Supramolecular Organic and Organometallic Chemistry Centre

Proiect PNII-ID-PCCE-2011-2-0050/2011 - Team 3: Project timespan Project team Abstract Project objectives Budget Results

Title: Design of organic spacers for constructing metal-organic frameworks (MOFs) -- towards a better control of the porous architecture and active catalytic sites

Project leader: Prof. Dr. Marius Andruh

Team 1 leader: Prof. Dr. Vasile Pârvulescu

Team 2 leader: Prof. Dr. Ion Grosu

Team 3 leader: Prof. Dr. Cristian Silvestru

Team 3:

Prof. Dr. Anca Silvestru (01.06.2012 - present)
Dr. Ciprian I. Raţ (01.06.2012 - present)
Lect. Dr. Albert Soran (01.06.2012 - present)
Dr. Alexandra Pop (01.06.2012 - present)
Dr. Ana-Maria Preda (01.06.2012 - 31.12.2013)
CSIII Dr. Alpar Pöllnitz (01.06.2012 - present)
Dr. Ioana Barbul (01.06.2012 - 30.06.2014)
Gabriela Strîmb (01.06.2012 - 30.06.2015)
Marian Olaru (01.06.2012 - 30.06.2016)
Răzvan I. Şuteu (01.11.2012 - present)
Adrian A. Someşan (01.10.2014 - present)
Atena Şolea (01.03.2015 - 30.06.2016)
Ileana Oprea (01.03.2015 - 31.12.2015)
Roxana Popa (01.03.2015 - present)
Florin A. Adăscăliţei (01.12.2015 - present)

Project timespan
2012 -- 2016

Abstract
The project aims to obtain a new generation of metal-organic frameworks (MOFs) using novel families of made-by-design spacers (Cyclophane and cyclophane-like spacers with pre-formed cavities; C3-symmetry cryptand-based ligands; Tetrahedral synthons; Organometallic spacers featuring robust metal-carbon bonds, e.g. Organometallic halides, with appropriate organic groups attached to the metal centre to provide stability of the organometallic unit and/or potential to develop 3D architectures. The efforts will be concentrated towards compounds with the metal in lower oxidation state bearing a lone pair of electrons and thus higher reactivity). The construction of MOFs using organometallic tectons is a field largely unexplored. A special emphasis will be given to the post-synthesis processing of the MOFs (removal of solvent and weakly coordinated ligands; functionalization of selected MOFs by nanoconfinement with metal nanoparticles and functionalization for generation of acidic and basic sites). The sorption of various gases (H₂, CO₂, C₂H₂, etc.) as well the catalytic properties of the newly synthesized MOFs will be investigated. Enantioselective organic reactions catalyzed by chiral MOFs will be studied as well. In this scope MOFs functionalized with acid and base functions will be investigated in the asymmetric aldol reaction between representative ketones with various aromatic aldehydes under solvent-free conditions. The luminescence properties of some MOFs as well as the influence of the host molecules on the luminescence (especially for those containing lanthanide cations) will be investigated. The ability of the new MOFs for decontamination processes will be tested - more specifically, MOFs will be used as adsorbents for the molecules resulted from the degradation of pharmaceutical compounds via either liquid phase catalytic oxidation or plasma.

Main objectives
A. Design, synthesis and characterization of new families of organic spacers as precursors of metal-organic frameworks with desired network topologies.
B. Design, synthesis and characterization of new organometallic spacers and potential organometallic nodes.
C. Building MOFs based on the newly designed and synthesized organic and organometallic spacers.
D. Optimization of MOFs architectures based on the design improvement of new spacers and organometallic nodes.
E. Optimizing MOFs properties by post-synthesis processes.
F. Generation of acidic and basic sites in MOFs showing optimized properties by nanoconfinement with metal nanoparticles and post-synthetic functionalization.
G. Evaluation of selective sorption capacity of MOFs for various molecules.
H. Investigation of gas (hydrogen) storage capability of synthesized MOFs for energy applications.

