代表性论文：

铁电材料在能源邻域中的应用（压电催化、热释电催化、电卡制冷、介电储能）

1. H.You, Z.Wu*, L.Zhang, Y.Ying, Y.Liu, L.Fei, X.Chen, Y.Jia*, Y.Wang, F.Wang, S.Ju, J.Qiao, C.-H.Lam and H.Huang*, “Harvesting the Vibration Energy of BiFeO3 Nanosheets for Hydrogen Evolution”, Angew.Chem.Int.Ed. 58, 11779 (2019). Highlighted by X-MOL (http://www.x-mol.com/news/18051) on Jul.14, 2019 and Highlighted by Rational Science (https://mp.weixin.qq.com/s/Bj7yTiQ-TtE8lGrT5jN5ng) on Jul.6, 2019.

2. B.Peng, Q.Zhang*, B.Gang, G.Leighton, C.Shaw, S.Milne, B.Zou, W.Sun, H.Huang* and Z.Wang*, “Phase-Transition Induced Giant Negative Electrocaloric Effect in a Lead-Free Relaxor Ferroelectric Thin Film”, Energy & Environ. Sci. 12, 1708 (2019) Highlighted by Cailiaoniu (http://www.cailiaoniu.com/175226.html) on May 12, 2019.
   

3. H.You, Y.Jia*, Z.Wu*, F.Wang, H.Huang* and Y.Wang, “Room-Temperature Pyro-Catalytic Hydrogen Generation of 2D Few-Layer Black Phosphorene Under Cold-Hot Alternation”, Nature Commun. 9, 2889 (2018) Selected as Editors’ Highlights of recent research on Energy Materials by Adam Weingarten.
   

4. X.Xu, L.Xiao, Y.Jia*, Z.Wu*, F.Wang, Y.Wang, N.O.Haugen and H.Huang*, “Pyro-catalytic Hydrogen Evolution by Ba0.7Sr0.3TiO3 Nanoparticles: Harvesting Cold-Hot Alternation Energy Near Room-Temperature”, Energy & Environ. Sci. 11, 2198 (2018) Highlighted by Royal Society of Chemistry’s magazine Chemistry World.
   

5. B.Peng, Q.Zhang, Y.Lyu, L.Liu, X.Lou, C.Shaw, H.Huang* and Z.Wang*, “Thermal Strain Induced Large Electrocaloric Effect of Relaxor Thin Film on LaNiO3/Pt Composite Electrode with the Coexistence of Nanoscale Antiferroelectric and Ferroelectric Phases in a Broad Temperature Range”, Nano Energy 47, 285 (2018)
   

6. H.Huang*, “Solar Energy: Ferroelectric Photovoltaics”, Nature Photonics 4, 134 (2010)
   

电化学储能与能量转换（可充电电池、超级电容器、电催化）

1. Y.Liu, Y.Ying, L.Fei, Y.Liu, Q.Hu, G.Zhang, S.Y.Pang, W.Lu, C.L.Mak, X.Luo*, L.Zhou*, M.Wei and H.Huang*, “Valence Engineering via Selective Atomic Substitution on Tetrahedral Sites in Spinel Oxide for Highly Enhanced Oxygen Evolution Catalysis”, J.Am.Chem.Soc. 141, 8136 (2019) Selected as Supplementary Cover and Highlighted by Rational Science (https://mp.weixin.qq.com/s/dxjpWVO4jvcCkgmk4s-R9g) on May 1, 2019.

2. X.Li, K.Li, S.Zhu, K.Fan, L.Lyu, H.Yao, Y.Li, J.Hu*, H.Huang*, Y.-W.Mai and J.B.Goodenough, “Fiber-in-Tube Design of Co9S8-carbon/Co9S8 Enables Efficient Sodium Storage”, Angew.Chem.Int.Ed. 58, 6239 (2019) Selected as Very Important Paper (VIP); Highlighted by ChemBeanGo (https://www.chembeango.com/zixun/38990) on Mar.21, 2019.
   

3. Y.Chen, X.Li, K.Park, W.Lu, C.Wang, W.Xue, F.Yang, J.Zhou, L.Suo, T.Lin, H.Huang*, J.Li*, and J.B.Goodenough*, “Nitrogen-Doped Carbon for Sodium-Ion Battery Anode by Self-Etching and Graphitization of Bimetallic MOF-Based Nanocomposite”, Chem 3, 152 (2017) Highlighted by X-MOL (http://www.x-mol.com/news/9547) on Oct.29, 2017, Elsevier on Aug.1, 2017, and Rational Science (https://www.wxwenku.com/d/101605074) on Jul.23, 2017.
   

