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Xion AEM-Pention-72-15CL (5, 10, 20 30μm) 阴离子交换膜

  • 产品代码:1801010, 1801011, 1801012, 1801013
  • 产品描述:厚度:5, 10, 20, 30μm;尺寸:5x5cm, 10x10cm, 15x15cm, 20x20cm
  • 品牌:SCI Materials Hub
  • 货期:2周
  • 浏览次数:
  • 咨询电话:+86 130-0303-8751
  • 关键词:XION Composite - AEM-Pention-72-15CL, 阴离子交换膜, SCI Materials Hub, 科学材料站
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1. 简介

阴离子交换膜(AEM)是一种通常由离聚物制成的半透膜,设计用于传导阴离子,同时不渗透诸如氧气或氢气的气体。阴离子交换膜的主要优点是使用非铂/低铂催化剂,在达到相同性能的前提下,可以大大降低成本,阴离子交换膜的其他优点还包括:耐碱、抗氧化、耐氯离子、扩散透析以回收酸。


科学材料站可以提供Xion AEM-Pention-72-15CL不同厚度尺寸系列,其中厚度有5μm, 10μm, 20μm和30μm,尺寸有5x5cm, 10x10cm, 15x15cm及20x20cm。更多型号将在厂家更新后提供。

如需购买请点进入方【购买渠道】进行购买或寻求报价单。


Xion-Pention复合阴离子交换膜是一系列复合阴离子交换膜(AEM),使用基于聚降冰片烯的树脂的复合而成,复合材料来自于与膜结构整合的增强层,用以提高其机械性能,机械性能的增强可以使复合膜比独立膜更薄,在不牺牲强度的情况下提供更高的离子导电性,其离子交换容量(IEC)为3.4-3.6meq/g,这些特制的阴离子交换膜依其厚度和交联度而定,已在碱性燃料电池中显示出高达9A/cm2的电流密度(或大于3 W/cm2的功率密度),具有出色的耐久性和寿命(以上数据基于美国可再生能源实验室、南卡罗来纳大学和乔治亚理工学院联合开展的研究,研究原文见文末或本站下载中心,所述的电化学性能数据仅供参考,并取决于MEA、CCM或GDE制造方法、使用的膜厚度、测试硬件设计和测试硬件中使用的组件以及操作参数(温度、压力、反应物流速等),这些值可能会或可能不会达到。)


季铵改性聚降冰片烯聚合物的化学成分如下图所示。

1619450641505618.png


2. Xion-Pention聚合物

Xion-Pention复合阴离子交换膜的优点:

高阴离子电导率

在低温和高温下具有良好的化学稳定性

具有优异机械强度的超薄膜


科学材料站目前提供72系列、35系列、18系列,交联度(Crosslinking)为5%和15%,厚度为5um、10um、20um、30um、50um厚度,尺寸为5cmX5cm、10cmX10cm、15cmX15cm、20cmX20cm的Xion-Pention阴离子交换膜片,由于所有这些膜产品都是经过机械增强的,因此特别适合于不加压或加压的阴离子交换膜燃料电池(带或不带碱性电解质),碱性燃料电池(带或不带碱性电解质),碱子泵,碱性氧浓缩器,碱性低氧和碱性电池或其他各种中性至碱性电化学装置。可以使用气态或液态反应物而不会出现任何问题。


选购说明:

1.当您的装置需要拥有最佳的效率并且整个膜上不会有太大的压差时。或者当反应物(燃料或氧化剂)以干燥气体(0%RH)或部分加湿(小于50%RH)的形式提供时。选用厚度较薄的膜(小于10um)可以在整个膜上提供出色的水传输,在阳极和阴极均保持足够的水合作用,因此,当燃料或氧化剂以干态供应时,过氧化氢自由基和其他对膜有害的自由基种类的产生减至最少或部分加湿。

2.当您的装置需要拥有很长的使用寿命,或者整个膜上有较大的压差,又或是装置以足够潮湿的状态(大于50% RH)提供反应物(燃料或氧化剂)时。您需要选用较厚的膜(大于10um)。


