![]() Here you will find options to view and activate subscriptions, manage institutional settings and access options, access usage statistics, and more. If you believe you should have access to that content, please contact your librarian.įor librarians and administrators, your personal account also provides access to institutional account management. ![]() The institutional subscription may not cover the content that you are trying to access. Taylor & Francis publishes knowledge and specialty research spanning humanities, social sciences, science and technology, engineering, medicine and. Oxford Academic is home to a wide variety of products. View the institutional accounts that are providing access.View your signed in personal account and access account management features.Some societies use Oxford Academic personal accounts to provide access to their members.Ĭlick the account icon in the top right to: See below.Ī personal account can be used to get email alerts, save searches, purchase content, and activate subscriptions. Some societies use Oxford Academic personal accounts to provide access to their members. If you do not have a society account or have forgotten your username or password, please contact your society. Do not use an Oxford Academic personal account. When on the society site, please use the credentials provided by that society.If you see ‘Sign in through society site’ in the sign in pane within a journal: Nanotubes are large, linear fullerenes with aspect. Many societies offer single sign-on between the society website and Oxford Academic. Fullerenes are close-caged molecules contain- ing only hexagonal and pentagonal interatomic bonding networks. Society member access to a journal is achieved in one of the following ways: If you cannot sign in, please contact your librarian. If your institution is not listed or you cannot sign in to your institution’s website, please contact your librarian or administrator.Įnter your library card number to sign in. Following successful sign in, you will be returned to Oxford Academic.When on the institution site, please use the credentials provided by your institution.Select your institution from the list provided, which will take you to your institution's website to sign in.Click Sign in through your institution.Shibboleth / Open Athens technology is used to provide single sign-on between your institution’s website and Oxford Academic. This authentication occurs automatically, and it is not possible to sign out of an IP authenticated account.Ĭhoose this option to get remote access when outside your institution. Typically, access is provided across an institutional network to a range of IP addresses. If you are a member of an institution with an active account, you may be able to access content in one of the following ways: Fullerenes and nanotubes are two classes of carbon structures or allotropes, which were discovered about 17 years ago. Wire transport and prospects in CNT wire advancement.Get help with access Institutional accessĪccess to content on Oxford Academic is often provided through institutional subscriptions and purchases. This will provide a testbed for novel fullerene Of uniaxial chains of aligned fullerene supramolecules, self-assembled betweenĪligned few-walled CNT bundles. Here,Ī simple variation in established CNT acid extrusion creates a fiber composed Individual fullerenes were previously incorporated intoĬNT fibers, although randomly without self-assembly into supramolecules. These were small (100's $\mu$m long), soft (hardnessĬomparable to indium), and typically unaligned, which hindered development ofįullerene based wires. To 0.05 MSm$^$) and superconductive ($T_c=18^\circ$K with K and 28$^\circ$K Fullerenes assemble into multitudes of process-dependent supramolecularĬrystals and, while initially insulating, they become marginally conductive (up Greater aspect ratios and incorporation of dopants with long-range structural Surpass carbon fiber's strength, with further improvement anticipated with Download a PDF of the paper titled Strong Fiber from Uniaxial Fullerene Supramolecules Aligned with Carbon Nanotubes, by John Bulmer and 12 other authors Download PDF Abstract: Carbon nanotube (CNT) wires approach copper's specific conductivity and ![]()
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