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Merck
CN

793663

Graphene dispersion

greener alternative

forinkjet printing, with ethyl cellulose in cyclohexanone and terpineol, inkjetprintable

别名:

喷墨墨水, 导电墨水

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UNSPSC Code:
12352103
NACRES:
NA.23

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产品名称

导电油墨, for inkjet printing, with ethyl cellulose in cyclohexanone and terpineol, inkjet printable

SMILES string

OC(C1=C2C(C3=C(C4=C(C5=C(C6=C(C7=C(C8=C(C9=C(C%10=C(C%11=C(C%12=C(C%13=C(C%14=C(C%15=CC=C%16O)C%16=C%17)C%17=C%18)C%18=C%19C(O)=O)C%19=C%20)C%20=C%21O)C%21=C%22)C%22=C%23)C%23=C%24O)C%24=C%25)C%25=C%26C(O)=O)C%26=C%27)C%27=C2)=C%28C%29=C(C%30=C%31C%28=C%3

description

Electrodes

form

liquid

greener alternative product characteristics

Design for Energy Efficiency
Learn more about the Principles of Green Chemistry.

sustainability

Greener Alternative Product

concentration

2.4 wt. % (solid (graphene and ethyl cellulose) in cyclohexanone/terpineol)

resistivity

0.003-0.008 Ω-cm (thermally annealed 250°C for 30 minutes, film thickness >100 nm)

particle size

≤3 μm

surface tension

30 dyn/cm

viscosity

8-15 mPa.s(30 °C)

bp

213-218 °C (Terpineol)

density

0.9375 g/mL at 25 °C

greener alternative category

Enabling,

Quality Level

100

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Application

配方设计用于喷墨打印。
固化条件:250-350°C, 20-30min

本油墨在聚酰亚胺和二氧化硅基材上测试过。

General description

喷墨可印刷石墨烯分散体是在各种应用(例如传感器、导体、超级电容器等)中用于有机和印刷电子的一种有前景的候选材料。通过控制喷嘴中的流体排出,基于石墨烯的功能器件和薄膜可以通过喷墨印刷工艺进行设计。
我们致力于为您带来更加绿色的替代产品,这些产品遵守一项或多项绿色化学12项原则。本品属于绿色替代产品的赋能型产品,符合“节能设计”原则。石墨烯油墨具有高导电性、低成本和超柔韧性。点击此处以获取更多信息。

Legal Information

安装与西北大学Mark Hersam集团签订的材料转让协议进行销售。 

Other Notes

网络讲座:用于多功能生物传感器的石墨烯基纳米材

波形文件(可下载.csv 文件夹)

滤芯设置文件(可下载. jst file文件)

pictograms

CorrosionExclamation mark
GHS05,GHS07

signalword

Danger

Hazard Classifications

Acute Tox. 4 Dermal - Acute Tox. 4 Inhalation - Acute Tox. 4 Oral - Eye Dam. 1 - Skin Irrit. 2 - STOT SE 3

target_organs

Respiratory system

存储类别

10 - Combustible liquids

wgk

WGK 2

flash_point_f

143.6 °F

flash_point_c

62 °C

法规信息

危险化学品
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历史批次信息供参考:

分析证书(COA)

Lot/Batch Number
MKCZ4148
MKCX5375
MKCW3487
MKCW3412
MKCV7464

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Rapid and Versatile Photonic Annealing of Graphene Inks for Flexible Printed Electronics
Ethan B. Secor , Bok Y. Ahn , Theodore Z. Gao , Jennifer A. Lewis , and Mark C. Hersam
Advanced Materials, 27, 6683-6688 (2015)
Inkjet Printing of High Conductivity, Flexible Graphene Patterns.
Ethan B. Secor, Pradyumna L. Prabhumirashi, Kanan Puntambekar, et al.
The Journal of Physical Chemistry Letters, 4(8), 1347-1351 (2013)
High-Performance Solid-State Supercapacitors and Microsupercapacitors Derived from Printable Graphene Inks
Lei Li, Ethan B. Secor, Kan-Sheng Chen, Jian Zhu, Xiaolong Liu, Theodore Z. Gao
Advanced Energy Materials, 6, N/A-N/A (2016)
Efficient inkjet printing of graphene.
Li J
Advanced Materials, 25(29), 3985-3992 (2013)

商品

3D Printing Graphene Ink: Creating Electronic and Biomedical Structures and Devices

Since its discovery little more than a decade ago,1 the two-dimensional (2D) allotrope of carbon—graphene—has been the subject of intense multidisciplinary research efforts.

Graphene Inks for Electronics

Functional materials for printed electronics applications enable flexible displays, RFID tags, and biomedical sensors.

Substrate and Conductor Materials Towards More Sustainable Electronics

The European Green Deal and Circular Economy Action Plan address resource challenges with eco-products and circulatory work, while the revised EU Ecodesign Directive promotes e-waste reduction and natural resource value reform. This review examines renewable substrates and conductive materials for flexible electronics.

Molybdenum Disulfide: Hydrogen Evolution

Catalytic water splitting produces hydrogen crucial for renewable energy, petroleum refining, and chemical industry applications like methanol production.

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