Search results for "METAL-ORGANIC FRAMEWORKS"

showing 8 items of 68 documents

Bidirectional Chemo-Switching of Spin State in a Microporous Framework

2009

The ins and outs of spin: Using the microporous coordination polymer {Fe(pz)[Pt(CN)(4)]} (1, pz=pyrazine), incorporating spin-crossover subunits, two-directional magnetic chemo-switching is achieved at room temperature. In situ magnetic measurements following guest vapor injection show that most guest molecules transform 1 from the low-spin (LS) state to the high-spin (HS) state, whereas CS(2) uniquely causes the reverse HS-to-LS transition.

chemo-switchingSpin statesPyrazinemicroporous materialsCoordination polymerGeneral ChemistryMicroporous materialCatalysiscoordination polymerschemistry.chemical_compoundCrystallographyspin crossoverchemistrySpin crossoverMoleculeMetal-organic frameworkSpin (physics)metal-organic frameworksAngewandte Chemie International Edition
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Copper( ii ) complexes with phosphorylated 1,10-phenanthrolines: from molecules to infinite supramolecular arrays

2016

International audience; The reaction of phosphorylated 1,10-phenanthrolines 3-Pphen, 3,8-Pphen and 4,7-Pphen (3-Pphen = 3-diethoxyphosphorylphenanthroline, 3,8-Pphen = 3,8-bis(diethoxyphosphoryl) phenanthroline, 4,7-Pphen = 4,7-bis(diethoxyphosphoryl) phenanthroline) and hydrated copper(II) nitrate in a 1 : 1 ratio leads to the formation of supramolecular architectures. In the 1D coordination polymer [Cu(3-Pphen)(NO3)(2)](n) (2) the copper atom is coordinated to only one phenanthroline ligand and the coordination sphere is completed by two oxygen atoms of nitrate anions and the oxygen atom of the phosphoryl group from the neighbouring phenanthroline ligand. Complex Cu(3,8-Pphen)(NO3)(2) (3)…

constructionCoordination sphereStereochemistryCoordination polymerPhenanthrolinebidentate ligandsdesignSupramolecular chemistryEtherCrystal structuremagnetic-properties010402 general chemistrychemistry01 natural sciences[ CHIM ] Chemical SciencesCatalysischemistry.chemical_compoundMaterials Chemistry[CHIM]Chemical Sciencesmetal-organic frameworks010405 organic chemistryLigandChemistrycrystal-structureGeneral Chemistryself-organization0104 chemical sciences3. Good healthtransition-metalCrystallographycoordination polymersMetal-organic framework
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Photoactivity and Chemical Reactivity in Titanium(IV)-Organic Frameworks

2020

La presente tesis doctoral ha sido realizada como compendio de publicaciones y lleva por título “Fotoactividad y reactividad química en redes metal-orgánicas de titanio(IV)” (Photoactivity and Chemical Reactivity in Titanium(IV)-Organic Frameworks). La tesis se encuentra dividida en cinco capítulos además de un capítulo final de conclusiones y un resumen en castellano. El primer capítulo trata de una introducción acerca de las redes metal-orgánicas (del inglés Metal-Organic Frameworks, MOFs) de titanio(IV) existentes hasta la fecha para dar una visión general de su variedad estructural, así como de las estrategias sintéticas empleadas y las propiedades fotocatalíticas de estos materiales. E…

hydrolytical stabilityUNESCO::QUÍMICA::Química inorgánicatitanium:QUÍMICA::Química inorgánica [UNESCO]dual-metal catalysismetal-organic frameworksphotocatalysis
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Nuevos materiales moleculares de hierro(II) multipropiedad basados en el fenómeno de transición de espín

2017

En esta Tesis Doctoral se presenta la síntesis y caracterización de una serie de materiales multifuncionales de FeII que tienen como denominador común el fenómeno de transición de espín (TS). El objetivo general es investigar sinergias entre la TS y otra propiedad fisicoquímica mediante el estudio de su estructura molecular y sus propiedades magnéticas y calorimétricas, entre otras. En el Capítulo Uno se exponen los conceptos más relevantes del fenómeno TS en el cual los centros TS experimentan una conversión de espín HS↔LS (HS: estado de espín alto, LS: estado de espín bajo) en respuesta a un estímulo externo tal como temperatura, presión, luz o la presencia de analitos. En particular, una…

ironantiferromagnetic couplingspin crossoverUNESCO::QUÍMICAinclusion compoundsinterpenetrationnitrosyl complexesmetal-organic frameworks:QUÍMICA [UNESCO]molecular structures
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Recent progress in metal-organic frameworks (MOFs) for CO2 capture at different pressures

