NEWS-2022
2022/12/27 張勝雄老師獲得中原大學111學年度研究優良貢獻教師獎勵
2022/10/31 "Stable and efficient soft perovskite crystalline film based solar cells prepared with a facile encapsulation method" was accepted by Nanoscale.
2022/10/26 恭喜專題生黃羿竣獲得專題論文競賽優勝獎
2022/10/25 張勝雄教授入列於2021年「全球前2%頂尖科學家榜單(World’s Top 2% Scientists)」 。
2022/09/29 "Improving the photovoltaic performance of inverted perovskite solar cells via manipulating the molecular packing structure of PCBM" was accepted by Nanotechnology.
Absorbance and PL spectra of PCBM solutions. PCBM molecules are dissolved in CB:BrB mixtures.
2022/09/13 "Power loss reduction of angled metallic wedge plasmonic waveguides via the interplay between near-field optical coupling and modal coupling" was accepted by Photonics.
2022/09/22 歡迎王妤瑄加入ODSOS Lab~
2022/07/21 "Conformal loading effects of P3CT-Na polymers on the performance of inverted perovskite solar cells " was accepted by Processes.
2022/07/01 恭喜張迪莎通過博士論文口試
2022/06/24 張勝雄老師獲得110年度教學優良
2022/06/20 Professor Chang was invited as an Editorial Board Member of Processes (2021 IF: 3.352).
2022/06/12 張勝雄老師通過升等申請
2022/05/30 "Improving device performance of MAPbI3 photovoltaic cells by manipulating the crystal orientation of tetragonal perovskites " was accepted by Nanotechnology.
2022/04/30 "Improved performance of PCBM/MAPbI3 heterojunction photovoltaic cells with the treatment of a saturated BCP/IPA solution" was accepted by Solar Energy Materials and Solar Cells.
A saturated BCP/IPA solution (0.089-wt%) is used to modify the PCBM electron transport layer (ETL), which results in a better water-resistant ability and thereby increasing the device lifespan. The time-dependent water-droplet contact angle shows a better water-resistant ability when the PCBM thin film is treated with a saturated BCP/IPA solution.
2022/02/26 歡迎 林景皓、黃羿竣 、劉宗昕 加入實驗室~
2022/02/17 "Understanding the PEDOT:PSS, PTAA and P3CT-X hole-transport-layer-based inverted perovskite solar cells" was accepted by Polymers.
2022/01/30 Professor Chang was invited as an Associate Editor of Frontiers in Photonics: Photovoltaic Materials and Devices. https://www.frontiersin.org/journals/photonics/sections/photovoltaic-materials-and-devices
2022/01/24 "Regioregularity effects of p-type P3CT-Na polymers on inverted perovskite photovoltaic cells" was accepted by Organic Electronics.
The regioregularity (RR) of P3CT-Na polymer, which is used as the hole transport layer, influences the formation of CH3NH3PbI3 (MAPbI3) crystalline thin films. The higher regioregularity P3CT-Na (RR = 91%) results in the formation of merged MAPbI3 grains, reducing the carrier recombination from the defects at grain boundaries and thereby increasing the open-circuit voltage (Voc), short-circuit current density (Jsc) and fill factor (FF) simultaneously.
2022/1/17 恭喜4+1.5碩士生劉世堯通過碩士論文口試!