Update: Webinar "Membrane surface functionalization: Why and how?" - Wednesday October 6th at 4:00 PM (CET, Paris time zone)- Mathias Ulbricht

Membrane surface functionalization: Why and how?

In this webinar, the very active research area of membrane surface modification or functionalization will be discussed with emphasis on the needs for special surface properties in real membrane applications. Criteria are modularity, tunability and sustainability of the approaches. One important aspect is the decision about the integration of surface functionalization in the membrane fabrication process or in the usage cycle of a membrane module. The latter option is preferred for a number of long-time continuous membrane operations, but it will require adapted methodologies that allow task-specific functionalization of membranes in modules including methods that are suited for regeneration of the desired functionality.

Prof. Dr. Mathias Ulbricht is full professor for Chemical Technology in the Chemistry Department of University Duisburg-Essen, Germany (www.uni-due.de/tech2chem). His research interests are in the field of functional polymeric as well as nanohybrid materials and have a focus on synthetic membranes and membrane-based technologies for water purification, bioseparation and energy conversion.

 

Date/Time: Wednesday October 6th at 4:00 PM (CET, Paris time zone)

Access: EMS YouTube Channel Live


Patrick Meares Preselection

Results of the first selection

In this year’s edition of the Patrick Meares prize, a committee of EMS Council members evaluated all the proposals received, which results were accepted by all EMS Council members. No Council member with a conflict of interest was part of the evaluation panel.

The evaluation criteria were the 1- Quality of the work (max. 5 points), 2- Impact of the work (related to papers as first author, other papers, oral and poster presentations, patents, …) (max. 5 points) and 3- "Letters of recommendation" (max. 2 points).

It’s important to highlight the high quality of the proposals, which turned the evaluation process very difficult.

The selected 5 shortlisted candidates (not 4, as usual) are shown below (in alphabetical order):

 

Candidate Affiliation Title of Ph.D. thesis
Eleonora Ricci Alma Mater Studiorum, Università de Bologna Thermodynamic and Molecular simulation of Pure and Mixed gas sorption in Polymeric Membranes
Faheem Hassan Akhtar King Abdullah University of Science and Technology Water vapor separation: Development of polymeric and mixed matrix membranes
Francesco Benedetti Alma Mater Studiorum, Università de Bologna Development and detailed characterization of innovative, high performance membrane materials for CO2 capture
Paula Arribas Fernandez Facultad de Ciencias Físicas, Universidad Complutense Madrid Nanostructured, thin film composite and nanocomposite membranes for water treatment
Saravanan Janakiram Faculty of Natural Sciences and Technology, Norwegian University of Science and Technology Nanomaterials enhanced membranes for Carbon capture

 

The 5 shortlisted candidates will present their work in a Patrick Meares Prize Symposium that will be held at the Euromembrane 2021 conference. A panel will evaluate the presentations and nominate the winner of the prize at Euromembrane 2021.


Materials Research Engineer, Donaldson EMEA, Leuven

Location: Leuven, Belgium

Position: Materials Research Engineer

Donaldson is committed to solving the world’s most complex filtration challenges. Employing innovation and breakthrough solutions, we are advancing filtration for a cleaner world. We look for the best people to help us succeed, offering opportunities to learn, effect change, and make meaningful contributions at work and in our communities. This is a place where you can make a world of difference. ​

 

Follow Us on LinkedIn: https://www.linkedin.com/company/donaldson/

Team

The Material Research team, which is a part of TECH center at Donaldson EMEA is looking for a Materials Research Engineer function to support R&D programs within the Polymer Engineering group.

This team is mainly responsible for fundamental understanding of filtration problems and solving customer problems to secure stable or growth areas for Donaldson, associated with various business units (BU’s).

Within the research scope of TECH Center, a Material Research Engineer interacts with various other Donaldson teams such as Corporate Technology in the USA, Engineering departments of different BU’s,as well as external third parties, such as universities, institutes, suppliers and customers.

Responsibilities

The primary responsibility of this role is to develop a new polymer based media or expand the uses of existing microfiltration media to compliment our portfolio of filtration products. As a member of our collaborative teams, you will contribute to our product development through a disciplined process. This role offers an opportunity to contribute in high-visibility, high-impact areas of our businesses.