性能参数如下所示:

复合膜类型

阴离子膜/碱性膜AEM

复合膜型号

72系列、35系列、18系列

复合膜厚度

5/10/20/30/50 um

复合膜尺寸(支持定制)

5X5cm、10X10cm、15X15cm、20X20cm

IEC

3.4-3.6 meq/g

交联度

5%或者15%

吸水率(取决于交联度)

60-100 wt%

拉伸强度(在50%RH,50℃下测量)

40-50 MPa

OH-电导率(在80℃时测量,取决于交联度)

125-180 mS/cm


预处理方案:

复合Pention膜以溴化物或氯化物形式运输。

1.当用于标准碱性燃料电池/电解池时,应通过用0.5-1.0 M NaOH或KOH溶液处理将膜转化为OH-形式:将膜样品置于0.5–1.0 M NaOH或KOH的水溶液中,在20°C–30°C下放置24小时。用去离子水(pH≈7)冲洗后,膜即可使用。请使用密闭容器以避免CO2污染(碳酸盐的形成可能会影响电导率)。氢氧根形式的膜必须在潮湿/加湿且不含CO2的条件下保存,避免氢氧根形式的膜变干。在干燥条件下的长期储存应优选以碳酸盐,氯离子或溴离子形式进行。

2.当用于其他电化学(电渗析,脱盐,电渗析,反向电渗析,酸回收,盐分离等)和非电化学应用时,应将膜转换为与预期应用相关的阴离子形式。例如,如果应用程序要求将氯离子通过膜转移,则该阴离子交换膜需要转化为氯离子形式。为了将该膜转化为氯离子形式,需要将其浸入1-2 M NaCl或KCl盐溶液(溶于去离子水中)24-72小时,然后用去离子水冲洗以除去膜表面多余的盐。或者,如果预期的应用需要转移硫酸根阴离子,则该阴离子交换膜需要先预处理成硫酸根形式,在室温下将膜完全浸入盐溶液中24-72小时后,Na2SO4或K22SO4的中性盐溶液通常足以使膜完全转化为硫酸盐形式。


如果您对存储,化学稳定性,预处理或在进行操作之前有任何疑问,请随时与我们联系以获取更多信息。

Xion AEM-Pention-72-15CL (5, 10, 20 30μm) 阴离子交换膜 - SCI Materials Hub
Thickness5, 10, 20 30μm
Tensile Strength - max. (MPa)40 - 50 (measured at 50%RH, 50°C)
Water uptake (wt%)60 - 100 (depending on the degree of crosslinking)
Crosslinking5 or 15%
Ion Exchange Capacity3.4 - 3.6 meq/g
Conductivity (mS/cm)125 - 180 (OH- anion conductivity at 80 deg Celsius, depending on the degree of crosslinking)


Xion Composite Pention AEM Properties(*):

Crosslinking (%)510
Thickness (micrometers)1010
IEC (meqv/g)3.4 - 3.63.4 - 3.6
OH- conductivity (mS/cm) at 80 degC170 - 180125 - 135
Water Uptake (%)90 - 10060 - 70
Tensile Strength (MPa) at 50% RH and 50 degC4050

*Properties of 10 micrometers thick membranes with different crosslinking % are provided in the table are for reference and example purposes only.

1. 简介

The Xion Pention-AEM-72-15CL membranes is a composite AEM that uses the poly(norbornene) based resin and has an ion exchange capacity of 3.4 to 3.6 mequiv/g. Pention anion exchange membranes offer excellent mechanical strength and stability to a wide variety of chemistries.


2. 特性

These particular AEMs depending on their thickness and crosslinking degree have demonstrated up to 9 A/cm2 current densities (or >3 W/cm2 power densities) in alkaline fuel cells with excellent durability and lifetime [based on the recent jointly conducted study between NREL, University of South Carolina, and Georgia Institute of Technology].


