Engineering
尹志刚教授等人近期开发出氯化锌掺杂新型柔性聚电解质杂化介电薄膜材料,并用于设计和制造多级非易失性低电压柔性有机场效应晶体管存储器。这一创新研究成果,展示了新型柔性聚电解质杂化介电材料及其低功耗OFET存储器在信息感知、存储与计算领域的诱人应用潜力。通过调节栅极电压,成功调控新型聚电解质杂化介电薄膜中的离子迁移能力,从而赋予柔性OFET存储器出色的存储能力。
Xplore的范围和质量要求的前提下,所有被录用和宣读的论文将被收录进IEEE Xplore。出版后将文章提交给Engineering Village、Scopus、Web of Science等
/ 共 SAMs 薄膜的制备示意图。论文信息论文标题:Buried Interface Engineering: a Key to Unlocking the Potential of Self
Engineering bonding sites enables uniform and robust self-assembled monolayer for stable perovskite
开发高效 OSC 提供了一种有效的方法。该论文近期以“Hybrid Cathode Interlayer Engineering
Enables over 20% Efficiency
Engineering Enables over 20% Efficiency of Organic Solar
Cells. Angewandte Chemie International Edition, (2025).DOI: 10.1002/anie.202507294
of Science and Technology
(KAUST), Physical Sciences and Engineering Division (PSE), Material Science
and
Engineering Program (MSE), Thuwal 23955-6900, Kingdom of Saudi
Arabia邮箱
photovoltaics: From lab to fab,Materials Science and Engineering: R: Reports, Volume 166,2025,101023
eV),但在室温下会从光活性的黑色α相转变为非光活性的黄色δ相。稳定α相的三大策略:组分工程(Compositional Engineering):混合不同阳离子(如Cs⁺, MA⁺,
FA⁺)或
阴离子(如Br⁻,I⁻),调节容忍因子(Tolerance Factor),降低形成能,稳定α相溶剂工程(Solvent Engineering):利用路易斯酸碱配合物(如DMSO-PbI₂)形成中间相
《Angewandte Chemie Internati》发文“Synergistic Dual-Interface Engineering in Perovskite Solar Cellsvia
近日,禾迈在杭州总部与匈牙利新能源企业GNX Engineering Kft(以下简称“GNX”)正式签署独家战略合作协议。GNX首席执行官Daniel Racsek、技术总监Roland
