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● 2021

1.Zhang, Z.; Wang, L.; Liu, W.; Yan, Z.; Zhu, Y.; Zhou, S.; Guan, S., Photogenerated-hole-induced rapid elimination of solid tumors by the supramolecular porphyrin photocatalyst. National Science Review 2021, 8 (5).

2.Zhang, H.; Dong, Y.; Li, D.; Wang, G.; Leng, Y.; Zhang, P.; Miao, H.; Wu, X.; Jiang, P.; Zhu, Y., Photochemical synthesis of Ni-Ni(OH)(2) synergistic cocatalysts hybridized with CdS nanorods for efficient photocatalytic hydrogen evolution. Flatchem 2021,

3.Zhang, H.; Chen, X.; Zhang, Z.; Yu, K.; Zhu, W.; Zhu, Y., Highly-crystalline Triazine-PDI Polymer with an Enhanced Built-in Electric Field for Full-Spectrum Photocatalytic Phenol Mineralization. Applied Catalysis B-Environmental 2021, 287.

4.Zafar, Z.; Yi, S.-S.; Li, J.-P.; Li, C.-Q.; Zhu, Y.-F.; Zada, A.; Yao, W.-J.; Liu, Z.-Y.; Yue, X.-Z., Recent Development in Defects Engineered Photocatalysts: An Overview of the Experimental and Theoretical Strategies. Energy & Environmental Materials 202

5.Yan, G.; Huarui, L.; Wei, M.; Wenxin, S.; Yongfa, Z.; Wonyong, C., Photocatalytic activity enhanced via surface hybridization. Carbon Energy 2020, 2 (3), 308-49.

6.Wu, Z.; Shen, J.; Ma, N.; Li, Z.; Wu, M.; Xu, D.; Zhang, S.; Feng, W.; Zhu, Y., Bi4O5Br2 nanosheets with vertical aligned facets for efficient visible-light-driven photodegradation of BPA. Applied Catalysis B-Environmental 2021, 286.

7.Wei, Z.; Wang, W.; Li, W.; Bai, X.; Zhao, J.; Tse, E. C. M.; Phillips, D. L.; Zhu, Y., Steering Electron-Hole Migration Pathways Using Oxygen Vacancies in Tungsten Oxides to Enhance Their Photocatalytic Oxygen Evolution Performance. Angewandte Chemie-Inte

8.Wei, Z.; Li, W.; Hu, J.; Ma, X.; Zhu, Y., Interfacial internal electric field and oxygen vacancies synergistically enhance photocatalytic performance of bismuth oxychloride. Journal of Hazardous Materials 2021, 402.

9.Wang, D.; Liu, C.; Zhang, Y.; Wang, Y.; Wang, Z.; Ding, D.; Cui, Y.; Zhu, X.; Pan, C.; Lou, Y.; Li, F.; Zhu, Y.; Zhang, Y., CO2 Electroreduction to Formate at a Partial Current Density up to 590mA mg-1 via Micrometer-Scale Lateral Structuring of Bismuth N

10.Pan, C.; Wang, Z.; Lou, Y.; Zhang, Y.; Dong, Y.; Zhu, Y., The construction of a wide-spectrum-responsive and high-activity photocatalyst, Bi25CoO40, via the creation of large external dipoles. J. Mater. Chem. A 2021, 9 (6), 3616-3627.

11.Miao, H.; Yang, J.; Sheng, Y.; Li, W.; Zhu, Y., Controlled Synthesis of Higher Interfacial Electron Transfer Graphite-Like Carbon Nitride/Perylenetetracarboxylic Diimide Heterogeneous for Enhanced Photocatalytic Activity. Solar Rrl 2021, 5 (2).

12.Li, Y.; Pan, C.; Wang, G.; Leng, Y.; Jiang, P.; Dong, Y.; Zhu, Y., Improving the photocatalytic activity of benzyl alcohol oxidation by Z-scheme SnS/g-C3N4 dagger. New Journal of Chemistry 2021, 45 (15), 6611-6617.

13.Chen, X.; Wang, J.; Chai, Y.; Zhang, Z.; Zhu, Y., Efficient Photocatalytic Overall Water Splitting Induced by the Giant Internal Electric Field of a g-C3N4/rGO/PDIP Z-Scheme Heterojunction. Adv. Mater. 2021, 33 (7).

● 2020

1.Yu, K. Y.; Zhang, H. J.; Su, C. L.; Zhu, Y. F., Visible-Light-Promoted Efficient Aerobic Dehydrogenation of N-Heterocycles by a Tiny Organic Semiconductor Under Ambient Conditions. Eur. J. Org. Chem. 2020, 2020 (13), 1956-1960.

2.Guo, Y.; Nan, J.; Xu, Y. P.; Cui, F. Y.; Shi, W. X.; Zhu, Y. F., Thermodynamic and dynamic dual regulation Bi2O2CO3/Bi5O7I enabling high-flux photogenerated charge migration for enhanced visible-light-driven photocatalysis. J. Mater. Chem. A 2020, 8 (20),

3.Xiong, J.; Li, X. B.; Huang, J. T.; Gao, X. M.; Chen, Z.; Yao, W. Q.; Zhu, Y. F., CN/rGO@BPQDs high-low junctions with stretching spatial charge separation ability for photocatalytic degradation and H2O2 production. Applied Catalysis B-Environmental 2020,

4.Zhang, Z. J.; Chen, X. J.; Zhang, H. J.; Liu, W. X.; Zhu, W.; Zhu, Y. F., A Highly Crystalline Perylene Imide Polymer with the Robust Built-In Electric Field for Efficient Photocatalytic Water Oxidation. Adv. Mater. 2020, 32 (32), 6.

5.Xu, Y. S.; Qiu, C. T.; Fan, X.; Ju, H. X.; Zhu, Y. F.; Su, C. L., K+-induced crystallization of polymeric carbon nitride to boost its photocatalytic activity for H-2 evolution and hydrogenation of alkenes. Applied Catalysis B-Environmental 2020,268, 7.

6.Yu, K. Y.; Zhang, H. J.; Sheng, Y. Q.; Zhu, Y. F., Visible-light-promoted aerobic oxidative hydroxylation of arylboronic acids in water by hydrophilic organic semiconductor. Tetrahedron Lett. 2020, 61 (28), 5.

7.Xu, J.; Wang, Z. P.; Zhu, Y. F., Highly efficient visible photocatalytic disinfection and degradation performances of microtubular nanoporous g-C3N4 via hierarchical construction and defects engineering. J. Mater. Sci. Technol. 2020, 49, 133-143.

8.Wei, Z.; Li, W.; Hu, J.; Ma, X.; Zhu, Y., Interfacial internal electric field and oxygen vacancies synergistically enhance photocatalytic performance of bismuth oxychloride. Journal of hazardous materials 2020, 402, 123470.

9.Xia, J.; Chai, L. L.; Tian, T.; Li, H. Q.; Hao, F. Y.; Cui, Y. M.; Wang, Y.; Li, M. D.; Zhu, Y. F., CN/iodine-doped CN homojunction powder catalysts with excellent visible-light photocatalytic properties. Powder Technol. 2020, 373, 488-496.

10.Gao, Q. Z.; Xu, J.; Wang, Z. P.; Zhu, Y. F., Enhanced visible photocatalytic oxidation activity of perylene diimide/g-C3N4 n-n heterojunction via pi-pi interaction and interfacial charge separation. Appl. Catal. B-Environ. 2020, 271, 11.

11.Sheng, Y. Q.; Miao, H.; Jing, J. F.; Yao, W. Q.; Zhu, Y. F., Perylene diimide anchored graphene 3D structure via pi-pi interaction for enhanced photoelectrochemical degradation performances. Appl. Catal. B-Environ. 2020, 272, 9.

12.Ma, J.; Wang, K.; Wang, C.; Chen, X.; Zhu, W.; Zhu, G.; Yao, W.; Zhu, Y., Photocatalysis-self-Fenton system with high-fluent degradation and high mineralization ability. Applied Catalysis B-Environmental 2020, 276.

13.Dai, W.; Wang, J.; Pu, Y.; Zhu, Y.; Wang, Y.; Xiao, B., Efficient and stable photocatalytic degradation of tetracycline wastewater by 3D Polyaniline/Perylene diimide organic heterojunction under visible light irradiation. Chemical Engineering Journal 20

14.Zhang, Q. Zhu, Y., Photocatalytic degradation of tetracycline antibiotics using three-dimensional network structure perylene diimide supramolecular organic photocatalyst under visible-light irradiation. Applied Catalysis B: Environmental 2020, 277, 119122

15.Kunyi Yu, Hanjie Zhang, Chenliang Su, and Yongfa Zhu. Visible-Light-Promoted Efficient Aerobic Dehydrogenation of N-Heterocycles by a Tiny Organic Semiconductor Under Ambient Conditions. (Selected as Wiley-VCH 2020 Hot Topics: Photocatalysis)

16.Yan Guo, Wenxin Shi, Yongfa Zhu, Yongpeng Xu, Fuyi Cui, Enhanced photoactivity and oxidizing ability simultaneously via internal electric field and valence band position by crystal structure of bismuth oxyiodide. Applied Catalysis B: Environmental, 2020.

