方文章

2007-2011 華東理工大學，學士

2011-2017 華東理工大學，博士

2014-2016 法國里昂一大，聯合培養博士

2018-2022 浙江大學高分子系，博士後

2023-至今 浙江大學杭州國際科創中心科創百人（求是科創學者）

方文章博士2011年本科畢業於華東理工大學，同年加入張金龍教授（歐洲科學院院士）課題組，主要方向為光催化劑的製備及在能源環境領域的套用。2014年獲得國家留學基金委（CSC）資助赴法國公派留學，為華東理工大學-法國里昂一大聯合培養博士，在法國科研中心（CNRS）里昂催化環境研究所（IRCELYON）研究配位化學及上轉換材料。2018年加入浙江大學高分子系高超教授課題組，主要研究方向為石墨烯材料、海水淡化、鋁離子電池、X射線及紅外光電探測等。2023年至今在浙江大學杭州國際科創中心任百人計畫研究員（求是科創學者），兼聘微納電子學院，專注於成套積體電路製造工藝技術的開發。在Adv. Mater., Carbon, Appl. Catal. B等期刊發表學術論文30餘篇，授權多項國際國內發明專利，主持國家自然科學基金青年項目、浙江大學高分子新物質創製國際研究中心項目、浙江大學“以民促J”基礎培育計畫等，參與軍科委、裝發等多家單位的重要科研項目。擔任Frontiers in Environment Chemistry、Polymers等期刊的客座編輯。。

1. F. Wang#, W. Fang#, X. Ming#, Y. Liu*, Z. Xu*, C. Gao*, A review on graphene oxide: 2D colloidal molecule, fluid physics, and macroscopic materials. Applied Physics Reviews 2023, 10, 011311.

2. W. Xu#, W. Fang#, T Shi, X Ming, Y Wang, L Xie, L. Peng*, H. Chen*, Y. Ying*, Plasmonic terahertz devices and sensors based on carbon electronics. ACS Applied Materials & Interfaces 2023, 15, 12560-12569.

3. Y. Chen, W. Fang*, J. Song*, Y. Xu*, p-Si/Macro-Assembled Graphene/n-Si Heterojunction Near-Infrared Photodetector. IEEE Transactions on Nanotechnology 2022, 21, 789-793.

4. X. Cao, Y. Xu*, W. Fang*, C. Gao*, Defect-induced photocurrent gain for carbon nanofilm-based broadband infrared photodetector. Carbon 2022, 198, 244-251.

5. L. Peng, W. Fang*, Y. Lu*, R. S. Ruoff*, C. Gao*, Multifunctional Macroassembled Graphene Nanofilms with High Crystallinity. Advanced Materials 2021, 2104195.

6. W. Fang, C. Gao, A Review on Graphene Oxide Two-dimensional Macromolecules: from Single Molecules to Macro-assembly. Chinese Journal of Polymer Science 2021, 39, 267-308.

7. X. Ma, W. Fang*, X. Peng*, A robust asymmetric porous SWCNT/Gelatin thin membrane with salt-resistant for efficient solar vapor generation. Applied Materials Today 2020, 18, 100459.

8. J. Liu#, W. Fang#, Y. Wang, M. Xing, J. Zhang, Gold-loaded graphene oxide/PDPB composites for the synchronous removal of Cr (VI) and phenol. Chinese Journal of Catalysis 2018, 39, 8-15.

9. W. Fang, Li Zhou, M. Xing*, J. Zhang*, Visible-light-driven Bi₂Ti₂O₇ catalyst with high photocatalytic activity synthesized via sol-gel dip coating. Research on Chemical Intermediates 2018, 1-10.

10. W. Fang, M. Xing*, J. Zhang*, Modification of reduced titanium dioxide nanomaterials: a review. Journal of Photochemistry and Photobiology C: Photochemistry Reviews 2017, 32, 21-39.

11. W. Fang, M. Xing*, S. Mishra, S Daniele*, J. Zhang*, Reduced {001}-TiO_2-x photocatalyst: noble-metal-free CO₂ photoreduction for selective CH₄ evolution. Physical Chemistry Chemical Physics 2017,19, 13875-13881.

12. W. Fang, M. Xing, S. Mishra, S Daniele*, J. Zhang*, Zn assisted new approach of TiO_2-x photocatalyst with {001} facets exposure stabilized by F atoms. The Journal of Physical Chemistry C 2017, 121, 17068-17076.

13. W. Fang, Y. Zhou, C. Dong, M. Xing*, J. Zhang*, Enhanced photocatalytic activities of vacuum activated TiO₂ catalysts with Ti and N co-doped. Catalysis Today 2016, 266, 188-196.

14. H. Ayadi#, W. Fang#, S. Mishra*, E. Jeanneau, G. Ledoux, J. Zhang, S. Daniele, Influence of Na ion doping on the phase change and upconversion emissions of the GdF₃: Yb, Tm nanocrystals obtained from the designed molecular precursors. RSC Advances 2015, 5, 100535-100545.

15. W. Fang, M. Xing*, J. Zhang*, A new approach to prepare Ti self-doped TiO₂ via NaBH₄ reduction and hydrochloric acid treatment. Applied Catalysis B-Environmental 2014, 160, 240-246. (ESI-Hot paper)

參與論文

1. Y. Xu*, W. Fang et al, Broadband graphene-silicon integrated imagers. 2023 7th IEEE Electron Devices Technology & Manufacturing Conference (EDTM) 2023, 1-3.

