efficient Photocatalytic NO Oxidation and Storage, Environ. Sci. Technol. 2022, 56, 1771.
19. Plasmonic O2 Dissociation and Spillover Expedite Selective Oxidation of Primary C–H Bonds, Chem. Sci. 2021, 12, 15308.
20. Simultaneous Manipulation of Bulk Excitons and Surface Defects for Ultrastable and Highly Selective CO2 Photoreduction, Adv. Mater. 2021, 33, 2100143.
21. Kirkendall Effect Boosts Phosphorylated nZVI for Efficient Heavy Metal Wastewater Treatment, Angew. Chemie. Int. Ed. 2021, 60, 17115.
22. Surface Structure-Dependent Photocatalytic O2 Activation for Pollutant Removal with Bismuth Oxyhalides, Chem. Commun. 2020, 56, 15282.
23. Surface Hydrogen Bond Network Spatially Confined BiOCl Oxygen Vacancy for Photocatalysis, Sci. Bull. 2020, 65, 1916.
24. Atomic-Scale Tuning of Graphene/Cubic SiC Schottky Junction for Stable Low-Bias Photoelectrochemical Solar-to-Fuel Conversion, ACS Nano 2020, 14, 4905.
25. Interfacial Charging–Decharging Strategy for Efficient and Selective Aerobic NO Oxidation on Oxygen Vacancy, Environ. Sci. Technol. 2019, 53, 6964.
26. Oxygen Vacancies Mediated Complete Visible Light NO Oxidation via Side-On Bridging Superoxide Radicals, Environ. Sci. Technol. 2018, 52, 8659.
27. Oxygen Vacancy-Mediated Photocatalysis of BiOCl: Reactivity, Selectivity, and Perspectives, Angew. Chemie. Int. Ed. 2018, 57, 122.
28. Oxygen Vacancy Associated Surface Fenton Chemistry: Surface Structure Dependent Hydroxyl Radicals Generation and Substrate Dependent Reactivity, Environ. Sci. Technol. 2017, 51, 5685.
29. New Reaction Pathway Induced by Plasmon for Selective Benzyl Alcohol Oxidation on BiOCl Possessing Oxygen Vacancies, J. Am. Chem. Soc. 2017, 139, 3513.
30. Oxygen Vacancy Structure Associated Photocatalytic Water Oxidation of BiOCl, ACS Catal. 2016, 6, 8276.
31. Facet-Dependent Solar Ammonia Synthesis of BiOCl Nanosheets via a Proton-Assisted Electron Transfer Pathway, Nanoscale 2016, 8, 1986.
32. Efficient Visible Light Nitrogen Fixation with BiOBr Nanosheets of Oxygen Vacancies on the Exposed {001} Facets, J. Am. Chem. Soc. 2015, 137, 6393.

Google Scholar🎋：https://scholar.google.com/citations?user=RdY3q7QAAAAJ&hl=en

榮獲獎項

• 2024年，科睿唯安（Clarivate）全球高被引科學家
• 2023年👨🏻‍🦼‍➡️📿，湖北省自然科學二等獎
• 2021年，國家海外高層次青年人才引進計劃
• 2021年🍫，上海市海外高層次人才引進計劃
• 2019年👩🏻‍🦰，湖北省自然科學一等獎
• 2018年，ES&T年度最佳論文

科研項目

• 國家自然科學基金（面上項目），表面矽酸根限域氫促進納米零價鐵深度處理全氟化合物的研究（22476127），主持。
  
• 國家重點研發計劃，微納鐵基還原材料的表面穩定化及其機械力化學製備技術（2022YFC3702101），課題負責人。
• 國家重點研發計劃（青年科學家項目），表面等離激元誘導氧原子轉移高選擇性催化合成體系研究（2022YFA1505000）🏏，子課題負責人🐭。
• 國家自然科學基金（青年科學基金）🧓🏼🦺，金屬-氧空位雙活性位點光化學分子氧解離深度氧化抗生素磺胺二甲嘧啶的研究（22206124）👉🏽，主持。
• 上海市科技創新計劃面上項目，電化學海水合成次氯酸鈉消毒劑新型陽極材料的可控製備及其性能研究（23ZR1431000）🔺，主持。
  

學術兼職

• Sustainability Science and Technology，編委
• Nano-Micro Letters，青年編委
• Fundamental Research，青年編委

學術交流

1. 第三屆納米技術及生物效應學術研討會👼🏽，濟南，2024𓀜，邀請報告。
   

2. 第二屆能源材料科學滬江國際研討會，楊浦，2024，邀請報告🚟。

3. 大氣復合汙染物深度治理學術研討會，松江，2024，邀請報告👨🏼‍🎤。

4. 納米生物材料科學前沿論壇🦊，瀘州，2024🕵🏽，邀請報告🫶🏿。

5. 第十七屆全國水處理化學大會🏄🏻‍♂️，上海，2024，邀請報告✌🏽。
6. 第十二屆全國環境化學大會，武漢，2023，會議秘書🍻。
   
7. 第三屆全國環境化學青年學者論壇，武漢☂️，2023，邀請報告🤶🏻。
8. 汙染控製化學表界面調控研討會，大理🕴🏼⚰️，2023🌳，邀請報告。
9. 第十七屆全國太陽能光化學與光催化學術會議🎺，呼和浩特🎙，2023🐈，邀請報告。
10. 地下水汙染防治技術與方法✍️，重慶，2023，邀請報告🦝。