17.Xiong, J., Li, X., Huang, J., Gao, X., Chen, Z., Liu, J., ... & Zhu, Y. (2020). CN/rGO@ BPQDs high-low junctions with stretching spatial charge separation ability for photocatalytic degradation and H2O2 production. Applied Catalysis B: Environmental, 1186

● 2019

1.Chen, X., Xu, Y., Ma, X.,Zhu, Y. Large dipole moment induced efficient bismuth chromate photocatalysts for wide-spectrum driven water oxidation and complete mineralization of pollutants. National Science Review, 2019.

2.Wei, W. and Y. Zhu, TiO2@ Perylene Diimide Full‐Spectrum Photocatalysts via Semi‐Core–Shell Structure. Small, 2019: p. 1903933.

3.Zhang Z, Zhu Y, Chen X, Zhang H, Wang J. A Full-Spectrum Metal-Free Porphyrin Supramolecular Photocatalyst for Dual Functions of Highly Efficient Hydrogen and Oxygen Evolution. Adv Mater 2019;31(7).

4.Chen X, Shi R, Chen Q, Zhang Z, Jiang W, Zhu Y, Zhang T. Three-dimensional porous g-C3N4 for highly efficient photocatalytic overall water splitting. Nano Energy 2019;59:644-650.

5.Sheng, Y., Wei, Z., Miao, H., Yao, W., Li, H., Zhu, Y. Enhanced organic pollutant photodegradation via adsorption/photocatalysis synergy using a 3D g-C3N4/TiO2 free-separation photocatalyst. Chemical Engineering Journal, 2019, 370, 287-294.

6.Dong S, Zhu Y, Sun J. Fabrication of 3D ultra-light graphene aerogel/Bi2WO6 composite with excellent photocatalytic performance: A promising photocatalysts for water purification. Journal of the Taiwan Institute of Chemical Engineers 2019;97:288-296.

7.Li X, Xiong J, Gao X, Huang J, Feng Z, Chen Z, Zhu Y. Recent advances in 3D g-C3N4 composite photocatalysts for photocatalytic water splitting, degradation of pollutants and CO2 reduction. J Alloys Compd 2019;802:196-209.

8.Luo W, Chen X, Wei Z, Liu D, Yao W, Zhu Y. Three-dimensional network structure assembled by g-C3N4 nanorods for improving visible-light photocatalytic performance. Applied Catalysis B-Environmental 2019;255.

9.Miao H, Yang J, Peng G, Li H, Zhu Y. Enhancement of the degradation ability for organic pollutants via the synergistic effect of photoelectrocatalysis on a self-assembled perylene diimide (SA-PDI) thin film. Science Bulletin 2019;64(13):896-903.

10.Xu Z-X, Wang A-Q, Zhu Y-F. Controllable synthesis and tunable photocatalytic activity of TiO2 nanowires via alcohol-thermal method. Rare Metals 2019;38(5):390-396.

11.Yang J, Miao H, Li W, Li H, Zhu Y. Designed synthesis of a p-Ag2S/n-PDI self-assembled supramolecular heterojunction for enhanced full-spectrum photocatalytic activity. Journal of Materials Chemistry A 2019;7(11):6482-6490.

12.Yang J, Miao H, Wei Y, Li W, Zhu Y. pi-pi Interaction between self-assembled perylene diimide and 3D graphene for excellent visible-light photocatalytic activity. Applied Catalysis B-Environmental 2019;240:225-233.

● 2018

1.Chen D, Yang J, Zhu Y, Zhang Y, Zhu Y. Fabrication of BiOI/graphene Hydrogel/FTO photoelectrode with 3D porous architecture for the enhanced photoelectrocatalytic performance. Applied Catalysis B-Environmental 2018;233:202-212.

2.Chen T, Hao Q, Yang W, Xie C, Chen D, Ma C, Yao W, Zhu Y. A honeycomb multilevel structure Bi2O3 with highly efficient catalytic activity driven by bias voltage and oxygen defect. Applied Catalysis B-Environmental 2018;237:442-448.

3.Jiang W, Ruan Q, Xie J, Chen X, Zhu Y, Tang J. Oxygen-doped carbon nitride aerogel: A self-supported photocatalyst for solar-to-chemical energy conversion. Applied Catalysis B-Environmental 2018;236:428-435.

4.Jiang W, Wang H, Zhang X, Zhu Y, Xie Y. Two-dimensional polymeric carbon nitride: structural engineering for optimizing photocatalysis. Science China-Chemistry 2018;61(10):1205-1213.

5.Li Y, Li P, Wang J, Yang Y, Yao W, Wei Z, Wu J, Yan X, Xu X, Liu Y, Zhu Y. Water soluble graphitic carbon nitride with tunable fluorescence for boosting broad-response photocatalysis. Applied Catalysis B-Environmental 2018;225:519-529.

6.Liu D, Cai W, Wang Y, Zhu Y. Constructing a novel Bi2SiO5/BiPO4 heterostructure with extended light response range and enhanced photocatalytic performance. Applied Catalysis B-Environmental 2018;236:205-211.

7.Liu D, Liu Q, Wang Y, Zhu Y. Bi2SiO5 Semiconductor Photocatalyst. Progress in Chemistry 2018;30(6):703-709.

8.Liu D, Wang J, Wang Y, Zhu Y. An anion exchange strategy for construction of a novel Bi2SiO5/Bi2MoO6 heterostructure with enhanced photocatalytic performance. Catalysis Science & Technology 2018;8(13):3278-3285.

9.Lu H, Hao Q, Chen T, Zhang L, Chen D, Ma C, Yao W, Zhu Y. A high-performance Bi2O3/Bi2SiO5 p-n heterojunction photocatalyst induced by phase transition of Bi2O3. Applied Catalysis B-Environmental 2018;237:59-67.

10.Miao H, Yang J, Wei Y, Li W, Zhu Y. Visible-light photocatalysis of PDI nanowires enhanced by plasmonic effect of the gold nanoparticles. Applied Catalysis B-Environmental 2018;239:61-67.

11.Wang J, Liu D, Zhu Y, Zhou S, Guan S. Supramolecular packing dominant photocatalytic oxidation and anticancer performance of PDI. Applied Catalysis B-Environmental 2018;231:251-261.

12.Wang Y, Jiang W, Luo W, Chen X, Zhu Y. Ultrathin nanosheets g-C3N4@Bi2WO6 core-shell structure via low temperature reassembled strategy to promote photocatalytic activity. Applied Catalysis B-Environmental 2018;237:633-640.

13.Wang Y, Yang W, Chen X, Wang J, Zhu Y. Photocatalytic activity enhancement of core-shell structure g-C3N4@TiO2 via controlled ultrathin g-C3N4 layer. Applied Catalysis B-Environmental 2018;220:337-347.

14.Wei W, Wei Z, Liu D, Zhu Y. Enhanced visible-light photocatalysis via back-electron transfer from palladium quantum dots to perylene diimide. Applied Catalysis B-Environmental 2018;230:49-57.

15.Wei Y, Ma M, Li W, Yang J, Miao H, Zhang Z, Zhu Y. Enhanced photocatalytic activity of PTCDI-C-60 via pi-pi interaction. Applied Catalysis B-Environmental 2018;238:302-308.

16.Wei Z, Hu J, Zhu K, Wei W, Ma X, Zhu Y. Self-assembled polymer phenylethnylcopper nanowires for photoelectrochemical and photocatalytic performance under visible light. Applied Catalysis B-Environmental 2018;226:616-623.

17.Wei Z, Liu M, Zhang Z, Yao W, Tan H, Zhu Y. Efficient visible-light-driven selective oxygen reduction to hydrogen peroxide by oxygen-enriched graphitic carbon nitride polymers. Energy & Environmental Science 2018;11(9):2581-2589.

18.Xiang Y, Wang X, Rao L, Wang P, Huang D, Ding X, Zhang X, Wang S, Chen H, Zhu Y. Conjugated Polymers with Sequential Fluorination for Enhanced Photocatalytic H-2 Evolution via Proton-Coupled Electron Transfer. Acs Energy Letters 2018;3(10):2544-2549.

19.Yang G, Ding H, Chen D, Feng J, Hao Q, Zhu Y. Construction of urchin-like ZnIn2S4-Au-TiO2 heterostructure with enhanced activity for photocatalytic hydrogen evolution. Applied Catalysis B-Environmental 2018;234:260-267.

20.Yang W, Zhu Y, You F, Yan L, Ma Y, Lu C, Gao P, Hao Q, Li W. Insights into the surface-defect dependence of molecular oxygen activation over birnessite-type MnO2. Applied Catalysis B-Environmental 2018;233:184-193.

