主要研究方向?yàn)榛�于太陽能轉(zhuǎn)化與利用的能源技術(shù)和環(huán)境凈化技術(shù)。課題組現(xiàn)已在Angew.Chem.Int.Ed., J.Am.Chem.Soc., Adv.Func.Mater.等國(guó)際學(xué)術(shù)期刊上發(fā)表研究論文70余篇。獲得2012江蘇省科學(xué)技術(shù)一等獎(jiǎng)和2014年度國(guó)家自然科學(xué)技術(shù)二等獎(jiǎng)各一項(xiàng)。

承擔(dān)國(guó)家973項(xiàng)目和自然科學(xué)基金等多項(xiàng)科研項(xiàng)目。承擔(dān)研究生課程《材料熱力學(xué)與動(dòng)力學(xué)》，本科生《新能源科學(xué)與技術(shù)》教學(xué)任務(wù)。已畢業(yè)碩士研究生2人，博士研究生2人，目前在讀博士5人，碩士5人。

（1）太陽能的光電轉(zhuǎn)換與利用（基于太空電站的太陽電池）

（2）太陽能的化學(xué)轉(zhuǎn)換與利用（轉(zhuǎn)化太陽能為氫能、轉(zhuǎn)化太陽能為碳基燃料）

（3）基于太陽能利用的環(huán)境凈化技術(shù)（水凈化、空氣凈化）

材料熱力學(xué)與動(dòng)力學(xué)

文章：

[1] S.C.Yan, S.X.Ouyang, J.Gao, M.Yang, J.Y.Feng, X.X.Fan, L.J.Wan, Z.S.Li, J.H.Ye, Y.Zhou, Z.G. Zou. A room-temperature reactive template route to mesoporous ZnGa2O4 with improved photocatalytic activity in reduction of CO2. Angewandte Chemie International Edition. 49, 6400-6404,2010.

[2] S. C. Yan, J. J. Wang, H. L. Gao, N.Y. Wang, H.Yu, Z.S. Li, Y. Zhou, Z.G. Zou. An ion exchange phase transformation to ZnGa2O4 nanocube towards efficient solar fuel synthesis. Advanced Functional Materials.23 (6), 758-763, 2013.

[3] S. C. Yan, J. J. Wang, H. L. Gao, N.Y. Wang, H.Yu, Z.S. Li, Y. Zhou, Z.G. Zou. Zinc gallogermanate solid solution: A novel photocatalyst for efficiently converting CO2 into solar fuels. Advanced Functional Materials. 23, 1839u20131845, 2013.

[4] S.C.Yan, L.J.Wan, Z.S.Li, Y.Zhou, Z.G.Zou. Synthesis of mesoporous single crystal Ga2O3 nanoplatewith improved photoluminescence and high sensitivity in detecting CO. Chemical Communications. 46, 6388-6390,2010.

[5] S.C.Yan, L.J.Wan, Z.S.Li, Z.G.Zou. Facile temperature-controlled synthesis of hexagonal Zn2GeO4 nanorods with different aspect ratios toward improved photocatalytic activity for overall water splitting and photoreduction of CO2. Chemical Communications. 47,5632-5634,2011.

[6] S.C.Yan, H.Yu, N.Y.Wang, Z.S.Li, Z.G. Zou. Efficient conversion of CO2 and H2O into hydrocarbon fuel over ZnAl2O4-modified mesoporous ZnGaNO under visible light irradiation. Chemical Communications. 48, 1048-1050, 2012.

[7] S.C.Yan, Z.Q.Wang, Z.S.Li, Z.G.Zou. Two-step reactive template route to mesoporous ZnGaNO solid solution for improved photocatalytic performance. Journal of Materials Chemistry.21, 5682-5686, 2011.

[8] S.C.Yan, Z.S.Li, Z.G.Zou. Photodegradation of rhodamine B and methyl orange over boron-doped g-C3N4 under visible light irradiation. Langmuir, 2010, 26, 3894-3901.

[9] S.C.Yan, Z.S.Li, Z.G.Zou. Photodegradation performance of g-C3N4 fabricated by directly heating melamine. Langmuir.25, 10397-10401, 2009.

[10] S.C.Yan, S.B.Lv, Z.S.Li, Z.G.Zou. Organic-inorganic composite photocatalyst of g-C3N4 and TaON with improved visible light photocatalytic activities. Dalton transactions. 39,1488-1491, 2010.

[11] S.C. Yan, J.J. Wang, Z.G. Zou. An anion-controlled crystal growth route to Zn2GeO4 nanorod for efficient photocatalytic conversion of CO2 into CH4. Dalton Transactions, 2013, 42 (36), 12975 u2013 12979

[12] Honglin Gao, S.C. Yan, ,Jiajia Wang, Yu An Huang, Peng Wang, Zhaosheng Li and Zhigang Zou.Towards efficient solar hydrogen production by intercalated carbon nitride photocatalyst. Physical Chemistry Chemical Physics.2013,15,18077-18084.

[13] N.Y. Wang, S.C. Yan, Z.G. Zou. Photoreduction of CO2 into hydrocarbons catalysed by ZnGa2O4/Ga2O3 heterojunction. Current Organic Chemistry, 2013, 17, 2454-2458

[14] H.Yu, S.C. Yan, X.M. Wang, X.F. Ren, H.L.Gao,? N.Y. Wang,? Z.S. Li, T. Yu,? Z.G.Zou.? A possible mechanism for solar hydrogen production over Rhodamine B. Science of Advanced Materials,2014,6,189-197.

[15] H.Yu, S. C. Yan, Z.S. Li, T. Yu, Z.G. Zou*. Efficient visible-light-driven photocatalytic H2 production over Cr/N-codoped SrTiO3. International Journal of Hydrogen Energy. 37(17), 12120-12127, 2012.