We are looking for a practical, presize, energetic and self-directed candidate strongly interested in answering fundamental research questions. The candidate will closely interact across Corporate Technology teams in Europe and the USA. Excellent communication, presentation, organization, result oriented working and collaborative mindset are a pre-requisite to thrive in this cross-functional role. Your  responsibilities will be:

  • Filter Media Development, Evaluation & Validation:
    • Assess and develop technical capability for organic polymer based filter media in terms of technical know-how, manufacturing processes and test methods.
    • Hands-on work within a laboratory environment to execute and manage development efforts resulting in commercially valuable technology solutions.
    • Develop expertise in manipulation of polymeric filter media to create robust filters.
    • Maintain a safe work environment and promote safety improvements for existing processes.
    • Develop understanding of the creation and modification of filter media surfaces;
    • Investigate the performance and effect on the quality of final fluid after filtration;
    • Support bringen new filter media concepts to the BU by customizing the solution for specific customer needs;
    • Make use of models and simulations to predict filter media performance/creation
  • Product Engineering support / Consulting:
    • Contribute to presenting new technologies/development to technical community.
    • Provide technical input for business case development within the technology development process
  • Knowledge Management
    • Share understanding of fundamental physico-chemical principles, state of the art technologies and advanced manufacturing techniques with program teams
    • Support Knowledge management for Engineering concerning validation, selection and use of different materials.
    • Collaborate and communicate results to team members and management.
    • Collaborates on IP analysis, writing, and filing.
  • Technologies / Synergies
    • Provides direction on critical problem areas, alternative solutions and potential consequences in the research and development process.
    • Keep up-to-date of new relevant technologies;
    • Identify, recommend and help to deploy new technologies to enhance our products and working practices;
    • Conduct Benchmarking;
    • Stay abreast of broad industry trends to anticipate and develop suitable technology solutions.
  • Plant & Purchasing support
    • Effectively manage the interactions with suppliers, technology partners and customers in the technology development process.

Qualifications

  • Master’s degree in Chemical Engineering or Material Science or Bioscience Engineering.
  • Track record of creativity, innovation and prototyping methods to evaluate new concepts and materials as evidenced by publications, presentations, or patents.
  • 2 years of experience in an engineering position working in team.
  • Technical Skills:
  • Strong knowledge of basic principles in polymer science and filtration required;
  • Experience in membrane development is preferred;
  • Advancedproblem solving and analytical skills;
  • Accurate work
  • Ability to use sound statistical methods for thedesign of experiments and to analyse test results independently
  • Proficiency in English. Good communication skills, both written and verbal;
  • Ability to communicate information to small and large audiences;      

Come make a World of Difference!

Employment opportunities for positions in the United States may require use of information which is subject to the export control regulations of the United States. Hiring decisions for such positions are required by law to be made in compliance with these regulations. Applicants for employment opportunities in other countries must be able to meet the comparable export control requirements of that country and of the United States.

Our policy is to provide equal employment opportunities to all qualified persons without regard to race, gender, color, disability, national origin, age, religion, union affiliation, sexual orientation, veteran status, citizenship, gender identity and/or expression, or other status protected by law.

 

 

Apply: click HERE 

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Call for organizing EUROMEMBRANE 2024

The European Membrane Society (EMS) is keen on supporting scientific or technical events related to membranes and membrane processes. One of the flagships of the Society is the EUROMEMBRANE Conference. Supported by the EMS, EUROMEMBRANE aims to bring together European “membranologists” and colleagues from overseas to discuss in a vibrant and dynamic setting all aspects of research and applications of membrane and membrane processes. EMS, therefore, launches the Call for organizing the EUROMEMBRANE 2024 conference taking place in September 2024.

Application

The application to the EMS Council should specify:

* Description of the facilities for the event and proposed dates;

* The risk assessment that shall include the format of the conference (in person, virtual or hybrid combining either in-person with a virtual component) and the policy of fees cancellation;

* Tentative program including contents and timing;

* Organizing committee, involving at least one of the EMS Council members;

* Scientific committee containing at least one of the EMS Council members;

* Budget outline, including any request for EMS funding or loan, a list of sponsors, and a break-even number. Any outsourcing of organizational work should be included in the budget. Any EMS loan received would be expected to be returned as the first call on excess income over expenses. Additional extra income is to be split evenly between EMS and the organizers. The EMS will not cover losses beyond the EMS funding or loan.

