Efficient vapor-assisted aging synthesis of functional and highly crystalline MOFs from CuO and rare earth sesquioxides/carbonates
Published 2015 View Full Article
- Home
- Publications
- Publication Search
- Publication Details
Title
Efficient vapor-assisted aging synthesis of functional and highly crystalline MOFs from CuO and rare earth sesquioxides/carbonates
Authors
Keywords
-
Journal
GREEN CHEMISTRY
Volume 17, Issue 7, Pages 3740-3745
Publisher
Royal Society of Chemistry (RSC)
Online
2015-05-18
DOI
10.1039/c5gc00378d
References
Ask authors/readers for more resources
Related references
Note: Only part of the references are listed.- Metal–organic frameworks catalyzed C–C and C–heteroatom coupling reactions
- (2015) Amarajothi Dhakshinamoorthy et al. CHEMICAL SOCIETY REVIEWS
- Better understanding of mechanochemical reactions: Raman monitoring reveals surprisingly simple ‘pseudo-fluid’ model for a ball milling reaction
- (2014) Xiaohe Ma et al. CHEMICAL COMMUNICATIONS
- Metal–organic framework membranes: from synthesis to separation application
- (2014) Shilun Qiu et al. CHEMICAL SOCIETY REVIEWS
- Efficient vapour-assisted aging and liquid-assisted grinding synthesis of a microporous copper-adeninate framework
- (2014) Chunmei Jia et al. CRYSTENGCOMM
- Mineral neogenesis as an inspiration for mild, solvent-free synthesis of bulk microporous metal–organic frameworks from metal (Zn, Co) oxides
- (2013) Cristina Mottillo et al. GREEN CHEMISTRY
- Mimicking mineral neogenesis for the clean synthesis of metal–organic materials from mineral feedstocks: coordination polymers, MOFs and metal oxide separation
- (2013) Feng Qi et al. GREEN CHEMISTRY
- Accelerated aging: a low energy, solvent-free alternative to solvothermal and mechanochemical synthesis of metal–organic materials
- (2012) Matthew J. Cliffe et al. Chemical Science
- AMMINEITE, CuCl2(NH3)2, A NEW SPECIES CONTAINING AN AMMINE COMPLEX: MINERAL DATA AND CRYSTAL STRUCTURE
- (2011) H.-P. Bojar et al. CANADIAN MINERALOGIST
- High Reactivity of Metal-Organic Frameworks under Grinding Conditions: Parallels with Organic Molecular Materials
- (2010) Wenbing Yuan et al. ANGEWANDTE CHEMIE-INTERNATIONAL EDITION
- Rapid Room-Temperature Synthesis of Zeolitic Imidazolate Frameworks by Using Mechanochemistry
- (2010) Patrick J. Beldon et al. ANGEWANDTE CHEMIE-INTERNATIONAL EDITION
- From unexpected reactions to a new family of ionic co-crystals: the case of barbituric acid with alkali bromides and caesium iodide
- (2010) Dario Braga et al. CHEMICAL COMMUNICATIONS
- A Family of Highly Stable Lanthanide Metal−Organic Frameworks: Structural Evolution and Catalytic Activity
- (2010) Mikaela Gustafsson et al. CHEMISTRY OF MATERIALS
- Mechanochemical synthesis of homo- and hetero-rare-earth(iii) metal–organic frameworks by ball milling
- (2010) Wenbing Yuan et al. CRYSTENGCOMM
- A Series of (6,6)-Connected Porous Lanthanide−Organic Framework Enantiomers with High Thermostability and Exposed Metal Sites: Scalable Syntheses, Structures, and Sorption Properties
- (2010) Hai-Long Jiang et al. INORGANIC CHEMISTRY
- Lanthanide luminescence for functional materials and bio-sciences
- (2009) Svetlana V. Eliseeva et al. CHEMICAL SOCIETY REVIEWS
- Room-Temperature Synthesis of Multi-Morphological Coordination Polymer and Tunable White-Light Emission
- (2009) Kai Liu et al. CRYSTAL GROWTH & DESIGN
- Hydrogen Adsorption in a Highly Stable Porous Rare-Earth Metal-Organic Framework: Sorption Properties and Neutron Diffraction Studies
- (2008) Junhua Luo et al. JOURNAL OF THE AMERICAN CHEMICAL SOCIETY
- Manganese-Based Nanoscale Metal−Organic Frameworks for Magnetic Resonance Imaging
- (2008) Kathryn M. L. Taylor et al. JOURNAL OF THE AMERICAN CHEMICAL SOCIETY
- Adsorptive Separation of Isobutene and Isobutane on Cu3(BTC)2
- (2008) Martin Hartmann et al. LANGMUIR
Find the ideal target journal for your manuscript
Explore over 38,000 international journals covering a vast array of academic fields.
SearchCreate your own webinar
Interested in hosting your own webinar? Check the schedule and propose your idea to the Peeref Content Team.
Create Now