Dr. Ramesh Babu Padamati
Prof. Werner Blau
Prof. John J. Boland
Prof Conor Buckley
Prof. J.M.D. Coey
Prof Paula Colavita
Prof. Jonathan Coleman
Prof. Graham Cross
Prof. John Donegan
Prof. Georg S. Duesberg
Prof Garry Duffy
Prof James Gleeson
Prof. Yurii Gun’ko
Prof. Anne Marie Healy
Prof David Hoey
Prof. Justin D. Holmes
Prof Paul Hurley
Prof Nathan Jackson
Prof. Daniel Kelly
Dr. Ed Lavelle
Dr Rocco Lupoi
Prof. Mike Lyons
Dr. Aidan McDonald
Dr. Parvaneh Mokarian-Tabari
Prof. Mick Morris
Dr. Bruce Murphy
Prof. Valeria Nicolosi
Prof. Fergal O’Brien
Prof Kevin O’Connor
Dr Garret O’Donnell
Dr. Adriele Prina-Mello
Prof. Stefano Sanvito
Prof Wolfgang Schmitt
Prof. Igor Shvets
Dr. Plamen Stamenov
Prof. David Taylor
Prof. Yuri Volkov
Prof. Hongzhou Zhang
The position will be based with the Nanothermal research group of Prof. David McCloskey at the School of Physics in Trinity College Dublin and be part of the Materials for Energy platform within the Advanced Materials and Bioengineering Research Centre (AMBER).
Summary of Project:
Conventional thermoelectric materials enable a coupling between electric current and heat flow. They can be used to harvest electricity from waste heat, as solid-state heat pumps, or as temperature or heat flux sensors. Transverse thermoelectric materials, are artificial materials produced by stacking skewed alternating layers of metal and semiconductor. They fundamentally differ from conventional thermoelectric materials in that heat flux and electric current flow in different directions. This allows independent optimization of thermal and electrical conductivity in these directions. The transverse thermoelectric concept has recently been shown to be viable for high power density harvesting of waste heat under high heat flux conditions such as in liquid-liquid heat exchanger applications.
In the project we will explore the transverse thermoelectric concept using advanced materials and processing techniques available through the AMBER research centre. In particular the student will develop a range of transverse thermoelectric materials and device geometries for testing under extremely high heat flux conditions such as evaporative cooling. This will allow us to explore the limits of electrical power density that can be achieved with these devices. We will also explore practical limitations in realistic devices due to interface resistance and search for optimal fabrication techniques. The student will have access to state of the art fabrication and characterisation facilities through the Additive Research Lab and the Advanced Microscopy Lab (details of which can be found here), as well as customised setups designed in the Nanothermal research group.
 Breaking the trade-off between thermal and electrical conductivities in the thermoelectric material of an artificially tilted multilayer, Akihiro Sakai et.al., Scientific reports, 4 : 6089
How to apply:
We are seeking applications from EU students. The ideal applicant will have a 1st Class Honours Bachelor’s degree in Physics or Engineering related discipline. The researcher will work closely with other members of a multidisciplinary project team. Excellent english written and oral communication skills are essential.
This is a fully funded project with duration of 4 years starting in 2019. The student stipend will be set at €18,500 p.a. and additional funding has been allocated to support consumables and travel expenses.
CVs with the names and addresses of two referees should be emailed to Prof. David McCloskey at firstname.lastname@example.org
Positions will remain opened until filled but preferred start date is September 2 2019. Only short-listed applications will be acknowledged. This position is funded by the SFI-research centre AMBER.
PhD Position available in the ERC Project ChemLife - Artificial micro-vehicles with life-like behaviour
The European Research Council (ERC) project ChemLife, hosted at AMBER, Trinity College Dublin, invites applications for one doctoral fellowship. The PhD fellow will be supervised by Dr. Larisa Florea (principal investigator) and will be registered for the doctoral programme within TCD’s School of Chemistry.
ChemLife will develop highly innovative, motile smart micro-vehicles with ground breaking capabilities such as chemotaxis, cargo-transport, sensing, reporting, diagnosis and repair via multidisciplinary research combining materials science, chemistry, nanotechnology and 3D fabrication technologies. The role of ChemLife is to stimulate a radical re-think and a move towards biomimetic principles as the route to delivering fundamental breakthroughs in clinical devices and environmental chem/bio-sensors, microfluidic devices and micro-robotics.
