目前，根据团队凝练的总体研究目标和方向，我们研究小组专门从事农产品污染物绿色阻控与消减理论和技术的研究，目前研究小组有新引进华中科技大学和华中农业大学优秀博士2名，均入选了油料所特聘五级副研岗位，在读博士研究生2名，硕士研究生5名。

     主持“十四五”国家重点研发计划课题、国家自然科学基金（3项）、湖北省杰青等国家省部级项目9项。

1.国家自然科学基金委员会，面上项目，31871900，可见光响应铁酸镍复合材料催化降解黄曲霉毒素毒性位点机理研究，2019.01-2022.12，60万元，在研，主持

2.中国农业科学院，公益性科研院所基本科研业务费“所杰出青年人才培养计划”，1610172018003，食用油中黄曲霉毒素光降解绿色消减技术研究，2018.01-2020.12，45万元，已结题，主持

3.农业农村部，国家农产品质量安全风险评估重大专项子课题，GJFP2016001007，粮油作物拟新设定农药残留限量科学性验证评估，2016.01-2016.12，40万元，已结题，主持

4.国家自然科学基金委员会，青年项目，31401601，食用植物油中黄曲霉毒素可见光催化降解材料的设计、合成及性能研究，2015.01-2017.12，25万元，已结题，主持

5.国家自然科学基金委员会，应急管理项目，31540048，基于免疫石墨烯的黄曲霉毒素超灵敏检测方法研究，2016.01-2016.12，18万元，已结题，参与

[1] D. Sun, J. Mao*, L. Cheng, X.L. Yang, H. Li, L.X. Zhang, W. Zhang, Q. Zhang*, P.W. Li*, Magnetic g-C3N4/NiFe2O4 composite with enhanced activity on photocatalytic disinfection of Aspergillus flavus, Chem. Eng. J. 418 (2021) 129417.  IF：13.273

[2] D. Wu, S.M. Yu, H.S. Liang, Mohamed Eid, B. Li, J. Li*, J. Mao*, An innovative konjac glucomannan/κ-carrageenan mixed tensile gel, J Sci Food Agric, (2021)  IF：3.638

[3] D. Sun, J. Mao*, Z.J. Wang, H. Li, L.X. Zhang,W. Zhang, Q. Zhang, P.W. Li, Inhibition of Aspergillus flavus growth andaflatoxins production on peanuts over α-Fe2O3 nanorodsunder sunlight irradiation, Int J Food Microbiol, 353 (2021) 109296.  IF：5.277

[4] Y.F. Wu, J. Mao*, C.W. Ao, D.Sun, X.R. Wang, Q. Hu, X.Z. Du, F. Sheng*, Facile preparation of wormlikegraphitic carbon nitride for photocatalytic degradation of ustiloxin A,Nanomaterials, 10 (2020) 2256.  IF：5.076

[5] J.Mao, P.W. Li*, J.M, Wang, H.T. Wang, Q. Zhang, L.X. Zhang. H. Li, W. Zhang,T.Y. Peng*, Insights into photocatalytic inactivation mechanism of thehypertoxic site in aflatoxin B1 over clew-like WO3 decorated with CdSnanoparticles, Applied Catalysis B: Environmental 248 (2019) 477–486.  IF：19.503

[6] J.Mao, L.Q. Ye, K. Li, X.H. Zhang, J.Y. Liu, T.Y. Peng*, L. Zan*, Pt-loadingreverses the photocatalytic activity order of anatase TiO2 {001} and{010} facets for photoreduction of CO2 to CH4, Appl CatalB-Environ, 144 (2014) 855-862.  IF：19.503

[7] J.Mao, L.X. Zhang*, H.T. Wang, Q. Zhang*, W. Zhang, P.W. Li*, Facile fabricationof nanosized graphitic carbon nitride sheets with efficient charge separation for mitigation of toxicpollutant, Chem. Eng. J. 342 (2018) 30–40. IF：13.273

[8] J.Mao, Q. Zhang, P.W. Li*, L.X. Zhang, W. Zhang, Geometric architecture designof ternary composites based on dispersive WO3 nanowires for enhancedvisible-light-driven activity of refractory pollutant degradation, Chem. Eng.J. 334 (2018) 2568–2578.  IF：13.273

[9] J.Mao, B. He, L.X. Zhang, P.W. Li*, Q. Zhang*, X.X. Ding, W. Zhang, A structureidentification and toxicity assessment of the degradation products of aflatoxinB1 in peanut oil under UV irradiation, Toxins, 8 (2016).  IF：4.546

[10] X.J. Dou#, J. Mao#, L.X. Zhang, H.L.Xie, L. Chen, L. Yu, F. Ma, X.P. Wang, Q. Zhang, P.W. Li, Multispeciesadulteration detection of camellia oil by chemical markers, Molecules, 23(2018). IF：4.411

[11] L.Q. Ye#, J. Mao# T.Y. Peng*, L. Zan*, Y.X. Zhang, Opposite photocatalyticactivity orders of low-index facets of anatase TiO2 for liquid phasedye degradation and gaseous phase CO2 photoreduction, Phys Chem ChemPhys, 16 (2014) 15675-15680.  IF：3.676

[12] J.Mao, T.Y. Peng*, X.H. Zhang, K. Li, L.Q. Ye, L. Zan, Effect of graphiticcarbon nitride microstructures on the activity and selectivity ofphotocatalytic CO2 reduction under visible light, Catal Sci Technol,3 (2013) 1253-1260.  IF：6.119 (连续8年“ESI高被引论文”)

[13] J.Mao, K. Li, T.Y. Peng*, Recent advances in the photocatalytic CO2reduction over semiconductors, Catal Sci Technol, 3 (2013) 2481-2498.  IF：6.119

[14] J.Mao, T.Y. Peng*, X.H. Zhang, K. Li, L. Zan, Selective methanol productionfrom photocatalytic reduction of CO2 on BiVO4 undervisible light irradiation, Catal Commun, 28 (2012) 38-41.  IF：3.626