CAREER: Synthetically Tuned Luminophoric Materials: 3D Displays, Solar Energy Conversion and Beyond

职业：合成调谐发光材料：3D 显示器、太阳能转换及其他

• 批准号: 0949238
• 负责人: Stefan Bernhard
• 金额: $ 28.8万
• 依托单位: Carnegie-Mellon University
• 依托单位国家: 美国
• 项目类别: Continuing Grant
• 财政年份: 2009
• 资助国家: 美国
• 起止时间: 2009-06-30 至 2011-02-28
• 项目状态: 已结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=0949238&HistoricalAwards=false
• 关键词: CAREER; Synthetically; Tuned; Luminophoric; Materials

This CAREER award in the Inorganic, Bioinorganic and Organometallic Chemistry program supports work by Professor Stefan Bernhard at Princeton University to construct luminophoric transition metal based materials. Parallel synthetic techniques and parallel screening techniques for photochemical and electrochemical properties will target photoconversion efficiency and stability of photoactive materials. Rigid cage structures will be utilized to inhibit non-radiative decay processes. Combinatorial techniques will be employed to screen the excited state properties of new coordination based materials for both light emitting diode and solar energy conversion applications. Ionic transition metal luminophores will be investigated for light emitting diode development, chiral metal complexes with mesogenic tails will be employed to generate dissymmetric emission (circularly polarized luminescence). Materials with long lived excited states will be identified and examined for electron transfer quenching with redox mediating reagents to explore photolytic cleavage of water using high throughput analysis of gaseous products. An outreach program at Princeton High School that exposes students to optoelectronics will be extended to additional schools, and visits to elementary schools will be expanded to urban New Jersey sites.Improved organic light emitting diodes have found increasingly sophisticated application in electronic display technologies. Tuning excited state properties of metal centered chromophores in order to modify emission wavelength, charge transport behavior, and absorption profile is central to this project.

无机、生物无机和有机金属化学项目的CAREER奖支持普林斯顿大学Stefan Bernhard教授构建发光过渡金属基材料的工作。光化学和电化学性能的平行合成和平行筛选技术将以光活性材料的光转换效率和稳定性为目标。刚性笼结构将用于抑制非辐射衰变过程。组合技术将用于筛选发光二极管和太阳能转换应用的新型配位基材料的激发态特性。研究了离子过渡金属发光团用于发光二极管的发展，采用带介生尾的手性金属配合物产生不对称发光（圆偏振发光）。具有长寿命激发态的材料将被识别和检测，用氧化还原介质进行电子转移淬火，利用高通量分析气体产物来探索水的光解裂解。普林斯顿高中（Princeton High School）的一个让学生接触光电子学的推广项目将扩展到更多的学校，对小学的访问将扩展到新泽西州的城市地区。改进的有机发光二极管在电子显示技术中得到了越来越复杂的应用。调整金属中心发色团的激发态性质，以改变发射波长、电荷输运行为和吸收分布是本项目的核心。