This position will focus on the development of smart droplets and vesicle-type units. Special focus will be placed on the synthesis and incorporation of responsive units into the structure of the droplet vehicle, for the demonstration of advanced functionalities such as uptake, transport and release of relevant units (e.g. selected biomolecules, pharmaceuticals). Experimental work will include the synthesis of stimuli-responsive surfactants, responsive ionic liquids, realisation of droplet systems that resemble biological vesicles, and microfluidic fabrication.
The successful candidates will play a substantial role in the design and fabrication of the motile smart micro- vehicles at the core of ChemLife. They will join an interdisciplinary, multinational team engaging in an in- depth research program in the realm of soft materials. The successful candidates will report directly to the PI, Dr. Florea, and will liaise with the other team members, AMBER researchers, and external collaborators, as necessary. Additionally, all members of the group will have the opportunity to define and shape their own research within the overall remit of the project.
Trinity College Dublin, the University of Dublin
Trinity is Ireland’s premier university, with a proud tradition of excellence stretching back to its foundation in 1592. The oldest university in Ireland, and one of the oldest in Europe, today Trinity sits at the intersectionof the past and the future, and is ideally positioned as a major university in the European Union. Our 47-acre campus is located in the heart of Dublin city centre and is home to historic buildings dating from the University’s establishment, as well as some of the most cutting-edge teaching and research facilities in Ireland. Students at Trinity benefit from a unique educational experience across a range of disciplines in our three faculties – Arts, Humanities, and Social Sciences; Engineering, Mathematics and Science; and Health Sciences. The pursuit of excellence through research and scholarship is at the heart of a Trinity education, and our researchers have an outstanding publication record and strong record of grant success.
AMBER (Advanced Materials and BioEngineering Research) is an internationally-leading research centre funded by Science Foundation Ireland that provides a partnership between leading researchers in materials science and industry. AMBER brings together Ireland’s leading material science researchers working across the disciplines of Physics, Chemistry, Bioengineering and Medicine; with an international network of collaborators and companies. The clustering of material science research expertise, state of the art infrastructure and a team of professional support staff has enhanced Ireland’s international reputation in materials science research and driven increased investment from industry. Ireland’s International ranking in the areas of nanoscience and materials science has increased from 6th and 8th respectively in 2013 when the Centre was established to 1st and 3rd in 2017. This ranking is based on publications and citations.
Applicants should hold a minimum of an honours bachelor’s degree at 2:1 level or equivalent in a discipline relevant to the project, such as Chemistry/Materials Science. Excellent first-hand knowledge of chemical techniques and characterisation methods. Preference is given to candidates with a knowledge of organic chemistry and physicochemical processes at the liquid-liquid interface. Applicants must provide evidence of competence in English language by achieving the minimum standard in a recognised English language test, as outlined at the following link: https://www.tcd.ie/courses/postgraduate/how-to-apply/requirements/international.php
The PhD student will be paid a stipend of €18,000 per annum and receive full fees remission for a maximum duration of four years.
Required documents: a CV; a cover letter briefly describing how your interests and expertise align with this project; an example of your written academic work such as an article, master thesis chapter, final year project or term paper.
Please send the application compiled into a single PDF file to FLOREAL@TCD.IE by 16/08/2019. (with “PhD ChemLife” in the subject line). Shortlisted candidates will be asked to nominate two academic referees. Interviews will be held in late August. The successful candidate will go through the Trinity College registration process in September 2019 and will start on 1st of October 2019.
Download PDF of vacancy details.
The Advanced Materials and BioEngineering Centre (AMBER) is inviting applications for five (5) PhD studentships to start in September 2019. These studentships are part of the joint SFI-EPSRC funded Centre for Doctoral Training in Advanced characterisation for Materials (CDT ACM) programme. The CDT ACM programme is a collaboration between Trinity College Dublin, Imperial College London and University College London (UCL). Successful applicants will be registered at Trinity College Dublin but will be required to spend their first semester in London attending lectures, receiving expert training and completing coursework with their UK colleagues at Imperial and UCL. Further short visits are scheduled during years 2-4 of the program. Applicants must have been resident in an EU member state for 3 out of the last 5 years to be eligible for funding through this programme.
The ideal applicants will have a 1st Class or strong 2-1 Honours Bachelor’s degree in Physics, Chemistry, Nanoscience, Materials Science or related disciplines. The researcher will work closely with other members of a multidisciplinary project team. Excellent time-management, written- and oral-communication skills are essential. To make informal enquires please contact Jesus Barco Montero BARCOMOJ@tcd.ie. The deadline for applications is 5pm on March 29th. Further details can be found in the attached document. The AMBER research centre, as a community of researchers, welcomes its responsibility to provide equal opportunities for all. We are actively seeking diversity in our research teams and particularly encourage applications from under-rrepresented groups.
