研究内容
1、高效储能材料
1)高比能量、比功率储能体系及其技术;
2)薄膜及 微纳电池及其材料;
3)高性贮氢材料及其贮氢技术;
4)新型电化学储能体系及其材料;
PSU(聚砜)英文名称:Polysulfone为琥珀透明固体材料,硬度和冲击强度高,无毒、耐热耐寒性耐老化性好,耐无机酸碱盐的腐蚀,但不耐芳香烃和卤化烃。聚芳砜硬度高,耐辐射,耐热和耐寒性好 并具有自熄性,可在-100-175度下长期使用。
1:通过玻璃纤维增强改性可以使材料的耐磨性大幅度提高。
2:可将聚砜与ABS、聚酰亚氨、聚醚醚酮和氟塑料等制成聚砜的改性产品,主要是提高其冲击强度和伸长率、耐溶剂性、耐环境性能、加工性能和可电镀性。如PSF/PBT,PSF/ABS,PSF 矿物粉。
3:成型性能 1.无定形料,吸湿大,吸水率0.2%-0.4%,使用前须充分干燥,并防止再吸湿。保证含水量在0.1%以下。
2、化石能源新技术
1)烯烃产物或芳烃产物的选择性生成与催化剂结构和表面性能的规律研究;
2)发展新型介孔和微介孔分子筛材料,研究其形貌、孔结构等因素对反应性能和寿命的影响;
3)针对MTO、MTP、MTG、MTA等反应,研究其反应特征规律。
Research content
1. Efficient energy storage materials
1) High specific energy and specific power energy storage system and its technology;
2) Thin film, micro-nano battery and its materials;
3) High performance hydrogen storage materials and hydrogen storage technology;
4) New electrochemical energy storage system and its materials;
2. New technologies of fossil energy
1) Study on the relationship between the selective formation of olefin products or aromatic products and the structure and surface properties of catalysts;
2) Develop new mesoporous and micro mesoporous molecular sieve materials, and study the effects of their morphology, pore structure and other factors on the reaction performance and life;
3) The reaction characteristics of MTO, MTP, MTG and MTA were studied.