Tag: ICMAB

New posters for the 5 FUNMAT “Severo Ochoa” Research Lines at ICMAB

Written by Anna May on November 10, 2016. Posted in Group activities, News.

The 5 FUNMAT “Severo Ochoa” Research Lines at ICMAB are:

RL1: SUSTAINABLE ENERGY CONVERSION AND STORAGE SYSTEMS (download)
RL2: SUPERCONDUCTORS FOR POWER APPLICATIONS: CLEAN AND SECURE ENERGY (download)
RL3: OXIDE ELECTRONICS (download)
RL4: MOLECULAR ELECTRONICS (download)
RL5: MULTIFUNCTIONAL NANOSTRUCTURED BIOMATERIALS: SMART NANOMEDICINE (download)

The N&N Group participates in three of them: RL1, RL3 and RL5.

Thank you to JAGS for the brand new posters, which are exposed in the MATGAS Hall.

Good news! Miquel Torras has secured a Severo Ochoa Grant for his Master’s Research at ICMAB within the N&N Group!

Written by Anna May on November 2, 2016. Posted in Awards and scholarships, News.

Miquel Torras, Master Student, coursing “MSc. Applied Materials Chemistry” at Universitat de Barcelona, has secured one of the competitive Severo Ochoa Grants to conduct his research at the ICMAB-CSIC, within the N&N Group!

Miquel will work on magneto-plasmonic nanostructures, following the work of his Bachelor’s degree, under the supervision of Anna Roig.

We are very happy for him! Congratulations Miquel!

More info about the Severo Ochoa Grant call and resolution: https://sede.csic.gob.es/becas-severo-ochoa-icmab

Congratulations to Elisa Carenza for the Extraordinay PhD Award!

Written by Anna May on October 17, 2016. Posted in Awards and scholarships, News.

We congratulate Elisa Carenza, who has been awarded with the Extraordinary PhD Award (Premi Extraordinari de Doctorat) for her thesis entitled “Engineering iron oxide nanoparticles for angiogenic therapies“.

Elisa carried out her PhD here at ICMAB, within the N&N Group, and in collaboration with Vall d’Hebron Research Institute (VHIR), under the supervision of Anna Roig (ICMAB) and Anna Rosell (VHIR), in the framework of the UAB PhD program.

The awards ceremony will take place on November 18, 2016, at 6.30 pm, at Hotel Campus (Edifici Blanc).

Elisa is now working in a startup biopharmaceutical company (Addex Therapeutics) in Geneva (Switzerland), which develops new molecules for the treatment of neurological diseases such as Parkinson’s and epilepsy. Elisa is investigating the effects of these molecules in humans, in different Clinical Research studies.

Congratulations Elisa!

More information about the Extraordinary PhD award resolution here.
The thesis can be found in the UAB Digital Document Repository : http://ddd.uab.cat/record/128025

Anna Laromaine gives a talk at the “Self-Assembly at ICMAB” conference on June 21st

Written by Anna May on June 20, 2016. Posted in Conferences, News.

June 21st-22nd is Self-Assembly at ICMAB (SELF2016), the conference on self-assembly within the ICMAB. The topics covered include self-assembly of nanoparticles, nanostructures onto surfaces, and organic molecules, and theory and simulation of self-assembly, among others.

Anna Laromaine will give a talk (Tuesday, June 21st, 12.00) on “Albumin self-assembled on iron oxide nanoparticles’ surfaces”.

For more information about other topics, speakers and organizers, visit the conference website: http://congresses.icmab.es/self2016/

Figure: Snapshots from simulations of three different stages of protein adsorption. (a) Contact between BSA and the nanoparticle (t = 0.07 ns), (b) spreading of the BSA over the nanoparticle (t = 3 ns), and (c) relaxation of the adsorbed BSA protein (t = 9 ns). (From the recently published article: Siming Yu, et al.”Albumin-coated SPIONs: an experimental and theoretical evaluation of protein conformation, binding affinity and competition with serum proteins”, Nanoscale, 2016, Advance Article”)

First slide of the talk

Anna Laromaine will give the next ICMAB Periodical Lecture

Written by Anna May on January 25, 2016. Posted in Conferences, Group activities, News.