* All rights and duties will be formalized in a contract with the EMS.

* Important websites related to the proposal.

* Short pdf presentation (10 slides max.) about the event (organizer, venue, structure, etc.)

A mandatory condition for granting the organization of the conference is the fulfillment of the requirement that the chair of the EUROMEMBRANE conference will be an academic entity. Private companies can participate in the organization of the conference (to help and support).

Deadline

The deadline for receiving proposals for EUROMEMBRANE 2024 conference is June 30th 2022, 23:59 h Central European Time (CET). The organizers are expected to comply with the Euromembrane guidelines described in the attached document as approved by the EMS Council. Proposals should be sent via email to:

Carla Brazinha (c.brazinha@fct.unl.pt)

Karel Friess (karel.friess@vscht.cz)

Elsa Lasseuguette -EMS secretary (ems@chimie.ups-tlse.fr)

Evaluation

The result will be announced before December 2022, most probably during the closing ceremony of the Euromembrane 2022 conference.

 

 

 


Guide for Applicants and Organizers - EMS Conferences

A short Guide for Applicants for organising an EMS event has been published: Guide Version 2021

It summarizes the principal points you should mention in your application to organise an EMS event and evaluate your application. It is meant to help you prepare the proposal to save time and check that you have considered all relevant aspects to make your proposal and the event a success. This Guide is divided into parts - Part I explains aspects that you should address during your application. Part II describes issues you are expected to follow up on and regularly inform the EMS Council about your successful application. When writing your application, it is recommended to read the information presented in Part II to help make your proposal more complete.

 

 

 


Richard Maling Barrer Medal

Richard Maling Barrer Medal

The Richard Maling Barrer Medal for Membrane Science and Technology, consisting of 10,000 € plus a lifetime membership in the European Membrane Society, is awarded to an individual to recognise outstanding work of exceptional significance in the area of membrane science and technology. Richard Maling Barrer was one of the pioneers in the membrane field with extensive and significant research on membrane material and gas transport. This award is given by the European Membrane Society to honour Professor Barrer memory and to recognise individuals who have made outstanding contributions that have significantly advanced membrane science and technology.

Eligibility

Anyone working in membrane science and technology is eligible to be nominated (except for current Council members of the European Membrane Society).

Nominations

Nominations should be submitted by a current member of the European Membrane Society (EMS), not directly by the nominee. Current members of the EMS Council cannot submit the nominations.

The nomination package should include:

(1) A cover letter describing the nominee’s contribution and its importance to the field of membrane science and technology;

(2) Three additional letters in support of the nomination;

(3) Supporting Materials – a complete list of the nominee’s publications, patents, technical reports etc., and pdf copies of 4 selected essential outputs.

Deadline

The deadline for the complete nomination package submission to the EMS Secretary (via email ems@chimie.ups-tlse.fr) is January 31st 2022, 23:59 h Central European Time (CET).

Evaluation

A panel of referees will review nominations with final decisions made by the EMS Council. An award will only be made if there is a nominee whose contributions are sufficiently outstanding to warrant the prestigious medal. Medal winners will be presented during the Euromembrane 2022 conference.


Air Liquide Membrane Scientist

Location: Advanced Technology Solutions (ATS), Newport, DE, United States

Position: Membrane Scientist

Company presentation

World leader in gases, technologies and services for Industry and Health, Air Liquide is present in 80 countries with approximately 66,000 employees and serves more than 3,6 million customers and patients. Oxygen, nitrogen and hydrogen have been at the core of the company’s activities since its creation in 1902. Air Liquide’s ambition is to be the leader in its industry, delivering long-term performance and acting responsibly.

 

Entity and activity description

The GM&T WBU delivers technological solutions (molecules, equipment  and services) to support the new markets of energy transition, maritime logistics and scientific exploration, in order to accelerate Air Liquide sustainable growth.

To support the energy transition, GM&T brings environmentally friendly solutions to  the clean energy market with hydrogen energy and Bio-Natural Gas for vehicles, refrigerated transport using nitrogen, but also the treatment and injection of Biogas into the energy grid as a local power source.

As a player of the deep tech sector, GM&T commercializes technologies dedicated to Space, Aerospace and scientific exploration. GM&T also supplies gases for players in of the maritime sector and provides logistics for cryogenic transportation by sea of value added molecules, such as helium.

