可再生能源

提高您的有机光伏电池的性能,
提高MOF的储氢能力,
调整燃料电池的催化剂颗粒大小或聚合物电解质膜(PEM)结构,以增加质子交换或稳定性?

纳米尺度的表征可以帮助你找到答案。

利用X射线散射技术,您可以:

  • OPV中聚合物薄膜晶体区域的分子排列和取向特征(及纳米形貌)
  • 量化MOFs的孔隙大小、形状、空间分布、网络结构和表面特征
  • 原位测量燃料电池催化剂颗粒的尺寸和稳定性
  • 测定自组装嵌段共聚物薄膜的相,用于介孔模板和最终的多孔结构
  • 发现离子簇间的特征分离距离(PEMs)

Renewable energy

Boost performance of your organic photovoltaic cell,
Enhance the hydrogen storage capacity of a MOF,
Tune catalyst particle size for fuel cells or polymer electrolyte membrane (PEM) structure to increase proton exchange or stability?

Characterization at the nanoscale can help you find answers.

With X-ray scattering in your lab, you can for example:

  • Characterize molecular arrangement and orientation of crystalline regions of polymer thin films in OPV (together with nanomorphology)
  • Quantify pore size, shape, spatial distribution, network structure and surface characteristics of MOFs
  • Measure the size and stability of catalyst particles for fuel cells in situ
  • Determine the phase of self-assembled block-copolymer films for mesoporous templating and final porous structure
  • Find the characteristic separation distance in ionomers (PEMs)

具有可调同构结构的有序介孔到大孔氧化物的表征

小角X射线散射是测定多孔材料嵌段共聚物模板物相与温度关系的理想方法。

在不破坏样品的情况下进行原位 测试

颗粒大小与分布、孔隙大小与分布、(薄膜)表面结构与形态、湿度与温度的关系…

您想测量什么?

我们的用户

用X射线散射来进行可再生能源的研究

“We are currently investigating nanoscale heterogeneity in several electrolyte mixtures. We will soon develop the capability to perform simultaneous electrochemical and SAXS measurements to understand how the fluid-solid interface changes during power cycling in energy storage materials.

Dr. José Leobardo Bañuelos
Department of Physics, The University of Texas at El Paso, USA

用户文章

了解科研人员如何使用Xenocs仪器来进行研究和发表文章

Cysteamine-modified ZIF-8 colloidal building blocks: Direct assembly of nanoparticulate MOF films on gold surfaces via thiol chemistry.
Segovia, G. M.; Tuninetti, J. S.; Moya, S.; Picco, A. S.; Ceolín, M. R.; Azzaroni, O.; Rafti, M.
Materials Today Chemistry2018
Bandgap-Tuning in Triple-Chalcogenophene Polymer Films by Thermal Annealing
González, D. M.; Raftopoulos, K. N.; He, G.; Papadakis, C. M.; Brown, A.; Rivard, E.; Müller-Buschbaum, P.
Macromolecular Rapid Communications2017

产品

我们的下列仪器可服务于您的可再生能源的研究。

Nano-inXider

智能化纳米尺寸表征

Renewable Energy Nanostructure Analysis

Xeuss 3.0

新一代实验室用(GI-)SAXS/WAXS/USAXS线站

Renewable Energy Nanostructure Analysis

服务

我们助您一臂之力。

附件

各种各样的配件可用于您的研究工作。

Renewable Energy Nanostructure Analysis

XSACT软件

X射线散射数据分析计算软件。

Renewable Energy Nanostructure Analysis

Renewable Energy Nanostructure Analysis

Renewable Energy Nanostructure Analysis

Renewable Energy Nanostructure Analysis – SAXS

Renewable Energy Nanostructure Analysis – Use SAXS To Tune Polymer Assembly – Understand OPV, PEM Fuel Cells At The Atomic And Nanoscale On Bulk