21.Zhang K, Wang J, Jiang W, Yao W, Yang H, Zhu Y. Self-assembled perylene diimide based supramolecular heterojunction with Bi2WO6 for efficient visible-light-driven photocatalysis. Applied Catalysis B-Environmental 2018;232:175-181.

22.Zhang Y, Cui W, An W, Liu L, Liang Y, Zhu Y. Combination of photoelectrocatalysis and adsorption for removal of bisphenol A over TiO2-graphene hydrogel with 3D network structure. Applied Catalysis B-Environmental 2018;221:36-46.

23.Zhao S, Zhao X, Ouyang S, Zhu Y. Polyoxometalates covalently combined with graphitic carbon nitride for photocatalytic hydrogen peroxide production. Catalysis Science & Technology 2018;8(6):1686-1695.

24.Zhu G, Zhu J, Li W, Yao W, Zong R, Zhu Y, Zhang Q. Tuning the K+ Concentration in the Tunnels of alpha-MnO2 To Increase the Content of Oxygen Vacancy for Ozone Elimination. Environmental Science & Technology 2018;52(15):8684-8692.

25.Zhu K, Zhu G, Wang J, Zhu J, Sun G, Zhang Y, Li P, Zhu Y. Direct storage of holes in ultrathin Ni(OH)(2) on Fe2O3 photoelectrodes for integrated solar charging battery-type supercapacitors. Journal of Materials Chemistry A 2018;6(43):21360-21367.

● 2017

1.Yanyan Zhu, Yajun Wang,Qiang Ling and Yongfa Zhu,Enhancement of full-spectrum photocatalytic activity over BiPO4/Bi2WO6 composites Applied Catalysis B: Environmental, 200 (2017) 222–229

2.Zhen Wei, Fenfen Liang, Yanfang Liu, Wenjiao Luo, Jun Wang, Wenqing Yao,Yongfa Zhu,Photoelectrocatalytic degradation of phenol-containing wastewaterby TiO2/g-C3N4hybrid heterostructure thin film, Applied Catalysis B: Environmental 201 (2017) 600–606

3.Xianjie Chen, Qian Chen, Wenjun Jiang, Zhen Wei, Yongfa Zhu,Separation-free TiO2-graphene hydrogel with 3D network structurefor efficient photoelectrocatalytic mineralization, Applied Catalysis B: Environmental 211 (2017) 106–113

4.Jun Wang, Wen Shi, Di Liu, ZiJian Zhang, Yongfa Zhu∗, Dong Wang∗,Supramolecular organic nanofibers with highly efficient and stablevisible light photooxidation performance, Applied Catalysis B: Environmental 202 (2017) 289–297

5.Guoxiang Zhu, Jinguo Zhu, Wenjun Jiang, Zijian Zhang, Jun Wang, Yongfa Zhu,Qianfan Zhang,Surface oxygen vacancy induced MnO2 nanofiber for highly efficient ozone elimination, Applied Catalysis B: Environmental 209 (2017) 729–737

6.Weiqin Wei, Di Liu, Zhen Wei, and Yongfa Zhu,Short-Range π−π Stacking Assembly on P25 TiO2 Nanoparticles for Enhanced Visible-Light Photocatalysis, ACS Catal. 2017, 7, 652−663

7.Wenjun Jiang, Yongfa Zhu, Guoxiang Zhu, Zijiang Zhang, Xianjie Chen and Wenqing Yao, Three-dimensional photocatalysts with a network structure, J. Mater. Chem. A, 2017, 5, 5661–5679

8.Zhen Wei, Di Liu,Weiqin Wei,Xianjie Chen,Qiang Han,Wenqing Yao,Xinguo Ma,and Yongfa Zhu,Ultrathin TiO2(B) Nanosheets as the Inductive Agent for Transfrering H2O2 into Superoxide Radicals, ACS Appl. Mater. Interfaces 2017, 9, 15533−15540

9.Jinjin Yang, Daimei Chen, Yi Zhu, Yuanming Zhang Yongfa Zhu,3D-3D porous Bi2WO6/graphene hydrogel composite with excellentsynergistic effect of adsorption-enrichment and photocatalyticdegradation , Applied Catalysis B: Environmental 205 (2017) 228–237

10.Qiang Hao, Ruiting Wang, Haojie Lu, Ci’an Xie, Weihua Ao, Daimei Chen,Chao Ma, Wenqing Yao, Yongfa Zhu,One-pot synthesis of C/Bi/Bi2O3composite with enhancedphotocatalytic activity, Applied Catalysis B: Environmental 219 (2017) 63–72

11.Chenfan Mu, Yu Zhang, Wenquan Cui, Yinghua Liang, Yongfa Zhu,Removal of bisphenol A over a separation free 3D Ag3PO4-graphenehydrogel via an adsorption-photocatalysis synergy, Applied Catalysis B: Environmental 212 (2017) 41–49

12.Guang Yang, Daimei Chen,Yongfa Zhu,Well-designed 3D ZnIn2S4 nanosheets/TiO2 nanobelts as direct Z-scheme photocatalysts for CO2 photoreduction into renewable hydrocarbon fuel with high efficiency, Applied Catalysis B: Environmental 219 (2017) 611–618

● 2016

1.Di Liu, Jun Wang, Xiaojuan Bai, Ruilong Zong and Yongfa Zhu, Self-assembled PDINH supramolecular for photocatalysis under visible light, Advanced Materials, 2016 28, 7284–7290

2.Wenjun Jiang, Wenjiao Luo, Jun Wang, Mo Zhang, Yongfa Zhu, Enhancement of Catalytic Activity and Oxidative Ability for Graphitic Carbon Nitride, Journal of Photochemistry and Photobiology C: Photochemistry Reviews 28 (2016) 87–115

3.Wenjun Jiang, Yanfang Liu, Jun Wang, Mo Zhang, Wenjiao Luo and Yongfa Zhu,Separation-free Polyaniline/ TiO2 3D Hydrogel with High Photocatalytic Activity,Advanced Materials Interface,2016,3,3, DOI: 10.1002/admi.20150050

4.Mo Zhang, Wenjun Jiang, Di Liu, Jun Wang, Yanfang Liu,Yanyan Zhu and Yongfa Zhu,Photodegradation of Phenol via C3N4-Agar Hybrid Hydrogel 3D Photocatalysts with Free Separation, Applied Catalysis B: Environmental 2016,183, 263-268

5.Fenfen Liang, Yongfa Zhu, Enhancement of Mineralization Ability for Phenol via Synergetic Effect of Photoelectrocatalysis of g-C3N4 Film, Applied Catalysis B: Environmental, 2016,180, 324-329

6.Yanhui Lv, Wenqing Yao, Ruilong Zong and Yongfa Zhu,Fabrication of Wide-Range-Visible Photocatalyst Bi2WO6-x nanoplates via Surface Oxygen Vacancies, Scientific Reports, 2016, 6, 9

7.YanyanZhu, QiangLing, YanfangLiu,HuaWang and YongfaZhu,Photocatalytic Performance of BiPO4Nanorods adjusted via Defects,Applied Catalysis B: Environmental, 2016, 187, 204–211

8.Mo Zhang, Wenjiao Luo, Zhen Wei, Wenjun Jiang, Di Liu and Yongfa Zhu, Separation Free C3N4/SiO2 Hybrid Hydrogels as High Active Photocatalysts for TOC Removal, Applied Catalysis B: Environmental, 194 (2016) 105–110

9.Yao Li, Wenquan Cui, Ruilong Zong, Wenqing Yao, Yinghua Liang, and Yongfa Zhu, Removal of Cr(VI) by 3D TiO2-graphene hydrogel via adsorption enriched with photocatalytic reduction, Applied Catalysis B: Environmental, 199 (2016) 412–423

10.Wenjun Jiang, Wenjiao Luo, Ruilong Zong, Wenqing Yao, Zhanping Li, and Yongfa Zhu, Polyaniline/Carbon Nitride Nanosheets Composite Hydrogel: A Separation-free Photocatalyst with 3D Hierarchical Structure, Samll,2016,12(32),4370-4378

11.Zijian Zhang, Jun Wang, Di Liu, Wenjiao Luo, Mo Zhang, Wenjun Jiang,and Yongfa Zhu, Highly Efficient Organic Photocatalyst with Full Visible Light Spectrum through π−π Stacking of TCNQ−PTCDI, ACS Appl. Mater. Interfaces 2016, 8, 30225−30231

● 2015

1.Zhen Wei, YanfangLiu,aJun Wang, Ruilong Zong,Wenqing Yao,Juan Wang and Yongfa Zhu,Controlled Synthesis of Highly Dispersed BiPO4 Photocatalyst with Surface Oxygen Vacancy, Nanoscale, 2015, 7, 13943

2.Wenjun Jiang, Yanfang Liu and Yongfa Zhu, Photocatalytic Hydrogen Generation on Bifunctional Ternary Heterostructured In2S3/MoS2/CdS Composite with High Activity and Stability under Visible Light Irradiation, Journal of Materials Chemistry A, 2015, 2015,

3.Jun Wang, Wenjun Jiang, Di Liu, Zhen Wei, Yongfa Zhu,Photocatalytic performance enhanced via surface bismuth vacancy ofBi6S2O15core/shell nanowires, Applied Catalysis B: Environmental 176 (2015) 306–314

4.Chengsi Pan and Yongfa Zhu,A review of BiPO4, a highly efficient oxyacid-type photocatalyst, used for environmentalApplications, Catal. Sci. Technol., 2015, 5, 3071–3083

5.Daimei Chen, Kewei Wang, Zhihong Wang, Ruilong Zong, WenqingYao, Yongfa Zhu,Visible light photoactivity enhancement via CuTCPP hybridized g-C3N4 nanocomposite, Applied Catalysis B: Environmental 166–167 (2015) 366–373

6.Bai X, Sun C, Wu S, et al. Enhancement of photocatalytic performance via a P3HT-g-C 3 N 4 heterojunction[J]. Journal of Materials Chemistry A, 2015, 3(6): 2741-2747.