GM&T employs 1,800 people world-wide and generated a 2017 revenue of €372 million.

 

 

Job Responsibilities

The mission of the Advanced Technology Solutions (ATS) group at ALaS Newport is to facilitate innovation of gas separation membranes and cartridges, including membrane manufacturing processes, through new product and process development.  This is achieved through strong competencies in polymer and membrane design, manufacture, characterization, modeling/simulations, and testing.  Technological improvements include the development of the next generation gas separation membranes and cartridges to meet market demand.  The ATS group also serves the manufacturing organization to troubleshoot plant operations as well as customer applications that employ ALaS membranes. 

The Membrane Scientist will provide technical expertise on a range of cross functional projects, including development of novel gas separation membrane materials, development of composite hollow fiber gas separation membranes and scale up of membrane manufacturing processes, while simultaneously supporting and implementing improvements to these processes and equipment.

At times the individual may be called to weigh in on issues related to the operations of these membranes at customer sites.  The individual may also support root cause determination and development of appropriate corrective and preventive actions.

Duties and Responsibilities 

  • Design and develop new and improved composite hollow fiber gas separation membranes
  • Provide technical support and guidance to Sales and Business Development teams
  • Scale up membrane manufacturing process and develop manufacturing procedures
  • Implement new and improved membrane manufacturing processes
  • Provide leadership in safety best practices as appropriate to product and process development, and related activities
  • Evaluate membrane separation performance in support of process development and field tests
  • Troubleshoot composite hollow fiber membrane manufacturing and implement improvements as required
  • Schedule and coordinate projects to align with deadlines, milestones and budgets

 

 

Qualifications & Competencies

Required 

  • MS in Chemical Engineering, with specialization in membrane gas separation processes (PhD preferred but not required)
  • Excellent communication skills
  • 5+ years of hands on experience in gas separation membrane development
  • Demonstrates strong process and operational safety behavior at all times. 
  • Ability to work independently and in small teams, in a way that enhances team dynamics.
  • Ability to lead and manage small to medium projects.
  • Individuals should expect to work in an office, lab, and/or manufacturing environment with modest and part-time support from lab technicians and operators.
  • Hands-on work in the lab and in a production environment as required to execute membrane and cartridge development projects, lead troubleshooting and root cause investigations, etc. 
  • Capable of clear and concise written and verbal communication through reports, status updates, presentations, etc.
  • Able to interface with customers, suppliers, and senior management to positively convey information.
  • Capable of maintaining ongoing and developing new relationships with key technical partners in ALaS, R&D, external contractors, technology partners, etc. 

 

Preferred

  • Fluency in HYSYS and membrane process modeling
  • 5+ years experience in polymer QC, dope preparation, MEDAL technology platform fiber manufacturing processes (e.g., spinning, fiber dehydration, forming, potting, skiving, testing)
  • Expertise in hydrodynamics of coating processes
  • Hands-on capability to comprehensively evaluate and predict membrane performance.
  • A strong technical understanding of all Hollow Fiber Production Steps employed in a Manufacturing Plant. 
  • Stay abreast with technical reports and published literature; alert technical team of new developments, willingness to test out new concepts to improve performance, yield, etc.

Additional Information

Working Conditions

  • The individual’s working environment will vary depending on specific activities on any given day, but generally will rotate between office, laboratory, and membrane manufacturing facility areas.
  • The individual will be required to wear appropriate PPE as mandated by the facility.
  • Occasional business travel may be required (~5-10%) to Woburn MA facility or key suppliers, as appropriate.

 

This position is identified as “safety-sensitive” and is subject to random drug testing in accordance with the current Drug and Alcohol Policy and/or state law.

 

Contact:

Victoria L. Heimann 

Recruiter

Innovation and Development Division (IDD)

victoria.heimann-sc@airliquide.com

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Novo Nordisk Foundation PhD student in Downstream Processing for Extraction and Purification of Intracellular Products

Location: Technical University of Denmark

Type: PhD student

Novo Nordisk Foundation PhD student in Downstream Processing for Extraction and Purification of Intracellular Products

 

 

Job description: 

https://www.kt.dtu.dk/om-os/jobliste/job?id=6e72a5e3-bd12-4ef4-bef2-9ed0a85338f0

 

If you are an ambitious chemical or biochemical engineer who would like to develop your career on a solid basis of knowledge of unit operations for separation and purification of bioproducts with high interest at industrial level, this position funded by Novo Nordisk Foundation is the perfect one to fulfill your dreams and ambitions.