2022

Global climate change ensued by the rise in atmospheric CO2 levels is one of the greatest challenges our planet is facing today. This worldwide distress demands technologies that can contribute to our society toward “negative carbon emissions”. Carbon capture and storage (CCS) technologies are in in important role for capturing CO2 from existing emission sources, such as industrial and energy production point sources, before new more prominent modifications to the energy infrastructure can be implemented. Recently, alongside point source capture, direct air capture (DAC) processes have emerged as highly sought-after technologies that are able to capture CO2 from the ambient air. Alongside t…

open metal sitescarbon capturehiiliProcess Chemistry and Technologyflue gasadsorption mechanismchemisorptionPollutionamine-functionalizedadsorbenthybrid ultra-microporous materialsphysisorptiondirect air captureregenerationChemical Engineering (miscellaneous)savukaasutadsorptiometal-organic frameworkshiilidioksidin talteenotto ja varastointiWaste Management and DisposalJournal of Environmental Chemical Engineering
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Selective Laser Sintering of Metal-Organic Frameworks: Production of Highly Porous Filters by 3D Printing onto a Polymeric Matrix.

2019

Metal‐organic frameworks (MOFs) have raised a lot of interest, especially as adsorbing materials, because of their unique and well‐defined pore structures. One of the main challenges in the utilization of MOFs is their crystalline and powdery nature, which makes their use inconvenient in practice. Three‐dimensional printing has been suggested as a potential solution to overcome this problem. We used selective laser sintering (SLS) to print highly porous flow‐through filters containing the MOF copper(II) benzene‐1,3,5‐tricarboxylate (HKUST‐1). These filters were printed simply by mixing HKUST‐1 with an easily printable nylon‐12 polymer matrix. By using the SLS, powdery particles were fused t…

porosityMaterials sciencematerials sciencelaser sinteringMixing (process engineering)3D printingNanotechnologyorganometalliyhdisteet010402 general chemistry01 natural scienceslaw.inventionMatrix (chemical analysis)huokoisuusAdsorptionlaw3D-tulostuspolymeeritmateriaalitiedePorosityta116metal-organic frameworkspolymerschemistry.chemical_classification010405 organic chemistrybusiness.industryGeneral ChemistryPolymer0104 chemical sciencesSelective laser sinteringchemistryadsorptionMetal-organic frameworkadsorptiobusinessChemPlusChem
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Diseño y síntesis de nuevos materiales conmutables basados en el fenómeno de transición de espín

2023

Esta Tesis Doctoral actúa como compendio de síntesis y caracterización de nuevos materiales, generalmente porosos, que presentan el fenómeno de transición de espín (en inglés Spin Crossover, SCO). El principal objetivo de la Tesis Doctoral ha consistido en el diseño de estos nuevos polímeros de coordinación que combinan de forma sincrónica el fenómeno SCO asociado a los centros metálicos de FeII con otras propiedades de interés, siendo la motivación última su futura aplicación en dispositivos espintrónicos. Más concretamente, los esfuerzos sintéticos se han dedicado a la obtención de polímeros de coordinación de tipo Hofmann 2D que presentan: propiedades anfitrión-huésped selectivas, fluore…

spin crossoverclatratos de hofmannhierro (ii)fluorescenciatransición de espínligandos n-dadoresUNESCO::QUÍMICA::Química inorgánica ::Compuestos de coordinaciónmetal-organic frameworksquímica anfitrión-huéspedpolímeros de coordinación
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Biodegradable Metal-Organic Framework-Based Microrobots (MOFBOTs).

2020

Microrobots and metal–organic frameworks (MOFs) have been identified as promising carriers for drug delivery applications. While clinical applications of microrobots are limited by their low drug loading efficiencies and the poor degradability of the materials used for their fabrication, MOFs lack motility and targeted drug delivery capabilities. The combination of these two fields marks the beginning of a new era; MOF‐based small‐scale robots (MOFBOTs) for biomedical applications. Yet, biodegradability is a major hurdle in the field of micro‐ and nanoswimmers including small‐scale robots. Here, a highly integrated MOFBOT that is able to realize magnetic locomotion, drug delivery, and selec…

zeolitic imidazolate frameworksMaterials scienceBiomedical EngineeringPharmaceutical ScienceNanotechnology02 engineering and technology010402 general chemistrybiodegradation01 natural sciencesBiomaterialsmetal–organic frameworksDrug Delivery SystemsNeoplasmsHumansMetal-Organic FrameworksBiodegradable metal021001 nanoscience & nanotechnologyControlled release0104 chemical sciencesMagnetic FieldsTargeted drug deliverySelective degradationDoxorubicindrug deliveryDrug deliverybiodegradation; drug delivery; metal–organic frameworks; microrobots; zeolitic imidazolate frameworksChemotherapeutic drugs0210 nano-technologymicrorobotsAdvanced healthcare materials
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