7.Mo Zhang; Xiaojuan Bai; Di Liu; Jun Wang; Yong Fa Zhu, Enhanced catalytic activity of Potassium-Doped Graphitic Carbon Nitride Induced by Lower Valence Position, Applied Catalysis B: Environmental, 164 (2015) 77–81

8.Yanfang Liu, Wenqing Yao, Di Liu, Ruilong Zong, Mo Zhang, Xinguo Ma, Yongfa Zhu,Enhancement of Visible Light Mineralization Ability and Photocatalytic Activity of BiPO4/BiOI via Charge Transfer, Applied Catalysis B: Environmental,163 (2015) 547–553

9.Jianwei Zhou, Mo Zhang and Yongfa Zhu, Photocatalytic Enhancement of Hybrid C3N4/TiO2 Prepared via Ball Milling Method,Phys.Chem.Chem.Phys.,2015, 17, 3647

10.Yanyan Zhu, Qiang ling, Yanfang Liu, Hua Wang, Yongfa Zhu,Photocatalytic H2 Evolution on MoS2/TiO2 catalysts synthesized via mechanochemistry, Phys. Chem. Chem. Phys., 2015, 17 (2), 933 - 940

11.Yanyan Zhu, Yajun Wang,Wenqing Yao, Ruilong Zong and Yongfa Zhu, New insights into the relationship betweenphotocatalytic activity and TiO2–GR composites,RSC Adv., 2015, 5, 29201

12.Rui Shi,Lihong Yan,Tongguang Xu, Dongye Liu,Yongfa Zhu and Jun Zhou, Graphene oxide bound silica for solid-phase extraction of 14 polycyclic aromatic hydrocarbons in mainstream cigarette smoke, Journal of Chromatography A, 2015, 1375, 1–7

● 2014

1.Di Liu, Jun Wang, Mo Zhang, Yanfang Liu and Yongfa Zhu,Superior Photocatalytic Performance of Novel Bi2SiO5 Flower-like Microsphere via Phase Junction, Nanoscale, 2014, 6(24), pp 15222-15227

2.Xiaojuan Bai, Shicheng Yan, Jiajia Wang, Li Wang, Wenjun Jiang, Yongfa Zhu,A Simple and Efficient Strategy for Chemically Tailored g-C3N4 Photocatalyst,Journal of Materials Chemistry A,2014,2(41),17521 -17529

3.Xiao-long Wang, Rui-long Zong, Shi-kao Shi and Yongfa Zhu,Ultrasensitive and reproducible surface-enhanced Raman scattering detection via an optimized adsorption process and filter-based substrate,Anal. Methods, 2014,6, 4130-4137

4.Daimei Chen, Kewei Wang, Tiezhen Ren, Hao Ding and Yongfa Zhu,Synthesis and characterization of the ZnO/mpg-C3N4 heterojunction photocatalyst with enhanced visible light photoactivity,Dalton Trans., 2014, 43,13105

5.Ruilong Zong, Xiaolong Wang, Shikao Shi and Yongfa Zhu, Kinetically controlled seed-mediated growth of narrow dispersed silver nanoparticles up to 120 nm: secondary nucleation, size focusing, and Ostwald ripening,Phys. Chem. Chem. Phys., 2014,16, 4236-424

6.Du Yue, Daimei Chen,Zhihong Wang, Hao Ding, Ruilong Zong and Yongfa Zhu,Enhancement of visible photocatalytic performances of a Bi2MoO6–BiOCl nanocomposite with plate-on-plate heterojunction structure,Phys. Chem. Chem. Phys.,2014, 16, 26314

7.Yanyan Zhu, Yanfang Liu, Yanhui Lv, Qiang Lin, Di Liu,and Yongfa Zhu,Enhancement of Photocatalytic Activity for BiPO4 via Phase Junction,Journal of Materials Chemistry A,2104,2, 13041-13048

8.Di Liu, Yanhui Lv, Mo Zhang, Yanfang Liu, Yanyan Zhu, Ruilong Zong and Yongfa Zhu, Defects-related photoluminescence and photocatalytic properties of porous ZnO nanosheet,J. Mater. Chem. A, 2014, 2:37, 15377-15388

9.Jianwei Zhou, Mo Zhang and Yongfa zhu,Preparation of Visible Light-driven g-C3N4-ZnO Hybrid Photocatalyst via Mechnochemistry, Phys. Chem. Chem. Phys., 2014,16,17627-17633

10.B. Lu and Y. Zhu,Synthesis and Photocatalysis Performances of Bismuth Oxynitrate Photocatalysts with Layered Structure,Phys. Chem. Chem. Phys., 2014, 16 (31), 16509 - 16514

11.Daimei Chen, Zhihong Wang, Tiezhen Ren, Hao Ding, Wenqing Yao, Ruilong Zong, and Yongfa Zhu,Influence of Defects on the Photocatalytic Activity of ZnO,The Journal of Physical Chemistry,2014, 118 (28), pp 15300–15307

12.Mo Zhang, Wenqing Yao, Yanhui Lv, Xiaojuan Bai, Yanfang Liu, Wenjun Jiang and Yongfa Zhu,Enhancement of Mineralization Ability of C3N4 via lower Valence Position by Tetracyanoquinodimethane Organic Semiconductor,J. Mater. Chem. A, 2014, 2,11432

13.Wenjun Jiang, Mo Zhang, Jun Wang, Yanfang Liu, Yongfa Zhu, Dramatic Visible Activity in Phenol Degradation of TCNQ-TiO2 Photocatalyst with Core-shell Structure, Applied Catalysis B: Environmental,2014,160-161,44-50

14.Xiaojuan Bai,Li Wang,Yajun Wang,Wenqing Yao,Yongfa Zhu, Enhanced Oxidation Ability of g-C3N4 Photocatalyst via C60 modification, Applied Catalysis B: Environmental,2014,152–153 (2014) 262–270

15.Yanhui Lv, Yanfang Liu, Yanyan Zhu, Yongfa Zhu ,Surface Oxygen Vacancy Induced the Photocatalytic Performance Enhancement of BiPO4 Nanorod, Journal of Materials Chemistry A, 2014, 2 (4), 1174 - 1182

16.Yanfang Liu, Yanhui Lv, Yanyan Zhu, Di Liu, Ruilong Zong, Yongfa Zhu,Fluorine mediated Photocatalytic Activity of BiPO4,Applied Catalysis B: Environmental,2014,147, 851–857

17.Mo Zhang; Jing Xu; Rui L Zong; Yongfa Zhu,Enhancement of Visible Light Photocatalytic Activities via Porous Structure of g-C3N4, Applied Catalysis B: Environmental,2014, 147,229-235

18.Xiaojuan Bai, Ruilong Zong, Di Liu, Yongfa Zhu,Enhancement of Visible Photocatalytic Activity Promoted via Ag@C3N4 Core-Shell Plasmonic Composite, Applied Catalysis B: Environmental 147 (2014) 82–91

19.Daimei Chen, Kewei Wang, Dugao Xiang, Ruilong Zong, Yongfa Zhu,Significantly Enhancement of Photocatalytic Performances via Core-shell Structure of ZnO@mpg-C3N4,Applied Catalysis B: Environmental,147 (2014) 554– 561

20.Di Liu, Yanfang Liu, Ruilong Zong, Yongfa Zhu,Controlled Synthesis of 1D ZnO nanostructures via hydrothermal,Materials Research Bulletin,2014 , 49, 665–671

21.Di Li, Xiaojuan Bai, Jing Xu, Xinguo Ma and Yongfa Zhu,Synthesis of CdWO4 nanorods and investigation of the photocatalytic activity,Phys. Chem. Chem. Phys., 2014, 16 (1), 212 - 218

● 2013

1.Jing Xu, Liwu Zhang, Rui Shi, Yongfa Zhu,Chemical exfoliation of graphitic carbon nitride for efficient heterogeneous Photocatalysis,Journal of Materials Chemistry A, 2013, 1 (46), 14766 - 14772

