Filetype Power Point PPT | Posted on 31 Aug 2022 | 3 years ago
Authentication
digital resources
178x Filetype PPT File size 0.22 MB Source: www.cell.com
Property Value
Contextual Ready
Contextual URL
Contextual Initial
Segments
Contextual Used Segments
AdUnit
SubAdUnit
Custom Targeting
Ad Events
Invalid Ad Sizes
Close
• This Journal
• Back
• Online Now
• Current Issue
• About the Journal
• Author Resources
• Archive
• Alerts
• Submit
• Request access
• Research Journals
• Back
• Cell
• Cancer Cell
• Cell Chemical Biology
• Cell Genomics
• Cell Host & Microbe
• Cell Metabolism
• Cell Reports
• Cell Reports Medicine
• Cell Reports Methods
• Cell Reports Physical Science
• Cell Stem Cell
• Cell Systems
• Chem
• Chem Catalysis
• Current Biology
• Developmental Cell
• Heliyon
• Immunity
• iScience
• Joule
• Matter
• Med
• Molecular Cell
• Neuron
• One Earth
• Patterns
• STAR Protocols
• Structure
• Trends Reviews Journals
• Back
• About Trends Reviews Journals
• Biochemical Sciences
• Biotechnology
• Cancer
• Cell Biology
• Chemistry
• Cognitive Sciences
• Ecology & Evolution
• Endocrinology & Metabolism
• Genetics
• Immunology
• Microbiology
• Molecular Medicine
• Neurosciences
• Parasitology
• Pharmacological Sciences
• Plant Science
• Partner Journals
• Back
• AJHG
• Biophysical Journal
• Biophysical Reports
• HGG Advances
• Molecular Plant
• Molecular Therapy Family
• Plant Communications
• Stem Cell Reports
• The Innovation
• Collections
• Back
• Best of Cell Press
• Cell Press Reviews
• Cell Press Selections
• Consortia Hub
• Nucleus Collections
• SnapShot Archive
• Beyond the Journal
• Back
• Cell Career Network
• Cell Mentor
• Cell Symposia
• LabLinks
• Webinars
• Evolving the Article
• Back
• Community Review
• Figure360
• Sneak Peek
• STAR Methods
• Science in Society
• Back
• Cell Picture Show
• Cell Press Podcast
• Cell Press Videos
• Coloring and Comics
• Research Arc
• Connect
• Back
• About Cell Press
• Careers
• Contact
• Help & Support
• Newsroom
• Publication Alerts
• Cell Press Home
Go search
This Journal Full site
Advanced Search Save search
Please enter a term before submitting your search.
Ok
• Submit
• Log in
• Register
• Log in
• Submit
• Log in
• Subscribe
• Claim
Access provided by
Preview| Volume 5, ISSUE 1, P11-13, January 05, 2022
• Purchase
• Academic & Personal: 24 hour online access
• Corporate R&D Professionals: 24 hour online access
• Subscribe
• Save
• Add to Online Library Powered ByMendeley
• Add to My Reading List
• Export Citation
• Create Citation Alert
• Share
Share on
• Twitter
• Facebook
• LinkedIn
• Sina Weibo
• more
• Reprints
• Request
• Top
MOFs the movie: Molecule to nuclei evolution
during metal-organic framework formation
• Xiuliang Lv
Xiuliang Lv
Affiliations
Department of Materials Science and Engineering, University of Wisconsin-Madison, Madison,
WI, 53706
Search for articles by this author
• Patrick Sullivan
Patrick Sullivan
Affiliations
Department of Chemistry, University of Wisconsin-Madison, Madison, WI, 53706
Search for articles by this author
• Dawei Feng
Dawei Feng
Correspondence
Corresponding author
Contact
Affiliations
Department of Materials Science and Engineering, University of Wisconsin-Madison, Madison,
WI, 53706
Department of Chemistry, University of Wisconsin-Madison, Madison, WI, 53706
Search for articles by this author
Published:December 06, 2021DOI:https://doi.org/10.1016/j.matt.2021.11.009
MOFs the movie: Molecule to nuclei evolution during metal-organic framework formation
Previous ArticleMaking MXenes more energetic in aqueous battery
Next ArticleLiquid directional steering
The chemical and structural diversity of Metal-Organic Frameworks (MOFs) makes them an exciting
class of materials as a scientific playground to potentially address a variety of applications, yet this
diversity poses a daunting challenge to fully understanding their fundamental principles. Scientists from
Netherlands and Belgium have captured MOFs in motion through a complementary set of simple yet
informative in situ spectroscopy to promote an in-depth visualization of the nucleation growth process.
Not only does this work elucidate guiding theories for MOF synthesis, but it also paints a picture of
complex nucleation dynamics for those seeking to strengthen their foundational knowledge.
To read this article in full you will need to make a payment
Purchase one-time access:
Academic & Personal: 24 hour online access Corporate R&D Professionals: 24 hour online access
One-time access price info
• For academic or personal research use, select 'Academic and Personal'
• For corporate R&D use, select 'Corporate R&D Professionals'
Subscribe:
Subscribe to Matter
Already a print subscriber? Claim online access
Already an online subscriber? Sign in
Register: Create an account
Institutional Access: Sign in to ScienceDirect
References
• Stavitski E.
• Goesten M.
• Juan-Alcañiz J.
• Martinez-Joaristi A.
• Serra-Crespo P.
• Petukhov A.V.
• Gascon J.
• Kapteijn F.
Kinetic control of metal-organic framework crystallization investigated by time-resolved in situ X-
ray scattering.
Angew. Chem. Int. Ed. Engl. 2011; 50: 9624-9628
View in Article
• Scopus (161)
• PubMed
• Crossref
• Google Scholar
• Millange F.
• Medina M.I.
• Guillou N.
• Férey G.
• Golden K.M.
• Walton R.I.
Time-resolved in situ diffraction study of the solvothermal crystallization of some prototypical
metal-organic frameworks.
Angew. Chem. Int. Ed. Engl. 2010; 49: 763-766
no reviews yet
Please Login to review.
