O/N and C/S Analysis of Battery Components: Ensuring quality throughout the battery life cycle

Publisher: ELTRA, part of Verder Scientific

Access this content

Your content has been opened.

Please verify you are a human before downloading this content.

O/N and C/S Analysis of Battery Components: Ensuring quality throughout the battery life cycle has been emailed to . Entered the wrong email?

Don't see the content in your inbox?
Make sure to check your spam and other messages folders.

Can't get to your email right now?

To complete your registration and access this content, enter the sign-in code sent to your email.

Please enter a valid verification code.

Code sent to:

Also, remember to check in your spam, promotions, and other folders.


Register to access this content


By accessing content on the Advanced Materials & Processes Online Directory you agree to our Terms of Service and Privacy Policy; and, you acknowledge that your information may be shared with the content publisher.

O/N and C/S Analysis of Battery Components: Ensuring quality throughout the battery life cycle

Modern life depends strongly on (mobile) electrical power, which is provided by batteries. No cellular phone, notebook, tablet or car could be operated without a proper working battery. Since Allesandro Volta first built and utilized a primary battery, a large number of batteries of various chemical compositions and different sizes has been developed which are used for a wide range of applications like flash lights or storage of excess electrical power from the grid or a power plant. Regardless of the dimensions of a battery, its application or its configuration as primary (not rechargeable) or secondary battery (rechargeable), a chemical analysis for carbon, sulfur, oxygen or nitrogen may be required for single components. A reliable and precise measurement of C/S and O/N in selected samples over a wide concentration range is possible with elemental analyzers like the ELEMENTRAC CS-i and ONH-p2.