2.Liu, Yanfang; Zhu, Yanyan; Xu, Jing and Zhu, Yongfa,Mechanism of phenol degradation and mineralization by BiPO4 photocatalyst synergied with H2O2, Applied Catalysis B: Environmental 142– 143 (2013) 561– 567

3.Yanhui Lv, Chengsi Pan, Xinguo Ma, Yongfa Zhu ,Production of Visible Activity and UV Performance Enhancement of ZnO Photocatalyst via Vacuum Deoxidation,Applied Catalysis B: Environmental 138– 139 (2013) 26– 32

4.Xiaojuan Bai, Li Wang, Ruilong Zong, Yongfa Zhu, Photocatalytic Activity Enhanced via g-C3N4 Nanoplates to Nanorods, The Journal of Physical Chemistry C, 2013, 117, 9952−9961

5.Lv, Yanhui; Zhu, YanYan; Zhu, Yongfa, Enhanced Photocatalytic Performance for BiPO4-x Nanorod Induced by Surface Oxygen Vacancy,The Journal of Physical Chemistry C,2013, 117, 18520-18528

6.Xinguo Ma, Ying Wu, Yanhui Lv, and Yongfa Zhu, Correlation Effects on Lattice Relaxation and Electronic Structure of ZnO within the GGA+U Formalism,The Journal of Physical Chemistry C, 2013, 117, 26029−26039

7.ZnO1-x Photocatalyst via Synergic Effect of Surface Defect and Graphene Hybridization,Langmuir,2013, 29:9, 3097-3105

8.Jing Xu, Yajun Wang, Yongfa Zhu,Nanoporous Graphitic Carbon Nitride with Enhanced Photocatalytic Performance,Langmuir, 2013, 29, 10566−10572

9.Shi, R., Xu, T., Yan, L., Zhu, Y.and Zhou, J. (2013). Enhancement of visible light photocatalytic performances of Bi 2 MoS 2 O 4 nanoplates. Catalysis Science & Technology, 3(7), 1757-1764.

10.Yanhui Lv, Xinguo Ma, Chengsi Pan, Yanyan Zhu and Yongfa Zhu,Surface Oxygen Vacancy Induced Visible Activity and Enhanced UV Activity of ZnO1-x Photocatalyst, Catal. Sci. Technol., 2013, 3 (12), 3136 - 3146

11.Di Li, Chengsi Pan and Yongfa Zhu,Investigations on Phase Transition between CdV2O6 and Cd2V2O7 and Their Photocatalytic Performances,European Journal of Inorganic Chemistry,2013, 17: 3070-3075

12.ZHU Yan-Yan, LIU Yan-Fang, LV Yan-Hui, WANG Hua, LING Qiang, ZHU Yong-Fa, Reflux Preparation and Photocatalytic Performance of Bismuth Phosphate Nanorods, Acta Phys. Chim. Sin. 2013, 29 (3), 576-584

13.XU Jing,ZHU Yong-fa,Elimination of Bisphenol A from Water via Graphene Oxide Adsorption,Acta Phys. Chim. Sin. 2013, 29 (4), 829-836

● 2012

1.Chengsi Pan, Jing Xu and Yongfa Zhu,Dramatic Activity of C3N4/BiPO4 Photocatalyst with Core-shell Structure formed by Self-assembly,ADVANCED FUNCTIONAL MATERIALS,2012, 22,1518-1524

2.Chengsi Pan, Jing Xu, Yi Chen and Yongfa Zhu, Influence of OH-related Defects on the Performances of BiPO4 Photocatalyst for the Degradation of Rhodamine B, Applied Catalysis B,2012,115, 314-319

3.Yajun Wang, Xiaojuan Bai, Chengsi Pan, Jun He and Yongfa Zhu,Enhancement of Photocatalytic Activity of Bi2WO6 Hybridized with Graphite-Like C3N4,JOURNAL OF MATERIALS CHEMISTRY, 2012,22, 11568-11573

4.Xinguo Ma, Yanhui Lv, Jing Xu, Yanfang Liu, Ruiqin Zhang, and Yongfa Zhu , A strategy of enhancing the photoactivity of g-C3N4 via doping of nonmetal elements, JPCC, 2012, 116 : 44: 23485-23493

5.Xu, Jing; Wang, Li, Zhu Yongfa, Decontamination of bisphenol A from aqueous solution by graphene adsorption,Langmuir Vol. 28, No. 22, June 5, 2012, pp 8418–8425

6.Xiaojuan Bai, Li Wang, and Yongfa Zhu,Visible Photocatalytic Activity Enhancement of ZnWO4 by Graphene Hybridization, ACS Catalysis,2012, 2, 2769−2778

7.Liwu Zhang, Yongfa Zhu, A review of controllable synthesis and enhancement of performances of bismuth tungstate visible-light-driven photocatalysts,Catalysis Science & Technology, 2012, 2( 4), 694-706

8.Di Li, Yongfa Zhu, Synthesis of CdMoO4 microspheres by self-assembly and Photocatalytic Performances, CrystEngComm, 2012, 14 (3), 1128 - 1134

9.Rui Shi, Tongguang Xu, Yongfa Zhu, Jun Zhou, Mechanism of High Photoactivity of Oxychloride CaBiO2Cl and Role of Surface Hydroxyl on the Photocatalytic Performances, CrystEngComm 14 (2012) 6257-6263

10.Guangli Huang, Yongfa Zhu,Synthesis of Chlorine doped ZnWO4 and High Photocatalytic Activity, CrystEngComm, 2012,14, 8076-8082

11.Bin Lu, Xinguo Ma, Chengsi Pan, Yongfa Zhu, Photocatalytic and Photoelectrochemical Properties of In-situ Carbon Hybridized BiPO4 films ,Applied Catalysis A,2012,435 : 93-98

12.WU Xiao-Qin, ZONG Rui-Long ,ZHU Yong-Fa, Enhanced MnO2 Nanorods to CO and Volatile Organic Compounds Oxidative Activity by Platinum Nanoparticles, Acta Phys. Chim. Sin., 2012, 28(2),437-444

13.LIU Yan-Fang, MA Xin-Guo, YI Xin, ZHU Yong-Fa. Controllable Synthesis and Photocatalytic Performance of Bismuth Phosphate Nanorods. Acta Phys. Chim. Sin., 2012, 28 (03): 654-660

● 2011

1.Yajun Wang, Rui Shi, Jie Lin and Yongfa Zhu,Enhancement of photocurrent and photocatalytic activity of ZnO hybridized with graphite-like C(3)N(4), ENERGY & ENVIRONMENTAL SCIENCE,2011,4(8), 2922-2929

2.Xinguo Ma, Ying Wu, Yanhui Lu, Jing Xu, Yajun Wang, Yongfa Zhu, Effect of Compensated Codoping on the Photoelectrochemical Properties of Anatase TiO2 Photocatalyst, The Journal of Physical Chemistry, 2011, 115(34): 16963-16969

3.Xinguo Ma, Bin Lu, Di Li, Rui Shi, Chenshi Pan, and Yongfa Zhu, Origin of Photocatalytic Activation of Silver Orthophosphate from First-Principles, JOURNAL OF PHYSICAL CHEMISTRY C ,2011, 115(11): 4680-4687

4.Tongguang Xu, Liwu Zhang, Hanyun Cheng, Yongfa Zhu,Significantly enhanced photocatalytic performance of ZnO via graphene hybridization and the mechanism study,Applied Catalysis B: Environmental,101 (2011) 382–387

5.Rui Shi, Yajun Wang, Feng Zhou and Yongfa Zhu, Zn3V2O7(OH)(2)(H2O)(2) and Zn3V2O8 nanostructures: controlled fabrication and photocatalytic performance, JOURNAL OF MATERIALS CHEMISTRY,2011, 21(17): 6313-6320

6.Chengsi Pan and Yongfa Zhu,Size-controlled synthesis of BiPO4 nanocrystals for enhanced photocatalytic performance,Journal of Materials Chemistry,2011, 21, 4235–4241

7.Zhang Liwu; Man Yi; Zhu Yongfa, Effects of Mo Replacement on the Structure and 2 Visible-light-induced Photocatalytic Performances of Bi2WO6 Photocatalyst, ACS Catalysis, 2011,1(8), 841-848

8.Chengsi Pan, Di Li, Xinguo Ma, Yi Chen and Yongfa Zhu, Effects of Distortion of PO4 Tetrahedron on the Photocatalytic Performances of BiPO4, Catalysis Science & Technology, 2011,1 ( 8): 1399-1405 DOI: 10.1039/c1cy00261a

9.Di Li, Rui Shi, Chengsi Pan and Yongfa Zhu, Influence of ZnWO4 nanorod aspect ratio on the photocatalytic activity, CRYSTENGCOMM, 2011,13(14): 4695-4700