AMBER is inviting applications for the following PhD studentships which are open for enrolment in September 2019. The AMBER research centre, as a community of researchers, welcomes its responsibility to provide equal opportunities for all. We are actively seeking diversity in our research teams and particularly encourage applications from underrepresented groups. Applicants must have been resident in an EU member state for 3 out of the last 5 years to be eligible for funding through this programme.
|PhD title||Lead Supervisor||Co Supervisor||Location|
|Exploration of neuromorphic functions based on ion gel gated devices||Prof. John Boland||Prof. Paul Hurley||Trinity College Dublin|
|Oxide semiconductors for above IC logic applications||Prof. Igor Shvets||Trinity College Dublin|
|Resistive switching in single/few layer 2 D materials.||Dr. Niall McEvoy||Prof. Paul Hurley||Trinity College Dublin|
|Modelling for emerging devices||Prof. Stefano Sanvito||Trinity College Dublin|
|Magnetic Logic Devices||Prof. Mike Coey||Prof. Plamen Stamenov||Trinity College Dublin|
|Computational screening and design of resilient plasmonic alloys for ICT and sensing||Dr. David O’Regan||Trinity College Dublin|
|Aberration-corrected electron microscopy and electron-beam lithography for plasmonic devices with dimensions approaching the atomic scale||Dr. Richard Hobbs||Trinity College Dublin|
|Porous Metal-Organic Materials for Photo- and Electrocatalytic Water Splitting||Prof. Wolfgang Schmitt||Trinity College Dublin|
|Nitride Nanowires for Photoelectrochemical Water Splitting||Prof. Justin Holmes||Prof. Peter Parbrook||University College Cork|
|2D materials for battery and supercaps||Prof. Valeria Nicolosi||Trinity College Dublin|
|3D-Printed Rechargeable Lithium-ion Batteries for Future Wearable, Medical and IoT Technologies||Prof. Colm O’Dwyer||Tyndall National Institute/University College Cork|
|Novel Dy-free Permanent Magnets with Properties Intermediate between Ferrites and Nd-Fe-B||Prof. Plamen Stamenov||Prof. Mike Coey||Trinity College Dublin|
|Machine-learning design of novel permanent magnets||Prof. Stefano Sanvito||Trinity College Dublin|
|Transverse Thermoelectrics||Dr. David McCloskey||Trinity College Dublin|
|Theory, modelling and simulations of electrical properties of nanosheet networks for device applications (MF)||Prof. Mauro Ferreira||Trinity College Dublin|
|Viscoelastic properties of nanosheet networks (MM)||Prof. Mathias Moebius||Trinity College Dublin|
|Electromechanical properties of nanosheet networks/Nanomembrane formation by continuous nanoimprint processes (GC)||Prof. Graham Cross||Trinity College Dublin|
|Directed Self-Assembly of Synthetic Nanoparticles and Loading of Natural Cell Derived Nanoparticles||Prof. Donal O’Shea||The Royal College of Surgeons of Ireland|
|Synthesis and Catalysis by 2D nanomaterials||Prof. Aidan McDonald||Trinity College Dublin|
|Engineered self-assemblies from synthetic tripodal ligands for formation of soft-materials and printable 2D materials||Prof. Thorri Gunnlaugsson||Trinity College Dublin|
|Nano and micropatterning of polymer and biopolymer structures through phase separation and fabrication||Prof. Mick Morris||Trinity College Dublin|
|Functional patterned surfaces using biopolymers||Prof. Justin Holmes||Prof. Paul Young||University College Cork|
|The role of endogenous skeletal stem cells in regulating biomaterial mediated bone regeneration||Prof. David Hoey||Trinity College Dublin|
|Electro-conductive biomaterials for spinal cord and peripheral nerve repair||Prof. Fergal O’Brien||The Royal College of Surgeons of Ireland|
|Novel nanomaterials for controlled gene delivery||Prof. Sally-Ann Cryan||Prof. Andreas Heise||The Royal College of Surgeons of Ireland|
|Machine learning methods for ultra-high quality microscopy||Prof. Stefano Sanvito||Dr. Lewys Jones||Trinity College Dublin|
|Development of immunomodulatory materials for biomedical applications||Prof. Ed Lavelle||Prof. Danny Kelly & Prof. Fergal O’Brien||Trinity College Dublin|
|Modelling electromechanical properties of two-dimensional materials and heterostructures||Cosupervisors - Prof. Stefano Sanvito (Computational spintronics), Dr. Nuala Caffrey (Computational Materials research) and Dr. Stephen Power (Nanoelectronics theory).||Trinity College Dublin|
To apply – please e-mail a CV with the names and addresses of three referees to the lead supervisor listed above, contact details can be found within project PDF.
