学术论文 |
(1)gao, y., liu, y., zhang, f., bao, x., xu, z., bai, x., lu, m., wu, y., wu, z., zhang, y., wang, q., gao, x., wang, y., shi, z., hu, j., yu, w., zhang, y*.high-performance perovskite light-emitting diodes enabled by passivating defect and constructing dual energy-transfer pathway through functional perovskite nanocrystals, advanced materials, (2022) 34(43), 2207445. (sci一区) (2)gao, y., wu, y., lu, h., chen, c., liu, y., bai, x., yang l., yu, w., dai, q.*, zhang, y.* cspbbr3 perovskite nanoparticles as additive for environmentally stable perovskite solar cells with 20.46% efficiency. nano energy, (2019) 59, 517-526. (sci一区) (3)zhang, f., gao, y.*, lu, p., zhong, liu, y., bao, x., xu, z., lu, m., wu, y., chen, p., hu, j., zhang, y., wu, z., song, h.*, bai, x.* engineering of hole transporting interface by incorporating the atomic-precision ag6 nanoclusters for high-efficiency blue perovskite light-emitting diodes. nano letters, (2023) 23(4), 1582-1590. (sci一区) (4)zhang, f., yang, y., gao, y.*, wang, d., dong, w., lu, p., wang, x., lu, m., wu, y., chen, p., hu, j., yang, x., zhou, d., liu, d., xu, l., dong, b., wu, z. *, zhang, y. *, song, h.*, bai, x. *high-performance blue perovskite light-emitting diodes enabled by synergistic effect of additives. nano letters, (2024) 24(4), 1268-1276. (sci一区) (5)bao, x., gao, y.*, liu, y., xu, z., zhang, f., lu, m., wu, z., wu, y., wang, q., zhang, y.*, wang, y., shi, z., hu, j., bai, x.* molecular bridging strategy enables high performance and stable quasi-2d perovskite light-emitting devices. acs energy letters, (2023) 8(2), 1018-1025. (sci一区) (6)liu, y., gao, y.*, bao, x., zhang, f., xu, z., hu, j., shi, z., lu, m., wu, z., zhang, y., wang, d.*, yu, w., bai, x.* magnetic field-assisted interface embedding strategy to construct 2d/3d composite structure for stable perovskite solar cells with efficiency over 24%. small, (2023), 2302337. (sci一区) (7)liu, y., gao, y.*, lu, m., shi, z., yu, w.w., hu, j., bai, x.*, zhang, y.* ionic additive engineering for stable planar perovskite solar cells with efficiency >22%. , 2021, 426, 130841. (sci一区) (8)liu, y., gao, y.*, li, t., bao, x., xu, z., zhang, f., lu, m., wu, z., wu, y., sun, g., bai, x.*, shi, z., hu, j., zhang, y.* simultaneous bottom-up double-layer synergistic engineering by multifunctional natural molecules for efficient and stable sno2-based planar perovskite solar cells. journal of energy chemistry, (2023) 80, 40-47. (sci一区) (9)zhang, f., gao, y.*,wang, d., lu, p., wang, x., lu, m., wu, y., chen, p., hu, j., bai, x. wu, z., zhou, d., liu, d., xu, l., dong, b., song, h.*, zhang, y.* phase distribution management for high-efficiency and bright blue perovskite light-emitting diodes. nano energy,. (sci一区) (10)xu, z., feng, t., gao, y.*, zhang, f., wu, y., xu, l., zhou, d., liu, d., dong, b., bai, x., shi, z., hu, j., li, t., yan, f.*, song, h.*, zhang, y.* engineering of molecular bridge on buried interface via ferrocene carboxylic acid for high performance perovskite light-emitting devices. laser&photonics reviews. doi: (sci一区) (11)gao, y., wu, y., liu, y., lu, m., yang, l., wang, y., yu, w., bai, x.*, zhang, y.*, dai, q.* interface and grain boundary passivation for efficient and stable perovskite solar cells: the effect of terminal groups in hydrophobic fused benzothiadiazole-based organic semiconductors. nanoscale horizons, (2020) 5(12), 1574-1585. (sci一区) (12)gao, y., wu, y., liu, y., chen, c., bai, x., yang, l., shi, z.,yu, w., dai, q.*, zhang, y.* dual functions of crystallization control and defect passivation enabled by an ionic compensation strategy for stable and high- efficient perovskite solar cells. acs applied materials&interfaces, (2019)12(3),3631-3641. (sci一区) (13)gao, y., wu, y., liu, y., chen, c., shen, x., bai, x., shi, z., yu, w., dai, q.*, zhang, y.* improved interface charge extraction by double electron transport layers for high-efficient planar perovskite solar cells. solar rrl, (2019) 3(12), 1900314. (sci一区) (14)gao, y., yang, l.*, wang, f., sui, y., sun, y., wei, m., cao, j., liu, h.* anti-solvent surface engineering via diethyl ether to enhance the photovoltaic conversion efficiency of perovskite solar cells to 18.76%. superlattices and microstructures, (2018) 113, 761-768. (sci三区) (15)li, t., gao, y.*, wu, y., lu, m., hu, j., zhang, y.*, wu, z., bai, x. yan, f.* polymer cross-linking strategy enables high performance and high mechanical stability flexible quasi-2d perovskite light-emitting diodes. advanced optical materials, doi:10.1002/adom.202302053 (sci二区) |
