主持江苏省重点研发计划课题—异质结电池低温导电浆料用银包铜粉的研发 (2022.01-2026.01)
优化能源结构,推进能源科技创新,是重要的发展战略。在可再生能源中,光伏发电优势显著,是实现碳中和,碳达峰目标的希望之光。异质结电池由于其独特的双面对称结构及非晶硅层优秀的钝化效果,具备制作工艺流程短、转换效率高、双面率高、几乎无光致衰减、温度特性良好、可使用薄硅片、可叠加钙钛矿等多种优势,是未来太阳能电池产业发展的重要方向。然而目前异质结电池的发展受限于其高昂的成本,降低成本是异质结电池发展的重要趋势。其中,银浆成本降低至关重要,而兼具银良好导电性和铜价格低廉双重优势的银包铜粉的研究将是异质结电池大规模量产的关键助力。银包铜粉项目的研究,不但可应用于HJT电池,还可以用于其他电子和通讯行业,具有良好的应用前景和产业化意义。
主持龙头企业横向项目—低温导电银浆的制备(2022.01至今)
旨在发展兼具低温烧结能力和良好导电性及印刷性的低温银浆,为多种电子信息领域的柔性基材提供导电解决方案。
主持国家自然科学基金青年基金(2014.1-2016.12)基于偶极矩调控和侧链修饰的新型聚合物材料的设计、制备与光电性能研究
主持江苏省自然科学基金(2013.7-2016.6)聚合物材料分子偶极矩的调控及其光电性能研究
代表性论文:
1) Sun Ying; Zhu Guanqun; Zhao Xuan; KangWeiwei; Li Man; Zhang Xueqin; Yang Hong; Guo Lingxiang; Lin Baoping*;Solution-processable, hypercrosslinked polymer via post-crosslinking forelectrochromic supercapacitor with outstanding electrochemical stability, SolarEnergy Materials & Solar Cells, 2020, 215: 110661
2) Sun Ying; Zhao Xuan; Guanqun Zhu; ManLi; Xueqin Zhang; Hong Yang; Baoping Lin*; Twisted ladder-like donor-acceptorpolymers as electrode materials for flexible electrochromic supercapacitors,Electrochimica Acta, 2020, 333: 135495.
3) Sun, Ying; Yang, Ying; Li, Ning-Bo;Wang, Meng; Chen, Xu-Man; Huang, Shuai; Yang, Hong*; An "invertedload" strategy to fabricate interface-optimized flexible electrodes withsuperior electrochemical performance and ultrastability , Journal of MaterialsChemistry C, 2020, 8(32): 11128-11137.
4) Zhu Guanqun#; Sun Ying#*; Li Man; Tao ChongXin;Zhang Xueqin; Yang Hong; Guo Lingxiang; Lin Baoping*; Ionic crosslinked polymeras protective layer in electrochromic supercapacitors for improvedelectrochemical stability and ion transmission performance , ElectrochimicaActa, 2021, 365: 137373.
5) Ye Tongtong; Sun Ying*; Zhao Xuan; Lin Baoping*; YangHong; Zhang Xueqin; Guo Lingxiang; Long-term-stable, solution-processable,electrochromic carbon nanotubes/polymer composite for smart supercapacitor withwide working potential window , Journal of Materials Chemistry A, 2018, 6(39):18994-19003.
6) Sun Ying,Ding Xiaojing,Zhang Xueqin,Huang Qizan,Lin Baoping*,YangHong, Guo Lingxiang,Indeno[1,2-b]fluorene-basednovel donor–acceptorconjugated copolymers:Electronacceptor engineering and polymer backbone planarization,High Performance Polymers, 2018,30(2): 192-201.
7) Sun Ying,Huang Qizan,Zhang Xueqin,Ding Xiaojing,Han Pei,Lin Baoping*,YangHong,Guo, Lingxiang,Functionalization of side chainterminals with fused aromatic rings in carbazole-diketopyrrolopyrrole basedconjugated polymers for improved charge transport properties,Rsc Advances,2016,6(100):97783~97790.
8) Sun Ying, Zhang Chao, Huang Qizan, Dai Bin,Lin Baoping*, Yang Hong, Zhang Xueqin, Guo Lingxiang and Liu Yurong. SystematicStructure Modification of Low Bandgap Conjugated Polymer Improves Thin Film Morphologyand Photovoltaic Performance by Incorporating Naphthalene in Side Chains, Journalof Materials Chemistry C, 3(29), 2015, 7669—7676.
9) Sun Ying, Zhang Chao, Huang Qizan, Dai Bin,Lin Baoping*, Yang Hong, Zhang Xueqin, Guo Lingxiang and Liu Yurong. Side ChainEngineering and Conjugation Enhancement of Benzodithiophene andPhenanthrenequnioxaline Based Conjugated Polymers For Photovoltaic Devices, Journalof Polymer Science Part A: Polymer Chemistry, 53(16), 2015, 1915–1926.
10) Sun Ying, Chien Shang-Chieh, Yip Hin-Lap,Chen Kung-Shih, Zhang Yong, Davies Joshua A., Chen Fang-Chung, Lin Baoping*,Jen Alex K. Y*. Improved Thin Film Morphology and Bulk-Heterojunction SolarCell Performance through Systematic Tuning of the Surface Energy of ConjugatedPolymers. Journal of Materials Chemistry, 2012, 22(12): 5587-5595.