10.Di Li, Chengsi Pan, Rui Shi, Yongfa Zhu, Controllable synthesis of Fe5(PO4)4(OH)3•2H2O as a highly efficient heterogeneous Fenton-like catalysts, CrystEngComm., 2011,13( 22): 6688-6693 DOI: 10.1039/c1ce05483j

11.Yajun Wang, JieLin, Rui Shi Yongfa Zhu,Enhanced Photoelectric Catalytic Degradation of Methylene Blue via TiO2 Nanotube Arrays Hybridized with Graphite-like Carbon, Journal of Molecular Catalysis A: Chemical, 349 (2011) 13– 19

12.Huang Guangli, Shi Rui, Zhu Yongfa, Photocatalytic Activity and Photoelectric Performance Enhancement for ZnWO4 by Fluorine Substitution, Journal of Molecular Catalysis. A, Chemical 348 (2011), pp. 100-105

13.Yajun Wang,JingXu,WeizhengZong,YongfaZhu , Enhancement of photoelectric catalytic activity of TiO2 film via Polyaniline hybridization ,JOURNAL OF SOLID STATE CHEMISTRY,2011,184(6),1433-1438

14.Feng Zhou, Rui Shi, Yongfa Zhu, Significant Enhancement of the Visible Photocatalytic Degradation Performances of Bi2MoO6 Nanoplate by Graphene Hybridization, Journal of Molecular Catalysis A: Chemical,2011,340,77-82

15.Yao Wen-qing, Zong Rui-long, Zhu Yong-fa, Standard Sample Preparation Method for Quick Determination of Trace Elements in Plastic, SPECTROSCOPY AND SPECTRAL ANALYSIS, 2011,31(8): 2274-2277

● 2010

1.Haipeng Yang, Yongfa Zhu, Dongcheng Chen, Chunhui Li, Shiguo Chen, Zaochuan Ge,Electrochemical biosensing platforms using poly-cyclodextrin and carbon nanotube composite,Biosensors and Bioelectronics 26 (2010) 295–298

2.Yajun Wang, Rui Shi, Jie Lin, and Yongfa Zhu,Significant photocatalytic enhancement of TiO2 photocatalysts via graphene-like carbon in-situ hybridization,Applied Catalysis B: Environmental,100 (2010) 179–183

3.Rui Shi; Yajun Wang; Di Li; Jing Xu; Yongfa Zhu,Synthesis of ZnWO4 Nanorods with [100] Orientation and Enhanced Photocatalytic Properties,Applied Catalysis B: Environmental,100 (2010) 173–178

4.Liwu Zhang, Yajun Wang, Tongguang Xu, Shengbao Zhu, Yongfa Zhu,Surface hybridization effect of C60 molecules on TiO2 and enhancement of the photocatalytic activity,Journal of Molecular Catalysis A: Chemical 2010,331 7–14

5.Chengsi Pan,Yongfa Zhu,New Type of BiPO4 Oxy-Acid Salt Photocatalyst with High Photocatalytic Activity on Degradation of Dye,Environ.Sci.Technol. 2010, 44, 5570–5574

6.Liwu Zhang, Tongguang Xu, Xu Zhao, Yongfa Zhu,Controllable synthesis of Bi2MoO6 and effect of morphology and variation in local structure on photocatalytic activities,Applied Catalysis B: Environmental 98 (2010) 138-146

7.Hao Zhang and Yongfa Zhu,Significant Visible Photoactivity and Antiphotocorrosion Performance of CdS Photocatalysts after Monolayer Polyaniline Hybridization,J. Phys. Chem. C 2010, 114, 5822–5826

8.Rui Shi, Jie Lin, Yajun Wang, Jing Xu, and Yongfa Zhu,Visible-Light Photocatalytic Degradation of BiTaO4 Photocatalyst and Mechanism of Photocorrosion Suppression,J. Phys. Chem. C 2010, 114, 6472–6477

9.Shuhui Liang, Tongguang Xu, Fei Teng, Ruilong Zong, Yongfa Zhu ,The high activity and stability of La0.5Ba0.5MnO3 nanocubes in the oxidation of CO and CH4,Applied Catalysis B: Environmental 96 (2010) 267–275

10.ZONG WeiZheng,ZHU YongFa,Preparation of Single Chamber Solid Oxide Fuel Cell by Co-Pressing and Direct Forming Process, Acta Phys.Chim. Sin., 2010, 26(4):827-832

11.Wu Xiao-Qin, Zong Rui-Long,Mu Hao-Jie,Zhu Yong-Fa,Cataluminescence Performance on Catalysts of Graphene Supported Platinum,ACTA PHYSICO-CHIMICA SINICA,2010,26(11), 3002-3008

● 2009

1.Liwu Zhang, Yajun Wang, Hanyun Cheng, Wenqing Yao, and Yongfa Zhu,Synthesis of Bi2WO6 Porous Thin Films as Efficient Visible-Active Photocatalyst,Adv. Mater.,2009,21,12,1286-1290

2.Zhang H, Zong RL, Zhu YF, Photocorrosion Inhibition and Photoactivity Enhancement for Zinc Oxide via Hybridization with Monolayer Polyaniline, J. Phys. Chem. C,2009, 113, 4605–4611

3.Liwu Zhang, Hanyun Cheng, Ruilong Zong, Yongfa Zhu, Photocorrosion suppression of ZnO nanoparticles via hybridization with graphite-like carbon and enhanced photocatalytic activity, J. Phys. Chem. C,2009, 113, 2368–2374

4.Fei Teng, Wenqing Yao, Yongfa Zhu, Mindong Chen, Ranhui Wang, Sun-il Mho, and Dennis Desheng Meng,Correlation Cataluminescence (CTL) Property with Reactivity of Hydrothermally Synthesized La0.8Sr0.2MnO3 Cubes and CTL as a Rapid Mode of Screening Catalyst,

5.Rui Shi, Guangli Huang, Jie Lin, and Yongfa, Zhu,Photocatalytic Activity Enhancing for Bi2WO6 by Fluorine Substitution,J. Phys. Chem. C,2009, 113 , 19633-19638

6.JIE LIN, RUILONG ZONG, MI ZHOU, YONGFA ZHU, Photoelectric Catalytic Degradation of Methylene Blue by C60-Modified TiO2 Nanotube Array, Applied Catalysis B, Environmental, 2009, 89(3-4),425-431

7.Xu Zhao, Tongguang Xu, Wenqing Yaoa and Yongfa Zhu, Synthesis and photoelectrochemical properties of thin bismuth molybdates film with various crystal phases,THIN SOLID FILMS, 2009, 517(20),5813-5818

8.Xu Zhao, Tongguang Xu, Wenqing Yaoa and Yongfa Zhu, Photodegradation of dye pollutants catalyzed by gamma-Bi2MoO6 nanoplate under visible light irradiation,APPLIED SURFACE SCIENCE, 2009,255(18),8036-8040

9.Fuxin Zhong, Ruilong Zong and Yongfa Zhu,Platinum nanowire array electrochemical sensor: Fabrication and Characterization, Journal Nanoscience and Nanotechnology, 2009, 9(4),2437-2441

● 2008

1.Liwu Zhang, Hongbo Fu, Yongfa Zhu,An Efficient TiO2 Photocatalyst by Surface Hybridization with Graphite-like Carbon, Adv. Funct. Mater.,2008, 18, 2180–2189

2.Guangli Huang, Shicheng Zhang, Tongguang Xu, Yongfa Zhu, Fluorination of ZnWO4 Photocatalyst and Influence on the Degradation Mechanism for 4-Chlorophenol,Environ.Sci.Technol. 2008, 42 (22), 8516-8521.

3.Hongbo Fu, Tongguang Xu, Shengbao Zhu, and Yongfa Zhu, Photocorrosion Inhibition and Enhancement of Photocatalytic Activity for ZnO via Hybridization with C60, Environ.Sci.Technol. 2008, 42 (21), 8064-8069

4.Fei Teng, Tongguang Xu , Yang Teng , Shuhui Liang , Bulgengauge, Jie Lin, Wenqing Yao , Ruilong Zong , Yongfa Zhu ,and Youfei Zheng, A CL Mode Detector for Rapid Catalyst Selection and Environmental Detection Fabricated by Perovskite Nanoparticles, Envir

5.Hongbu Fu, Shicheng Zhang, Tongguang Xu, Yongfa Zhu, and Jiaming Chen, Photocatalytic Degradation of RhB by Fluorinated Bi2WO6 and Distributions of the Intermediate Products, Environ.Sci.Technol. 2008, 42, 2085–2091

6.Hao Zhang, Ruilong Zong, Jincai Zhao, and Yongfa Zhu, Dramatic Visible Photocatalytic Degradation Performances Due to Synergetic Effect of TiO2 with PANI, Environ.Sci.Technol. 2008, 42, 3803–3807

