🛈 You have hit your article limit of 1 for this month. Act now to get more.

The key to knowledge is in your (nitrile-gloved) hands

Already an ACS Member? Log in here

Basic

$0 Community Associate

ACS’s Basic Package keeps you connected with C&EN and ACS.

Access to 6 digital C&EN articles per month on cen.acs.org
Weekly delivery of the C&EN Essential newsletter

JOIN NOW

Standard

$80 Regular Members & Society Affiliates

ACS’s Standard Package lets you stay up to date with C&EN, stay active in ACS, and save.

Access to 10 digital C&EN articles per month on cen.acs.org
Weekly delivery of the digital C&EN Magazine
Access to our Chemistry News by C&EN mobile app

Eligibility restrictions apply. Review ACS Membership Packages to see if you qualify.

JOIN NOW

Premium

$160 Regular Members & Society Affiliates
$55 Graduate Students
$25 Undergraduate Students

ACS’s Premium Package gives you full access to C&EN and everything the ACS Community has to offer.

Unlimited access to C&EN’s daily news coverage on cen.acs.org
Weekly delivery of the C&EN Magazine in print or digital format
Access to our Chemistry News by C&EN mobile app
Significant discounts on registration for most ACS-sponsored meetings

ACS offers discounts for some countries outside the United States. This discount is shown at checkout, if applicable.

JOIN NOW

Nanomaterials

Microscopic carbon pillars are stronger than diamond yet elastic

The material could help build components for use in extreme environments such as in space or a nuclear reactor

by Prachi Patel, special to C&EN

July 11, 2019 | A version of this story appeared in Volume 97, Issue 28

To send an e-mail to multiple recipients, separate e-mail addresses with a comma, semicolon, or both.

Title: Microscopic carbon pillars are stronger than diamond yet elastic

Author:

Chemical & Engineering News will not share your email address with any other person or company.

Join the conversation

Contact the reporter

Submit a Letter to the Editor for publication

Engage with us on Twitter

Advertisement

LATEST

TOPICS

MAGAZINE

FEATURES

COLLECTIONS

PODCASTS

CHEMPICS

JOBS

LATEST

TOPICS

MAGAZINE

FEATURES

COLLECTIONS

PODCASTS

CHEMPICS

JOBS

Nanomaterials

Microscopic carbon pillars are stronger than diamond yet elastic

The material could help build components for use in extreme environments such as in space or a nuclear reactor

by Prachi Patel, special to C&EN

July 11, 2019 | A version of this story appeared in Volume 97, Issue 28

Advertisement

Join the conversation

Advertisement

TOPICS

MAGAZINE

FEATURES

COLLECTIONS

Grab your lab coat. Let's get started

Welcome!

Welcome!

Create an account below to get 6 C&EN articles per month, receive newsletters and more - all free.

It seems this is your first time logging in online. Please enter the following information to continue.

As an ACS member you automatically get access to this site. All we need is few more details to create your reading experience.

The key to knowledge is in your (nitrile-gloved) hands

Access more articles now. Choose the ACS option that’s right for you.

Thank you!

Microscopic carbon pillars are stronger than diamond yet elastic

The material could help build components for use in extreme environments such as in space or a nuclear reactor

by Prachi Patel, special to C&EN

July 11, 2019 | A version of this story appeared in Volume 97, Issue 28

Advertisement

Join the conversation

The power is now in your (nitrile gloved) hands

Sign up for a free account to get more articles. Or choose the ACS option that’s right for you.

Option 1

Create a free account To read 6 articles each month from

Option 2

BEST VALUE

Join ACS To get even more access to

Create a free account
To read 6 articles each month from

Join ACS
To get even more access to