Biomanufacturing is one of the fastest growing fields and a driver for the transition from a fossil-based to a circular bio-based economy and a sustainable future. If you would like to become an expert in this strategically important interdisciplinary field and contribute to the green transition, we have an opportunity for you:

The departments of Chemical and Biochemical Engineering and the Novo Nordisk Foundation Center for Biosustainability (CfB) at the Technical University of Denmark offers a position as a PhD student in the field of downstream processing of biologically-produced polymers. This position will be hosted at the Center for Process and Systems Engineering in close collaboration with the Systems Environmental Microbiology laboratory at CfB working with separation and purification unit operations i.e. liquid-liquid extraction, solid-liquid extraction, filtration, chromatography among others, particularly at pilot plant scale. This PhD project is part of the PhD Program of the Fermentation Based Biomanufacturing (FBM) Initiative at DTU where we educate true biomanufacturing experts with interdisciplinary competences in cell factory-engineering and process engineering with a strong focus on industrial applications.

The FBM Initiative is funded by the Novo Nordisk Foundation, and under this initiative, scientists from DTU Chemical Engineering, DTU Bioengineering, and the Novo Nordisk Foundation Center for Biosustainability work together to engineer new or optimized production hosts or processes and solve the interdisciplinary challenges of large-scale bioproduction. The FBM Initiative’s research infrastructure includes a well-equipped fermentation core with an automation and high-throughput micro-fermentation unit, a pre-pilot plant and a pilot plant. Located in the Copenhagen area, one of the world’s strongest biotech hubs, DTU’s FBM Initiative offers a unique and internationally leading education and research environment with exceptional conditions for biotech career starters.

This is one of six PhD student positions available on the FBM PhD program this year.

The expected starting date is 1st of October 2021.

Responsibilities and qualifications
Your overall focus will be to strengthen the department’s competences within the field of downstream processing, with special focus on the development of novel or improved separation methods and sequences for separation or purification of intracellular products after fermentation. You will work with nearby colleagues, and with both academic and industrial partners in Denmark as well as abroad.

Your primary tasks will be to:

  • Explore and develop new methods or strategies for extraction and separation of products contained in bacterial cells after fermentation at different scales.
  • Design process for high-yield recovery of biopolymers in a green and sustainable fashion.
  • Operate pilot plant equipment and optimize conditions towards recovery and purification of bacterial polyhydroxyalkanoates.
  • Teach and supervise BSc and MSc student projects.

You must have a two-year master’s degree (120 ECTS points) on Chemical or Biochemical Engineering or a similar degree with an academic level equivalent to a two-year master’s degree. The candidate must have previous experience in downstream processing or handling of unit operations, particularly extraction, chromatography or filtration, preferably at pilot plant scale. Previous experience with handling bio-based polymers and/or purification protocols will be also positively assessed.

Approval and Enrolment
The scholarships for the PhD degree are subject to academic approval, and the candidates will be enrolled in one of the general degree programmes at DTU. For information about our enrolment requirements and the general planning of the PhD study programme, please see the DTU PhD Guide.

Assessment
The applications will be assessed based on the qualifications, academic and personal skills of the candidates.

We offer
DTU is a leading technical university globally recognized for the excellence of its research, education, innovation and scientific advice. We offer a rewarding and challenging job in an international environment. We strive for academic excellence in an environment characterized by collegial respect and academic freedom tempered by responsibility.

Salary and appointment terms
The appointment will be based on the collective agreement with the Danish Confederation of Professional Associations. The allowance will be agreed upon with the relevant union. The period of employment is 3 years.

You can read more about career paths at DTU here

Further information
Further information may be obtained from Professor Manuel Pinelo, mp@kt.dtu.dk.

You can read more about the Department of Chemical Engineering at www.kt.dtu.dk/english.

If you are applying from abroad, you may find useful information on working in Denmark and at DTU at DTU – Moving to Denmark.