2. X. Liu, H. Ning, W. Fang, Y. Xu* et al, High-performance broadband graphene/silicon/graphene photodetectors: From X-ray to near-infrared. Applied Physics Letters 2023, 122, 071105-1.

3. K. Li, Z. Han, W. Fang, C. Gao, Z. Xu* et al, Wrinkling modes of graphene oxide assembled on curved surfaces. Nano Research 2023, 16, 1801-1809.

4. C. Dong*, Q. Yi, W. Fang, J. Zhang*, A mini review of nanomaterials on photodynamic therapy. Journal of Photochemistry and Photobiology C: Photochemistry Reviews 2023, 100568.

5. L. Zhang, W. Fang, Y. Ying, Y. Fu et al, Blood-coagulation-inspired dynamic bridging strategy for the fabrication of multiscale-assembled hierarchical porous material. Advanced Science 2022, 10, 2204702.

6. C. Dong*, W. Fang, Q. Yi, J. Zhang*. A comprehensive review on reactive oxygen species (ROS) in advanced oxidation processes (AOPs). Chemosphere 2022, 136205.

7. X. Ming, Y. Liu*, W. Fang, F. Guo*, Z. Xu*, C. Gao* et al, 2D-topology-seeded graphitization for highly thermally conductive carbon fibers. Advanced Materials 2022, 34, 2201867.

8. L. Peng, L. Liu, W. Fang, Y Xu*, C. Gao* et al, Macroscopic assembled graphene nanofilms based room temperature ultrafast mid‐infrared photodetectors. InfoMat 2022, 4 (6), e12309.

9. X. Dong, H. Chen*, H. Lai, L. Wang, J. Wang, W. Fang, C. Gao*. A graphitized expanded graphite cathode for aluminum-ion battery with excellent rate capability. Journal of Energy Chemistry 2022, 66, 38-44

10. G. Wang, J. Lu, C. Fang*, W. Fang, X. Peng, H. Zeng, L. Zhu*. Ultrathin metal–organic framework nanosheets as building blocks of lamellar nanofilms for ultrafast molecular sieving. Nanoscale 2022, 14, 17670-17680。

11. T. Qin, H. Chen, W. Fang, G. Cao, C. Gao*, A ‘poly (ions–water ligand) network’ electrolyte enables high-voltage high-conductivity aqueous metal-ion chemistries. Journal of Materials Chemistry A 2022, 10 (42), 22605-22616.

12. L. Liu, X. Cao, W. Fang, Y. Xu*, C. Gao*, B, Yu*, Macroscopic-assembled-graphene nanofilms/germanium broadband photodetectors. 2021 IEEE International Electron Devices Meeting (IEDM), 9.2.1-9.2.4.

13. X. Zhang, Y. Guo, W. Fang, L. Peng*, J. Zhou*, C. Gao*. Ultrathick and highly thermally conductive graphene films by self-fusion. Carbon 2020 167, 249-255.

14. F. Wang, Y. Jiang, Y. Liu, F. Guo, W. Fang, Z. Xu*, C. Gao*. Liquid crystalline 3D printing for superstrong graphene microlattices with high density. Carbon 2020, 159, 166-174.

15. H. Huang, L. Peng, W. Fang et al, A polyimide-pyrolyzed carbon waste approach for the scalable and controlled electrochemical preparation of size-tunable graphene. Nanoscale 2020, 12, 11971-11978.

16. S. Cai, T. Bai, H. Chen, W. Fang et al, Heavy water enables high-voltage aqueous electrochemistry via the deuterium isotope effect. The Journal of Physical Chemistry Letters 2019 11, 303-310.

17. Y. Liu, P. Li, F. Wang, W. Fang, Z. Xu*, W. Gao, C Gao*, Rapid roll-to-roll production of graphene films using intensive Joule heating. 2019 Carbon 155, 462-468.

18. X. Dong, H. Xu, H. Chen, L. Wang, J. Wang, W. Fang et al, Commercial expanded graphite as high-performance cathode for low-cost aluminum-ion battery. Carbon 2019 148, 134-140.

19. X. Ma, W. Fang et al, Hierarchical porous SWCNT stringed carbon polyhedrons and PSS threaded MOF bilayer membrane for efficient solar vapor generation. Small 2019 15, 1900354.

20. Y. Xu, X. Yan, W. Fang, S. Daniele, J. Zhang*, L. Wang*, SERS self-monitoring of Ag-catalyzed reaction by magnetically separable mesoporous Fe₃O₄@Ag@mSiO₂. Microporous and Mesoporous Materials 2018, 263, 113-119.

21. Y. Zhou, W. Fang, Y. Deng, L. Pan, B. Shen, H. Li, Y. Hu, H. Chen, M. Xing*, J. Zhang*, Enhanced photoreduction of Cr (VI) and photooxidation of NO over TiO_2−x mesoporous single crystals. RSC Advances 2017, 7, 55927-55934.

22. C. Li, Z. Xi, W. Fang, M. Xing, J. Zhang*, Enhanced photocatalytic hydrogen evolution activity of CuInS₂ loaded TiO₂ under solar light irradiation. Journal of Solid State Chemistry 2015, 226, 94-100.

23. M. Xing, W. Fang, X. Yang, B. Tian, J. Zhang*, Highly-dispersed boron-doped graphene nanoribbons with enhanced conductibility and photocatalysis. Chemical Communications 2014, 50, 6637-6640.

24. M. Xing, W. Fang, M. Nasir, Y. Ma, J. Zhang*, M. Anpo, Self-doped Ti-enhanced TiO₂ nanoparticles with a high-performance photocatalysis. Journal of Catalysis 2013, 297, 236-243.