Notes: We highly recommend the Pention 15CL membranes with thickness of 10μm - 30μm, Pention 5CL membranes with thickness of 30μm - 50μm

a. Pention membranes can operate at temperature as high as 170 ℃

b. Thiner membranes (10 μm) will give higher performance and Thicker membranes (20 μm) will give durability.

c. 15CL is better for thinner membranes ≤30 μm and 5CL is better for thicker membranes >30 μm.

d. Do not recommend 15CL thick membranes above 30μm, because they get brittle.


4. Pention阴离子交换膜理化性质

Image below shows the chemical composition of the anion exchange resin used to manufacture Xion Composite Pention membranes.

5. 应用及优点

The Xion Composite Pention-AEM-72-05 is a 5 micrometers thick anion exchange membrane and it can be used in fuel cells, electrolyzers, electrodialysis, redox flow batteries, electrochemical compressors, and a wide variety of other devices. Composite Pention AEMs are currently offered with 5% or 15% crosslinking levels.

XION Composite PENTION Membranes are ultra-thin, ultra-strong, and provide ultra-high performance while demonstrating highly stable performance as reinforced anion exchange membranes (AEM). The ionomer structure contains a poly(norbornene) backbone with quaternary ammonium functional groups. A reinforcement layer is integrated into the structure of the membrane to provide enhanced mechanical properties. The enhanced mechanical properties as free-standing membranes, providing higher ionic conductance without sacrificing strength.


6. 文章引用

欢迎在文章中引用从科学材料站(SCI Materials Hub)获取的材料

The XION composite anion exchange membrane with a thickness of 5 μm (AEM-Pention-72-15CL-5μm) was obtained from SCI Materials Hub.


Lead time for this product is usually around 1 - 2 weeks to ship.


7. Benefits of Xion Composite Pention AEMs (优点)

-High anionic conductivity
-Great chemical stability at low and high temperatures
-Ultra-thin membranes with excellent mechanical strength


8. Pre-treatment protocol (预处理)

Composite Pention membranes are shipped in the bromide or chloride forms.

In order to convert them into hydroxyl form (OH-), soak the membrane in 1M KOH or 1M NaOH solution for at least two hours. Then, wash the membrane surface with deionized water in order to remove the excess KOH (or NaOH) from the membrane surface.

Finally, membranes can be gently tap-dried with KIM wipes for its easy assembly in the cell. Exposure to ambient air (which has around 500 ppm CO2 gas) for long durations needs to be avoided.

After converting the membrane into hydroxyl form (OH-), exposing it to ambient air or CO2-containing atmospheres would quickly convert hydroxyl from into carbonate form because of the chemical reaction between OH- ions and CO2 molecules.

Since carbonate ions are much bulkier than OH- ions, the conductivity of the carbonate form for the membranes would be much lower compared to OH- form.


1. 手机淘宝(官方淘宝店铺:科学材料站)


2. 点击进入淘宝网页链接

科学材料站 XION AEM碱性阴离子膜系列
产品描述厚度产品代码5*5cm10*10cm15*15cm20*20cm其它尺寸及价格备注
AEM-Durion-G25μm1801001¥17313392¥5053--LMW系列
10μm18010021661
3288
4777--
20μm1801003156932314523--
30μm1801004152330344361--
AEM-Pention-72-5CL5μm1801005¥173133925053768272系列-5%交联度
10μm18010061661
3288
47777261
20μm18010071569323145236874
30μm18010081523303443616629

¥5230 (15x18cm)

¥5930 (17x18cm)

50μm1801009228445466542--

¥6978 (15x16cm)

¥7443 (16x16cm)

AEM-Pention-72-15CL5μm1801010¥173133925053768272系列-15%交联度
10μm18010111661
3288
47777261
20μm18010121569323145236874¥5145 (16CM*16CM)
30μm18010131523303443616629


¥2375 (5CM*7.8CM)

¥2700 (6.5CM*9.5CM)

¥3980 (11CM*16CM)