4. Y.Liu, N.Fu, G.Zhang, M.Xu, W.Lu, L.Zhou and H.Huang*, “Design of Hierarchical Ni-Co@Ni-Co Layered Double Hydroxide Core-Shell Structured Nanotube Array for High-Performance Flexible All-Solid-State Battery-Type Supercapacitors”, Adv.Funct.Mater. 27, 1605307 (2017) Top 10 most accessed article in 01/2017 and Highlighted by X-MOL (http://www.x-mol.com/news/5863) on April.24, 2017. 
   

5. M.Xu, L.Fei, W.Lu, Z.Chen, T.Li, Y.Liu, G.Gao, Y.Lai*, Z.Zhang, P.Wang and H.Huang*, “Engineering Hetero-Epitaxial Nanostructures with Aligned Li-Ion Channels in Li-Rich Layered Oxides for High-Performance Cathode Application”, Nano Energy 35, 271 (2017)
   

6. M.Xu, L.Fei, W.Zhang, T.Li, W.Lu, N.Zhang, Y.Lai*, Z.Zhang, J.Fang, K.Zhang, J.Li and H.Huang*, “Tailoring Anisotropic Li-Ion Transport Tunnels on Orthogonally Arranged Li-Rich Layered Oxide Nanoplates Toward High-Performance Li-Ion Batteries”, Nano Lett. 17, 1670 (2017).
   

太阳能电池（染料敏化太阳能电池、钙钛矿太阳能电池）

1. K.Yao*, H.Zhong, Z.Liu, M.Xiong, S.Leng, J.Zhang, Y.-X.Xu, W.Wang*, L.Zhou, H.Huang* and A.K.-Y.Jen*, “Plasmonic Metal Nanoparticles with Core-bishell Structure for High-Performance Organic and Perovskite Solar Cells”, ACS Nano 13, 5397 (2019)

2. K.Yao*, S.Leng, Z.Liu, L.Fei, Y.Chen, S.Li, N.Zhou, J.Zhang, Y.-X.Xu, L.Zhou, H.Huang* and A.K.-Y.Jen*, “Fullerene-Anchored Core-Shell ZnO Nanoparticles for Efficient and Stable Dual-Sensitized Perovskite Solar Cells”, Joule 3, 417 (2019) Highlighted by Energist (https://nyxr-home.com/20920.html) on Nov.13, 2018.
   

3. C.T.Yip, X.Liu, Y.Hou, W.Xie, J.He, S.Schlücker, D.Lei* and H.Huang*, “Strong Competition Between Electromagnetic Enhancement and Surface-Energy-Transfer Induced Quenching in Plasmonic Dye-Sensitized Solar Cells: A Generic yet Controllable Effect”, Nano Energy 26, 297 (2016) Highlighted by X-MOL (http://www.x-mol.com/news/3219) on Sept.6, 2016.
   

4. J.Lin, M.Guo, C.T.Yip, W.Lu, G.Zhang, X.Liu, L.Zhou, X.Chen* and H.Huang*, “High Temperature Crystallization of Free-Standing Anatase TiO2 Nanotube Membranes for High Efficiency Dye-Sensitized Solar Cells”, Adv.Funct.Mater. 23, 5952 (2013) Highlighted by Materials Views China on Dec.30, 2013 (http://www.materialsviewschina.com/2013/12/efficient-high-crystallinity-dye-titania-nanotube-films-sensitized-solar-cell/)
   

5. M.Guo, K.Xie, J.Lin, Z.Yong, C.T.Yip, L.Zhou, Y.Wang and H.Huang*, “Design and Coupling of Multifunctional TiO2 Nanotube Photonic Crystal to Nanocrystalline Titania Layer as Semi-Transparent Photoanode for Dye-Sensitized Solar Cell”, Energy & Environ. Sci. 5, 9881 (2012)
   

6. C.T.Yip, H.Huang*, L.Zhou*, K.Xie, Y.Wang, T.Feng, J.Li and W.Y.Tam, “Direct and Seamless Coupling of TiO2 Nanotube Photonic Crystal to Dye Sensitized Solar Cell: A Single-Step Approach”, Adv.Mater. 23, 5624 (2011) Frontispiece Article