Team 3 budget

	Budget chapter (expenses)	2012 (lei)	2013 (lei)	2014 (lei)	2015 (lei)	2016 (lei)	Total
1	Salaries	80.000	190.000	190.000	202.760	113.000	570.000
2	Inventory	78.087,78	115.802,17	123.151,93	29.418,18	111.732,83	458.192,89
3	Mobility	1.003,22	4.652,38	7.575,34	0	2.816,17	16.047,11
4	Overhead	15.909	31.045,45	32.072,73	23.217,82	22.755	125.000
5	Total	175.000	341.500	352.800	255.396	250.304	1.375.000

Results 2012 - 2016

Articles

Structural diversity of coordination cores in new homoleptic tetraaryltin(IV) dioxolane, aldehyde and imines. First octacoordinated double helicate tetraorganotin(IV) compound.
Ioana Barbul, Richard A. Varga, Cristian Silvestru, Eur. J. Inorg. Chem. 2013, 3146–3154. DOI: 10.1002/ejic.201300245.
Cover Picture: Eur. J. Inorg. Chem. 18/2013, DOI: 10.1002/ejic.201390078
Cover Profile: Eur. J. Inorg. Chem. 18/2013, DOI: 10.1002/ejic.201300437
Di(imino)aryltin(IV) dichlorides as tectons for heterometallic coordination compounds.
Ioana Barbul, Richard A. Varga, Kieran C. Molloy, Cristian Silvestru, Dalton Trans., 2013, 42, 15427–15436. DOI: 10.1039/C3DT52022F
Selected as HOT Article for September: hot-articles-for-september
Organotin(IV) hypervalent pseudohalides. Synthesis and structural characterization.
Cristina Coza, Adina Stegărescu, Răzvan Şuteu and Anca Silvestru, J. Organomet. Chem., 2015, 777 71-80.
DOI: 10.1016/j.jorganchem.2014.11.026
Triorganotin(IV) halides - precursors for new organotin(IV) tectons. Synthesis and structural characterization of [2-{(CH₂O)₂CH}C₆H₄]₃SnI and [2-(O=CH)C₆H₄]₃SnCl.
Adrian-Alexandru Somesan, Cristian Silvestru and Richard A. Varga, Rev. Roum. Chim., 2015, in press.
DOI: n.a.
Tris(3-pyridyl)- and tris(4-pyridyl)phosphine chalcogenides and their complexes with ZnTPP (TPP = tetraphenylporphyrinate).
Lea Dubovan, Alpar Poellnitz and Cristian Silvestru, Eur. J. Inorg. Chem, 2016, 1521-1527.
DOI: 10.1002/ejic.201501333
New (N,Se) and (Se,N,Se) ligands based on carborane and pyridine fragments. Coordination towards copper and silver.
Adriana Ilie, Olga Crespo, Maria Concepcion Gimeno, Max C. Holthausen, Antonio Laguna, Martin Diefenbach and C. Silvestru, Inorg. Chem, 2016, submitted.
DOI: n.a

Conferences attended in 2012-2014

Organometallic Compounds - Unusual Species Stabilized Through Intramolecular Coordination.
Cristian Silvestru - invited conference at Jacobs University, Bremen, Germany, 22 May 2013.
Organometallic Compounds - Unusual Species Stabilized Through Intramolecular Coordination.
Cristian Silvestru - invited conference at Bremen Universität, Bremen, Germany, 23 May 2013.
New hypervalent organoantimony(III) and -bismuth(III) compounds.
I. Chirca, A. M. Preda, C. Silvestru,
at A XXXIII Conferinţă Naţională de Chimie, Căciulata, October 1-3, 2014.
New heteroleptic tetraaryltin(IV) compounds – intra- and intermolecular interactions study – ,
A. A. Somesan, R. A. Varga and C. Silvestru,
at The 1^st Young Researchers' International Conference on Chemistry and Chemical Engineering (YRICCCE I), Cluj-Napoca, May 12-14, 2016.
Multinuclear NMR –a useful tool in analysis of organotin(IV) compounds,
A. A. Somesan, R. A. Varga and C. Silvestru,
at The Central and Eastern European NMR Symposium & Central and East European Bruker Users Meeting, Sofia (Bulgaria), September 18-20, 2016.
Novel examples of coordination polymers with organometallic linkers,
L. Kiss, C. I. Raț and C. Silvestru,
at The XXXIV^th Romanian Chemistry Conference, Calimanesti-Caciulata, Valcea, October 4-7, 2016.

Contributions to BSc and MSc Theses

Ileana Oprea, Complexes with di(4-pyridyl)mercury.
BSc Thesis, June 2014.
Kiss Levente, Organometallic Compounds with Tetrafluoropyridin-4-yl Substituent.
MSc Thesis, June 2014.
Ben Kiran Ahmad, Liganzi organobismut(III) pentru obţinerea de reţele metal-organice. Preparare, caracterizare structurală şi comportare în reacţii de complexare.
MSc Thesis, June 2014.

Reports

The yearly scientific reports containing experimental details of unpublished compounds data can be provided for project evaluation purposes only. To obtain copies of these reports please contact Prof. Dr. Cristian Silvestru by e-mail at cristian.silvestru (at) ubbcluj.ro .