锂离子电池正极材料：

(1) Zhao, TQ; Tan, XH; Song, LT; Guo, LM; Liu, YL; Kang, XH; Meng, XM; Wang, HF*; Chu, WG*; Up-Scalable Conversion of White-Waste Polystyrene Foams to Sulfur, Phosphorus-Codoped Porous Carbon for High-Performance Lithium-Sulfur Batteries, ACS Applied Energy Materials, 2020, 3(9): 9369-9378.

(2) Tan, XH; Guo, LM; Liu, SN; Wu, JX; Zhao, TQ; Ren, JC; Liu, YL; Kang, XH; Wang, HF*; Sun, LF*; Chu, WG*; A General One-Pot Synthesis Strategy of 3D Porous Hierarchical Networks Crosslinked by Monolayered Nanoparticles Interconnected Nanoplates for Lithium Ion Batteries, Advanced Functional Materials, 2019, 29(34): 1903003.

(3) Liu, SN; Zhao, TQ; Tan, XH; Guo, LM; Wu, JX; Kang, XH; Wang, HF*; Sun, LF*; Chu, WG*; 3D Pomegranate-Like Structures of Porous Carbon Microspheres Self-Assembled by Hollow Thin-Walled Highly-Graphitized Nanoballs as Sulfur Immobilizers for Li-S Batteries, Nano Energy, 2019, 63: 103894.

(4) Jiang, Y; Deng, YP; Fu, J; Lee, DU; Liang, RL; Cano, ZP ; Liu, YS; Bai, ZY*; Hwang, S ; Yang, L; Su, D; Chu, WG*; Chen, ZW*; Interpenetrating Triphase Cobalt-Based Nanocomposites as Efficient Bifunctional Oxygen Electrocatalysts for Long-Lasting Rechargeable Zn-Air Batteries, Advanced Energy Materials, 2018, 8(15): 1702900.

(5) Zhang, J; Li, JY; Wang, WP; Zhang, XH; Tan, XH; Chu, WG*; Guo, YG*; Microemulsion Assisted Assembly of 3D Porous S/Graphene@g-C₃N₄ Hybrid Sponge as Free-Standing Cathodes for High Energy Density Li-S Batteries, Advanced Energy Materials, 2018, 8(14): 1702839.

光学超表面等光学器件：

(1) Zhang, Q; Dong, FL; Li, HX; Wang, ZX; Liang, GF; Zhang, ZH; Wen, ZQ; Shang, ZG; Chen, G*; Dai, LR*; Chu, WG*; High-Numerical-Aperture Dielectric Metalens for Super-Resolution Focusing of Oblique Incident Light, Advanced Optical Materials, 2020, 8(9): 1901885.

(2) Dong, FL; Feng, H; Xu, LH; Wang, B; Song, ZW; Zhang, XF; Yan, LQ; Li, XJ; Tian, Y; Wang, WT; Sun, LF* Li, Y*; Chu, WG*; Information Encoding with Optical Dielectric Metasurface via Independent Multichannels, ACS Photonics, 2019, 6(1): 230-237.

(3) Dong, FL; Chu, WG*; Multichannel-Independent Information Encoding with Optical Metasurfaces, Advanced Materials, 2019, 31(45): 1804921.

(4) Zang, XF; Dong, FL; Yue, FY; Zhang, CM; Xu, LH; Song, ZW; Chen, M; Chen, PY; Buller, GS; Zhu, YM; Zhuang, SL; Chu, WG*; Zhang, S* ; Chen, XZ*; Polarization Encoded Color Image Embedded in a Dielectric Metasurface, Advanced Materials, 2018, 30(21): 1707499.

(5) Wang, B; Dong, FL; Li, QT; Yang, D; Sun, CW; Chen, JJ; Song, ZW; Xu, LH; Chu, WG*; Xiao, YF; Gong, QH; Li, Y*; Visible-Frequency Dielectric Metasurfaces for Multiwavelength Achromatic and Highly Dispersive Holograms, Nano Letters, 2016, 16(8): 5235-5240.

纳米传感器件：

(1) Adamu, BI; Falak, A; Tian, Y; Tan, XH; Meng, XM; Chen, PP*; Wang, HF*; Chu, WG*; p-p Heterojunction Sensors of p-Cu₃Mo₂O₉ Micro/Nanorods Vertically Grown on p-CuO Layers for Room-Temperature Ultrasensitive and Fast Recoverable Detection of NO₂, ACS Applied Materials & Interfaces, 2020, 12(7): 8411-8421.

(2) Falak, A; Tian, Y; Yan, LQ; Xu, LH; Song, ZW; Hu, HF; Dong, FL; Adamu, BI; Zhao, M; Chen, PP*; Wang, HF*; Chu, WG*; Ultrathin MoO_x/Graphene Hybrid Field Effect Transistor Sensors Prepared Simply by a Shadow Mask Approach for Selective ppb-Level NH₃ Sensing with Simultaneous Superior Response and Fast Recovery, Advanced Materials Interfaces, 2020, 7(10): 1902002.

(3) Tian, Y; Wang, HF; Yan, LQ; Zhang, XF; Falak, A; Guo, YJ; Chen, PP*; Dong, FL*; Sun, LF*; Chu, WG*; A Generalized Methodology of Designing 3D SERS Probes with Superior Detection Limit and Uniformity by Maximizing Multiple Coupling Effects, Advanced Science, 2019, 6 (11): 1900177.

(4) Falak, A; Tian, Y; Yan, LQ; Zhao, M; Zhang, XF; Dong, FL; Chen, PP*; Wang, HF*; Chu, WG*; Room Temperature Detection of NO₂ at ppb Level and Full Recovery by Effective Modulation of the Barrier Height for Titanium Oxide/Graphene Schottky Heterojunctions, Advanced Materials Interfaces, 2019, 6(22): 1900992.

(5) Zhao, M; Yan, LQ; Zhang, XF; Xu, LH; Song, ZW; Chen, PP*; Dong, FL*; Chu, WG*; Room Temperature NH₃ Detection of Ti/Graphene Devices Promoted by Visible Light Illumination, Journal of Materials Chemistry C, 2017, 5(5):1113-1120.