搜索结果: 1-15 共查到“材料科学 2-D Material”相关记录71条 . 查询时间(0.062 秒)
One-step self-assembly fabrication of three-dimensional copper oxide/graphene oxide aerogel composite material for supercapacitors
Graphene oxide aerogel CuO Supercapacitor Self-assembly
2023/6/21
A cylindrical composite material of three-dimensional copper oxide/graphene oxide aerogel (3DCuO/GOA) has been successfully synthesized as a supercapacitor electrode material by a convenient one-step ...
Team uses 3D printing to strengthen a key material in aerospace, energy-generation applications(图)
3D打印 航空航天 能源生产 关键材料
2023/6/5
Even as temperatures rise, this hydrogel material keeps absorbing moisture(图)
水凝胶材料 温度升高 被动冷却 水收集
2023/6/5
Inspired by the human heart, Penn Engineers design tear-resistant soft material(图)
抗撕裂软材料 人类心脏 机器人
2023/7/7
Physicists find direct evidence of strong electron correlation in a 2D material for the first time(图)
二维材料 强电子 相关性 非常规超导性
2023/6/7
Researchers have found a way to make cheap thermoelectrics that work just as well as the pricey kind. The work could pave the way for a new generation of greener car engines, industrial furnaces, and ...
Researchers develop 3D-printable material that mimics biological tissues(图)
3D-printable material mimics biological tissues
2020/6/19
Biological tissues have evolved over millennia to be perfectly optimized for their specific functions. Take cartilage as an example. It's a compliant, elastic tissue that's soft enough to cushion join...
Tiny magnetic particles enable new material to bend, twist and grab
Tiny magnetic particles new material bend twist grab
2019/12/20
A team of researchers from the Georgia Institute of Technology and The Ohio State University has developed a material called magnetic shape memory polymer that uses magnetic fields to transform into a...
南京理工大学本科生在《Advanced Material》新子刊《Solar RRL》发表封面文章(图)
南京理工大学 Advanced Material 新子刊 Solar RRL 高效空穴传输材料
2018/1/12
近日,我校唐卫华教授和美国托莱多大学鄢炎发教授课题组合作,以新型三蝶烯为核、以EDOT调节能级、通过高效Stille偶联成功合成了一种高效空穴传输材料TET (HOMO = -5.08 eV, LUMO = -2.30 eV),其合成成本仅为spiro-OMeTAD的1/5。更关键的是,研究发现TET只需30 nm的厚度即可达到效率的最大值,比spiro-OMeTAD(约200 nm)薄上一个数量...
中国地质大学科学技术发展院罗天添(硕士生),田熙科等 材化学院 Journal of Agricultural and Food Chemistry, 2017. Polyethylenimine-Functionalized Corn Bract, an Agricultural Waste Material, for Efficient Removal and Recovery of Cr(VI) from Aqueous Solution
氨基化;玉米;苞叶;用于;Cr(VI);
2021/10/21
2017年8月,中国地质大学材化学院田熙科教授团队有关“氨基化玉米苞叶用于Cr(VI)的回收与利用”的研究成果发表在重要国际期刊《Journal of Agricultural and Food Chemistry》上。
Like a sandwich with wheat on the bottom and rye on the top, Rice University scientists have cooked up a tasty new twist on two-dimensional materials.The Rice laboratory of materials scientist Jun Lou...