Next Monday, February 1st, at 12 pm, Dr. Anna Laromaine, member of our group, will give the ICMAB Periodical Lecture. Anna will talk about “Caenorhabditis elegans and bacterial cellulose: exploiting nature to build materials”.

Short abstract :
Many researches have been inspired by nature, from the synthesis of materials mimicking our environment to the evaluation of materials using in vivo animal models. In this talk, I will briefly introduce two approaches that we have been working recently in the group.
First, I will present the use of the small animal model, Caenorhabditis elegans (C. elegans). The characteristics of this model organism endorse this 1 mm long nematode as an ideal living system for the primary screening of engineered nanoparticles in a standard synthetic laboratory. I will present how using the worm, we assessed iron oxide nanoparticles in a simple and facile way.
On the other hand, I will present how a bacterial strain can produce cellulose (named bacterial cellulose (BC)), of the same molecular formula as vegetal cellulose; however exhibiting a higher degree of polymerization and better crystallinity. BC also has high porosity, transparency in the UV-NIR and a high water holding capacity. I will show how we controlled its structure and fabricate nanocomposites that can respond to external stimulus.

“Caenorhabditis elegans and bacterial cellulose: exploiting nature to build materials”
By: Dr. Anna Laromaine
Date: Monday, 1st February
Time: 12 pm
Place: ICMAB Meeting room

Seminar of Dr. Ali Mohraz next Tuesday 17th of November at 3pm

Written by Anna Roig on November 10, 2015. Posted in Conferences, Group activities.

“Colloids at Fluid Interfaces: Opportunities for Advanced Materials Synthesis”
Ali Mohraz, Associate Professor of Chemical Engineering and Materials Science, University of California, Irvine

Particle se Ali Mohraz questration at the interface of immiscible fluids has been known for more than a century and exploited in the formulation of solid-stabilized (Pickering) emulsions for drug delivery, oil recovery, food, and personal care products, to name a few. More recently, new classes of multi-phase mixtures have emerged that exploit interfacial colloid jamming, bridging, ordering, and aggregation for the self-assembly of complex higher-order structures from colloidal building blocks, such as bicontinuous interfacially jammed emulsion gels (bijels), or bridged emulsion gels. The multiphase nature of these mixtures makes them excellent templates for the synthesis of composite materials with tunable morphology at the nano- to micrometer scales, and our group has recently demonstrated various examples of functional materials that can be derived from them. However, to expand these capabilities into a robust materials synthesis platform, the factors that mediate the mechanical stability and processability of these colloidal mixtures must be better understood. In this talk, I will review the fundamentals and recent developments in colloidal self-assembly at fluid interfaces, present a novel materials synthesis route that we have pioneered based on these concepts, and discuss the applications of our technology in electrochemical energy conversion and storage, sensing, catalysis, and tissue engineering. Finally, I will discuss our ongoing efforts to better understand the link between the microstructure, rheology, and processability of this new class of soft materials.

Ali Mohraz received his BSc, ME, and PhD in Chemical Engineering from Azad University, The City College of New York, and The University of Michigan, respectively, and his postdoctoral training at the Frederick Seitz Materials Research Laboratory at The University of Illinois in Urbana-Champaign. He is currently Associate Professor of Chemical Engineering and Materials Science at the University of California, Irvine. Dr. Mohraz’s primary research interests are in colloid science and complex fluids engineering, including colloidal assembly at fluid interfaces and microstructural evolution of complex fluids under transient large-strain deformations.

Additional information: Anna Laromaine

Paper in collaboration with ICN2 in RSC Advances

Written by Anna Roig on October 23, 2015. Posted in New publications, News.

Dual T1/T2 MRI contrast agent based on hybrid SPION@coordination polymer nanoparticles

The study by M. Borges, S. Yu, A. Laromaine, A. Roig, S. Súarez-García, J. Lorenzo,D. Ruiz-Molina and F. Novio* has just been published in RSC Advances 2015, 5, 86779–86783.

The paper reports a novel hybrid T1/T2 dual MRI contrast agent by the encapsulation of SPIONs (T2 contrast agent) into an iron-based coordination polymer with T1-weighted signal. This new hybrid material presents improved relaxometry and low cytotoxicity, which make it suitable for its use as contrast agent for MRI.