AEM-Pention-35-5CL5μm1801014¥173133925053--35系列-5%交联度
10μm18010151661
3288
4777--
20μm1801016156932314523--
30μm1801017152330344361--
50μm1801018228445466542--
AEM-Pention-35-15CL5μm1801019¥173133925053--35系列-15%交联度
10μm18010201661
3288
4777--
20μm1801021156932314523--
30μm1801022152330344361--
AEM-Pention-18-5CL5μm1801023¥173133925053--18系列-5%交联度
10μm18010241661
3288
4777--
20μm1801025156932314523--
30μm1801026152330344361--
50μm1801027228445466542--
AEM-Pention-18-15CL5μm1801028¥173133925053--18系列-15%交联度
10μm18010291661
3288
4777--
20μm1801030156932314523--
30μm1801031152330344361--
AEM-Dappion5μm1801032¥173133925053--Dappion系列
10μm18010331661
3288
4777--
20μm1801034156932314523--
30μm1801035152330344361--
SCI Materials Hub Is Committed to Offering The Best Price & Customer Services!

注:下单时请联系客服,注明选择哪个系列(72系列、35系列、18系列)和哪种交联度(5%CL、15%CL),其中20X20cm规格的目前只有Pention-72系列;50μm厚度的只有Pention-72/35/18-5CL,Pention-72-5CL-50μm没有20x20cm。


3. 其它联系方式

电话:+86 130-0303-8751/+86 156-0553-2352

微信:SCI-Materials-Hub

如需报价单请联系:Email: contact@scimaterials.cn



References citing our materials

二氧化碳还原

1. Strain Relaxation in Metal Alloy Catalysts Steers the Product Selectivity of Electrocatalytic CO2 Reduction

The bipolar membrane (Fumasep FBM) in this paper was purchased from SCI Materials Hub, which was used in rechargeable Zn-CO2 battery tests. The authors reported a strain relaxation strategy to determine lattice strains in bimetal MNi alloys (M = Pd, Ag, and Au) and realized an outstanding CO2-to-CO Faradaic efficiency of 96.6% with outstanding activity and durability toward a Zn-CO2 battery.


2. Boosting Electrochemical Carbon Dioxide Reduction on Atomically Dispersed Nickel Catalyst

In this paper, Vulcan XC-72R was purchased from SCI Materials Hub. Vulcan XC 72R carbon is the most common catalyst support used in the anode and cathode electrodes of Polymer Electrolyte Membrane Fuel Cells (PEMFC), Direct Methanol Fuel Cells (DMFC), Alkaline Fuel Cells (AFC), Microbial Fuel Cells (MFC), Phosphoric Acid Fuel Cells (PAFC), and many more!


3. Partially Nitrided Ni Nanoclusters Achieve Energy-Efficient Electrocatalytic CO2 Reduction to CO at Ultralow Overpotential

An AEM membrane (Sustainion X37-50 Grade RT, purchased from SCI Materials Hub) was activated in 1 M KOH for 24 h, washed with ultra-purity water prior to use.


电池

3. Blocking polysulfides with a Janus Fe3C/N-CNF@RGO electrode via physiochemical confinement and catalytic conversion for high-performance lithium–sulfur batteries

Graphene oxide (GO) in this paper was obtained from SCI Materials Hub. The authors introduced a Janus Fe3C/N-CNF@RGO electrode consisting of 1D Fe3C decorated N-doped carbon nanofibers (Fe3C/N-CNFs) side and 2D reduced graphene oxide (RGO) side as the free-standing carrier of Li2S6 catholyte to improve the overall electrochemical performance of Li-S batteries.


4. A high-voltage and stable zinc-air battery enabled by dual-hydrophobic-induced proton shuttle shielding

This paper used more than 10 kinds of materials from SCI Materials Hub and the authors gave detailed properity comparsion.

The commercial IEMs of Fumasep FAB-PK-130 and Nafion N117 were obtained from SCI Materials Hub.

Gas diffusion layers of GDL340 (CeTech) and SGL39BC (Sigracet) and Nafion dispersion (Nafion D520) were obtained from SCI Materials Hub.

Zn foil (100 mm thickness) and Zn powder were obtained from the SCI Materials Hub.

Commercial 20% Pt/C, 40% Pt/C and IrO2 catalysts were also obtained from SCI Materials Hub.

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