7.Liwu Zhang, Hongbo Fu, Chuan Zhang, and Yongfa Zhu, Effects of Ta5+ Substitution on the Structure and Photocatalytic Behavior of the Ca2Nb2O7 Photocatalyst,J. Phys.Chem.C.; 2008; 112(8); 3126-3133

8.Shuhui Liang, Fei Teng, G.Bulgan, Ruilong Zong and Yongfa Zhu, Effect of Phase Structure of MnO2 Nanorod Catalyst on the Activity for CO Oxidation,J.Phys. Chem.C 2008, 112, 5307-5315

9.Fei Teng, Yi Man, Shuhui Liang, Buergen Gaugue, Yongfa Zhu, Wei Han, Zheming Wang, Ping Xu,Guoxing Xiong, Zhijian Tian,Effect of the morphology on thermal stability of the Ba-Ce-Mn-Al-O oxides synthesized in a reverse microemulsion,Journal of Alloys and C

10.Fei Teng, Wei Qu, Guodong Wen, Zheming Wang, Zhijian Tian, Xiaomei Yang, Ping Xu, Yongfa Zhu, Guoxing Xiong, Effect of the flowing gases of steam and CO2 on the texture and catalytic activity for methane combustion of MgO powders, Microporous and Mesopor

11.Fei Teng, Tongguang Xu, Shuhui Liang, Gauloo Buergen, Wenqing Yao, Yongfa Zhu, Synthesis of hollow Mn3O4-in-Co3O4 magnetic microspheres and its chemiluminescence and catalytic properties,Catalysis Communications, Volume 9, Issue 6, 31 March 2008, Pages 11

12.FEI TENG, Li Wang, Yongfa Zhu, Controllable hiberarchy Nanostructures with Mesopores by a Facile “Framework-Template in situ” Process; Colloid and Surface A. 312 (2008) 39–46

13.Hongbo Fu, Shicheng Zhang, Liwu Zhang, Yongfa Zhu, Visible–light–driven NaTaO3−xNx catalyst prepared by a hydrothermal process. Mater. Res. Bull. Materials Research Bulletin 43 (2008) 864–872

14.Shengbao Zhu, Hongbo Fu, Shicheng Zhang, Liwu Zhang, Yongfa Zhu, Two-step synthesis of a novel visible-light (≤ 600 nm)–driven NaTaO3-xNx catalyst for the pollutants decomposition. J. Photochem. Photobio. A ,2008, 193: 33–41

15.Xu Zhao., Zongwei Li., Yi Chen., Yongfa Zhu, Enhancement of photocatalytic degradation of polyethylene plastic with CuPc modified TiO2 photocatalyst under solar light irradiation. Applied Surface Science,254 (2008) 1825–1829

16.Fei Teng, Tongguang Xu, Youfei Zheng, Shuhui Liang, Bulgen Gochoo, Xiaohua Gu, Ruilong Zong, Wenqing Yao, Yongfa Zhu, Formation of hollow NiO single crystals and Ag/NiO flowers, Materials Research Bulletin, 43(2008)3562-3569

17.Hongbo Fu, Wenqing Yao, Yongfa Zhu, The enhanced photoactivity of nanosized Bi2WO6 for the photodegradation of 4–CP. Mater. Res. Bull. 43(2008) 2617-2625

18.Fei Teng, Wenqing Yao, Youfei Zheng, Yutao Ma, Yang Teng, Tongguang Xu, Shuhui Liang, Yongfa Zhu, Synthesis of flower-like CuO nanostructures as a sensitive sensor for catalysis,Sensors and Actuators B: Chemical, Volume 134, Issue 2, 25 September 2008, Pa

19.Fei Teng, Wenqing Yao, Youfei Zheng, Yutao Ma, Tongguang Xu, Guizhi Gao, Shuhui Liang, Yang Teng, Yongfa Zhu, Facile synthesis of hollow Co3O4 microspheres and its use as a rapid responsive CL sensor of combustible gases, Talanta, Volume 76, Issue 5, 15 S

20.Fei Teng,Wenqing Yao, Youfei Zheng, Yutao Ma, Tongguang Xu, Guizhi Gao,Shuhui Liang, Yang Teng, Yongfa Zhu,Facile synthesis of hollow Co3O4 microspheres and its use as a rapid responsive CL sensor of combustible gases,Talanta, 76 (2008) 1058–1064

21.BULGAN G.,ZONG Rui Long, LIANG Shu Hui, YAO Wen Qing, ZHU Yong Fa, CO Cataluminescence Property of Platinum Supported Composite Oxide Catalysts,Acta Phys. Chim. Sin., 2008, 24(9):1547-September 1552

22.BULGAN G.,LIANG Shu Hui, TENG Fei, YAO Wen Qing, ZHU Yong Fa*,Effect of Ce Doping on the Structure and Catalytic Activity of La1-xCexCoO3 Catalysts, Acta Phys. Chim. Sin., 2008, 24(2):205-February 210

23.ZHOU Jun, WU Ke SUN,Yue CONG,JianBo WANG,ChangZhen CHANG,Xiang XIAN,Hong, ZHU,YongFa, A Novel Method for Quantitative Analysis of Total Particulate phase Free Radicals in Mainstream Cigarette Smoke,ACTA CHIMICA SINICA, Vo1.66,2008, No.2,216~ 222

● 2007

1.Liwu Zhang, Li Wang, Yongfa Zhu, Synthesis and Performance of BaAl2O4 with a Wide Spectral Range of Optical Absorption., Adv. Funct. Mater. 2007, 18 3781

2.Zhu, S.; Xu, T.; Fu, H.; Zhao, J.; Zhu, Y.,Synergetic Effect of Bi2WO6 Photocatalyst with C60 and Enhanced Photoactivity under Visible Irradiation , Environ. Sci. Technol. 2007, 41, 6234-6239

3.Huang, G.; Zhu, Y., Enhanced Photocatalytic Activity of ZnWO4 Catalyst via Fluorine Doping, J. Phys. Chem. C.; (Article); 2007; 111(32); 11952-11958

4.Xu Zhao Tongguang Xu Wenqing Yao Chuan Zhang Yongfa Zhu, Photoelectrocatalytic degradation of 4-Chlorophenol at Bi2WO6 nanoflake film electrode under visible light irradiation, Applied Catalysis B, Environmental, 72 (2007) 92–97

5.Jie Lin, Jun Lin, and Yongfa Zhu, Controlled Synthesis of the ZnWO4 Nanostructure and Effects on the Photocatalytic Performance, Inorg. Chem. 2007, 46, 8372-8378

6.Fei Teng, Wei Han, Shuhui Liang, Buergen Gaugeu, Ruilong Zong and Yongfa Zhu, Catalytic behavior of hydrothermally synthesized La0.5Sr0.5MnO3 single-crystal cubes in the oxidation of CO and CH4,Journal of Catalysis, Volume 250, Issue 1, 15 August 2007, Pa

7.Teng, F.; Liang, S.; Gauge, B.; Zhu, Y., Syntheses of La1-xBaxMn2Al10O19 Catalysts (x = 0, 0.05) in a Novel Microemulsion of Water/2-Propanol/1-Butanol and Their High Activities in Methane Combustion, J. Phys. Chem. C.; (Article); 2007; 111(29); 10941-109

8.Shuhui Liang, Fei Teng, G. Bulgan, and Yongfa Zhu, Effect of Jahn-Teller Distortion in La0.5Sr0.5MnO3 Cubes and Nanoparticles on the Catalytic Oxidation of CO and CH4., J. Phys. Chem. C 2007, 111, 16742

9.Haipeng Yang and Yongfa Zhu, Glucose biosensor based on nano-SiO2 and “unprotected” Pt nanoclusters, Biosensors and Bioelectronics, Volume 22, Issue 12, 15 June 2007, Pages 2989-2993

10.Jun Zhou, Ruoshi Bai and Yongfa Zhu, Determination of four tobacco-specific nitrosamines in mainstream cigarette smoke by gas chromatography/ion trap mass spectrometry,Rapid Commun. Mass Spectrom. 2007; 21: 4086–4092

11.Guangli Huang, Chuan Zhang, Yongfa Zhu, ZnWO4 photocatalyst with high activity for degradation of organic contaminants,Journal of Alloys and Compounds 432 (2007) 269–276

12.Xu Zhao, Yan Wu, Wenqing Yao, Yongfa Zhu, Photoelectrochemical properties of thin Bi2WO6 films,Thin Solid Films 515 (2007) 4753–4757

13.Hongbo Fu, Chengsi Pan, Liwu Zhang, Yongfa Zhu, Synthesis, characterization and photocatalytic properties of nanosized Bi2WO6, PbWO4 and ZnWO4 catalysts, Materials Research Bulletin 42 (2007) 696–706

14.Zhang Shicheng*, Yao Wenqing,Zhu Yongfa, Shi Liyi, Preparation and Photoelectrochemical Preoperties of Bi2WO6 Films with Visible Light Response, Acta Physico-Chimica Sinica, 23(1):111-115,2007