Positions will remain opened until filled but preferred start date is September 2 2019. Only short-listed applications will be acknowledged.
Irish Research Council – Open Call
We are seeking interested students, post-doctoral researchers, investigators, and industry partners for the Irish Research Council Enterprise Partnership Scheme. Contact email@example.com with enquiries. Call deadline is Sept 5th.
Enterprise Partnership Scheme (Postdoctoral) - Enterprise Partnership Scheme (Postdoctoral) Co-funding research partnerships for enterprises and not-for-profit employers. The Irish Research Council’s Enterprise Partnership Scheme is a unique national initiative linking excellent researchers to enterprise. The scheme brings great research ideas into an Irish enterprise partner with the support of a higher education institution. The Irish Research Council partners with enterprises and jointly funds two-year fellowships to highly promising researchers in Ireland. Fellows will hold an Irish Research Council Enterprise Partnership Scheme Postdoctoral Fellowship. Link
Enterprise Partnership Scheme (Postgraduate) Co-funding research partnerships for enterprises and not-for-profit employers. The Irish Research Council’s Enterprise Partnership Scheme is a unique national initiative linking excellent researchers to enterprise. The scheme co-funds awardees to bring great research ideas into an enterprise with the support of a higher education institution. Link
The SFI Industry Fellowship Programme aims to enhance industry-academia collaborations, and to stimulate excellence through the funding of collaborative industry-academia research projects. This is realised via secondment of academic researchers in industry, or of industry researchers in academia.
If funded, the AMBER centre places researchers, on-site with collaborating companies for 1 year full time or 2 years part time. Alternately it hosts industry researchers on-site. Some applicants transition to full time roles in industry partners, subsequent to completion of the project. Other fellows have leveraged the secondment for:  preparation of large scale successfully funded H2020 funding applications;  publication of high impact academic publications;  pathfinding/seeding new collaborative research projects;  the development of new intellectual property.
To date AMBER has placed candidates across Ireland, Europe and the US addressing challenges in materials research for applications ranging across Bioengineering, Energy, ICT, and Medical Devices.
The next call deadline is Nov 26th - http://www.sfi.ie/funding/funding-calls/sfi-industry-fellowship-programme/. Typically there are 2 calls per annum. Companies or researchers interested in prospective applications can contact firstname.lastname@example.org for further information/informal discussions.
Research roles with Dr Cathal Kearney, RCSI
2 Postdoc and 2 PhD positions are available with Dr Cathal Kearney in RCSI arising from his ERC Horizon 2020 Starter Grant funded in the area of biomaterial scaffold development for diabetic foot ulcers. There are several parallel arms to the project that will look at aspects of scaffold design, on-demand drug delivery, nucleic acid delivery and induced pluripotent stem cells.
Postdoc – iPSCs and Scaffold - https://my.corehr.com/pls/coreportal_rcsip/erq_jobspec_details_form.jobspec?p_id=013127
Postdoc – biomaterials - https://my.corehr.com/pls/coreportal_rcsip/erq_jobspec_details_form.jobspec?p_id=013126
PhD – iPSCs and Scaffold - https://my.corehr.com/pls/coreportal_rcsip/erq_jobspec_details_form.jobspec?p_id=013125
PhD – On Demand Delivery - https://my.corehr.com/pls/coreportal_rcsip/erq_jobspec_details_form.jobspec?p_id=013145
EDGE Post-Doctoral Fellowships
EDGE is led by Trinity College Dublin on behalf of 10 Irish academic institutions of excellence. In our 3rd call we expect to award up to 28 Fellowships, each 24-months duration, who will relocate to Ireland to join expert supervisors in the ICT (networks, date and materials) field. Career progression is a primary aim of MSCA schemes, and we will provide comprehensive training and development to our Fellows to support their growth as independent research professionals. Researchers currently residing outside of Ireland, with a PhD or equivalent status, can apply by submitting a research proposal before the Call deadline on 1st November 2018.
Before beginning the application process, applicants should:
1. review the eligibility criteria and other information on our website - http://www.edge-research.eu
2. contact a prospective supervisor from those listed on the programme website to gain their support
- Future Networks & Communications
- Advanced Materials & Bioengineering
- Digital Content & Media Technologies
Full topic list: http://edge-research.eu/fellowships/research-themes/
Contact: Kevin J Fraser, EDGE Programme Manager: email@example.com
This project has received funding from the European Union’s Horizon 2020 research and innovation programme under the Marie Skłodowska-Curie grant agreement No. 713567.