15.Fei Teng, Bulgen Gaugeu, Shuhui Liang and Yongfa Zhu, Preparation of LaSrCuO4 nanowires by carbon nanotubes and their catalytic and chemiluminescence properties for CO oxidation,Applied Catalysis A: General, Volume 328, Issue 2, 10 September 2007, Pages 1

16.Fei Teng, Yi Man, Buergen Gaugeu, Ruilong Zong, Wenqing Yao, Yongfa Zhu, Crystal Structure Stability and Catalytic Activity of Magnetoplumbite (MP) Catalyst doped with Mn and Mg., Journal of Non-Crystalline Solids 2007, 353, 4806

17.Xu Zhao, Manhong Liu and Yongfa Zhu, Fabrication of porous TiO2 film via hydrothermal method and its photocatalytic performances,Thin Solid Films, Volume 515, Issue 18, 25 June 2007, Pages 7127-7134

18.Guangli Huang and Yongfa Zhu, Synthesis and photocatalytic performance of ZnWO4 catalyst,Materials Science and Engineering: B, Volume 139, Issues 2-3, 15 May 2007, Pages 201-208

19.Yan Wu, Wenqing Yao and Yongfa Zhu, Interfacial Structure of Ta2O5/Si Film and Photoactivity,Acta Physico-Chimica Sinica, Volume 23, Issue 5, May 2007, Pages 625-629

20.Xu Zhao, Zongwei Li, Yi Chen, Liyi Shi and Yongfa Zhu, Solid-phase photocatalytic degradation of polyethylene plastic under UV and solar light irradiation, Journal of Molecular Catalysis A: Chemical, Volume 268, Issues 1-2, 1 May 2007, Pages 101-106

21.Xu Zhao, Zongwei Li, Yi Chen, Liyi Shi and Yongfa Zhu, Solid-phase photocatalytic degradation of polyethylene plastic under UV and solar light irradiation, Journal of Molecular Catalysis A: Chemical, Volume 268, Issues 1-2, 1 May 2007, Pages 101-106

22.Xu Zhao, Zongwei Li, Yi Chen, Liyi Shi and Yongfa Zhu, Solid-phase photocatalytic degradation of polyethylene plastic under UV and solar light irradiation, Journal of Molecular Catalysis A: Chemical, Volume 268, Issues 1-2, 1 May 2007, Pages 101-106

23.F. Teng, S. Liang, B. Gaugeu, R. Zong, W. Yao, Y. Zhu, Carbon Nanotubes-Templated Assembly of LaCoO3 Nanowires at Low Temperatures and Its Excellent Catalytic Properties for CO oxidation, Catalysis Communications 8 (2007) 1748–1754

24.Bulgan.G, Teng Fei, Liang shuhui,Yao Wenqing, Zhu Yongfa, Effect of Cu Doping on the Structure and Catalytic Activity of LaMnO3 Catalyst, Acta Physico-Chimica Sinica, 2007, 23(9), 1387

25.Yi Man, Ruilong Zong, Yongfa Zhu,Preparation and Photoelectrochemical Properties of Bi2MoO6 Films., Acta Phys. -Chim. Sin., 2007, 23(11): 1671-1676

26.Wu Y, Zhang SC, Zhang LW, Zhu YF, Photocatalytic activity of nanosized ZnWO4 prepared by the sol-gel method., CHEMICAL RESEARCH IN CHINESE UNIVERSITIES 2007, 23 (4), 465

27.ZHOU Jun , WU Ke , SUN Yue , CONG J ian Bo , WANG ChangZhen ,CHANG Xiang , XIAN Hong , ZHU YongFa,Development of a Quantitative Method for Analyzing Gas phase Free Radicals in Mainstream Cigarette Smoke,CHEM ICAL JOURNAL OF CH INESE UN IVERSITIES, 2007, 2

● 2006

1.Xu TG, Zhang C, Shao X, Wu K, Zhu YF, Monomolecular-layer Ba5Ta4O15 nanosheets: Synthesis and investigation of photocatalytic properties, ADVANCED FUNCTIONAL MATERIALS 16 (12): 1599-1607 AUG 4 2006

2.Zhao X, Zhu YF, Synergetic degradation of rhodamine B at a porous ZnWO4 film electrode by combined electro-oxidation and photocatalysis, ENVIRONMENTAL SCIENCE & TECHNOLOGY 40 (10): 3367-3372 MAY 15 2006

3.Fu HB, Zhang LW, Zhang SC, Zhu YF, Zhao JC, Electron spin resonance spin-trapping detection of radical intermediates in N-doped TiO2-assisted photodegradation of 4-chlorophenol, JOURNAL OF PHYSICAL CHEMISTRY B 110 (7): 3061-3065 FEB 23 2006

4.Xu Tongguang, Zhao Xu, Zhu Yongfa, Synthesis of Hexagonal BaTa2O6 Nanorods and Influence of Defects on the Photocatalytic Activity, Journal of Physical Chemistry B, 110, 25825-25832, 2006

5.Fu HB, Zhang LW, Yao WQ, Zhu YF, Photocatalytic properties of nanosized Bi2WO6 catalysts synthesized via a hydrothermal process, APPLIED CATALYSIS B-ENVIRONMENTAL 66 (1-2): 100-110 JUN 20 2006

6.Fu HB, Lin J, Zhang LW, Zhu YF, Photocatalytic activities of a novel ZnWO4 catalyst prepared by a hydrothermal process, APPLIED CATALYSIS A-GENERAL 306: 58-67 JUN 7 2006

7.Zhao X, Yao WQ, Wu Y, Zhang SC, Yang HP, Zhu YF, Fabrication and photoelectrochemical properties of porous ZnWO4 film, JOURNAL OF SOLID STATE CHEMISTRY 179 (8): 2562-2570 AUG 2006

8.Zhang LW, Fu HB, Zhang C, Zhu YF, Synthesis, characterization, and photocatalytic properties of InVO4 nanoparticles, JOURNAL OF SOLID STATE CHEMISTRY 179 (3): 804-811 MAR 2006

9.Zhang SC, Zhang C, Yang HP, Zhu YF, Formation and performances of porous InVO4 films, JOURNAL OF SOLID STATE CHEMISTRY 179 (3): 873-882 MAR 2006

10.Zhang SC, Zhang CA, Man Y, Zhu YF, Visible-light-driven photocatalyst of Bi2WO6 nanoparticles prepared via amorphous complex precursor and photocatalytic properties, JOURNAL OF SOLID STATE CHEMISTRY 179 (1): 62-69 JAN 2006

11.Yao WQ, Yang HP, Chang Y, Zhu YF, Preparation and conducting performance of LaNiO3/Ag film and its interface reaction, APPLIED SURFACE SCIENCE 252 (20): 7461-7468 AUG 15 2006

12.Yang HP, Zhu YF, Size dependence of SiO2 particles enhanced glucose biosensor, TALANTA 68 (3): 569-574 JAN 15 2006

● 2005

1.Zhang C, Zhu YF, Synthesis of square Bi2WO6 nanoplates as high-activity visible-light-driven photocatalysts,CHEMISTRY OF MATERIALS 17 (13): 3537-3545 JUN 28 2005

2.Fu HB, Pan CS, Yao WQ, Zhu YF, Visible-light-induced degradation of rhodamine B by nanosized Bi2WO6, JOURNAL OF PHYSICAL CHEMISTRY B 109 (47): 22432-22439 DEC 1 2005

3.Li Wang and Yongfa Zhu, Effects of Nanostructure on Catalytic Degradation of Ethanol on SrCO3 Catalysts,J. Phys. Chem. B 2005, 109, 5118-5123

4.Ruiqin Tan, Yongfa Zhu, Poisoning mechanism of perovskite LaCoO3 catalyst by organophosphorous gas,Applied Catalysis B: Environmental 58 (2005) 61–68

5.Yongfa Zhu, Fang Yu, Yi Man, Qingyong Tian, Yu He, Nianzu Wu,Preparation and performances of nanosized Ta2O5 powder photocatalyst,Journal of Solid State Chemistry 178 (2005) 224–229

6.Yongfa Zhu, Hai Wang, Peng Liu, Wenqing Yao, Lili Cao,Preparation and conducting performance of LaNiO3 thin film on Si substrate,Thin Solid Films 471 (2005) 48– 52

7.Yang HP, Zhu YF, A high performance glucose biosensor enhanced via nanosized SiO2,ANALYTICA CHIMICA ACTA 554 (1-2): 92-97 DEC 4 2005

8.L. Lin , W. Lin, Y.X. Zhu, B.Y. Zhao, Y.C. Xie, Y. He, Y.F. Zhu, Uniform carbon-covered titania and its photocatalytic property,Journal of Molecular Catalysis A: Chemical 236 (2005) 46–53

9.Zhang JP, Sun ZM, Shi LY, Zhu YF,Preparation of TiO2 film on stainless steel webnet and the degradation of formaldehyde,JOURNAL OF INORGANIC MATERIALS 20 (5): 1243-1249 SEP 2005

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