Application procedure
Your complete online application must be submitted no later than 15 August 2021 (Danish time)Applications must be submitted as one PDF file containing all materials to be given consideration. To apply, please open the link “Apply online”, fill out the online application form, and attach all your materials in English in one PDF file. The file must include:

  • A letter motivating the application (cover letter)
  • Curriculum vitae
  • Grade transcripts and BSc/MSc diploma
  • Excel sheet with translation of grades to the Danish grading system (see guidelines and Excel spreadsheet here – in the right hand column)

Incomplete applications will not be considered. You may apply prior to ob­tai­ning your master’s degree but cannot begin before having received it.

All interested candidates irrespective of age, gender, disability, race, religion or ethnic background are encouraged to apply.

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Post-doctoral position in Chemical Engineering – Reverse Electrodialysis, Lund University, Faculty of Engineering, LTH, Institutionen för kemiteknik

Location: Lund (Sweden)

Type: post-doctoral position, fixed-term employment

Post-doctoral position in Chemical Engineering – Reverse Electrodialysis

 

 

Job description: https://lu.varbi.com/en/what:job/jobID:402049/

 

Subject description

Blue Energy or Salinity Gradient Power is sustainable and environmental friendly power but so far relatively unexplored in Sweden.  Reverse Electrodialysis (RED) is an advanced membrane-based technology utilizing the salinity gradient to generate electric power. To establish this technology further improvements regarding the membrane, module/stack design and process operations are required.  

The Membrane Group at Lund University has many years of experience in membrane processes and is now looking for a new coworker focus on the RED process. The Postdoctoral position will include the development of the module/stack design using CFD and 3-D printing. Optimization operating conditions in terms of temperature, flow rate, concentration and long-term testing using Swedish water sources combined with fouling control.

 

Work duties 

The main duties involved in a post-doctoral position is to conduct research. Teaching may also be included, but up to no more than 20% of working hours. The position shall include the opportunity for three weeks of training in higher education teaching and learning.

Optimization of the Reverse Electrodialysis (RED) module/stack design i.e. spacer design using CFD and 3-D printing. Process optimization and long-term testing of the RED process with special focus on fouling. Teaching in the first, second and third cycles of studies Supervision of degree projects and doctoral students. Actively seeking external research funding Collaboration with industry and wider society Administration related to the work duties listed above Communication of obtained results in the form of publication of scientific articles. Participation in project meetings and contributing to status reports.

 

Qualification requirements 

Appointment to a post-doctoral position requires that the applicant has a PhD, or an international degree deemed equivalent to a PhD, within the subject of the position, completed no more than three years before the last date for applications. Under special circumstances, the doctoral degree can have been completed earlier.

Additional requirements:

  • Very good oral and written proficiency in English.

 

Assessment criteria and other qualifications

 This is a career development position primarily focused on research. The position is intended as an initial step in a career, and the assessment of the applicants will primarily be based on their research qualifications and potential as researchers. Particular emphasis will be placed on research skills within the subject.

For appointments to a post-doctoral position, the following shall form the assessment criteria:

  • A good ability to develop and conduct high quality research.
  • Teaching skills.

Additional assessment criteria:

  • Documented research experience on reverse electrodialysis (RED) and/or electrodialysis (ED)
  • Experience with CFD and 3-D printing for membrane module design.
  • Ability to formulate research ideas within the field.

Consideration will also be given to good collaborative skills, drive and independence, and how the applicant’s experience and skills complement and strengthen ongoing research within the department, and how they stand to contribute to its future development.

More information: 

https://lu.varbi.com/en/what:job/jobID:402049/

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Post doctor position(2 years)developing membrane for harvesting blue energy, Umeå University, Faculty of Science and Technology, Sweden

Location: Umeå (Sweden)

Type: post-doctoral position, fixed-term employment

Post doctor position(2 years)developing membrane for harvesting blue energy

Umeå University is one of Sweden’s largest institutions of higher education with over 35,000 students and 4,200 faculty and staff. We are characterised by world-leading research in several scientific fields and a multitude of educations ranked highly in international comparison. Umeå University is also the site of the pioneering discovery of the CRISPR-Cas9 genetic scissors – a revolution in genetic engineering that has been awarded the Nobel Prize in Chemistry.

At Umeå University, everything is nearby. Our cohesive campus environment makes it easy to meet, collaborate and exchange knowledge, which promotes a dynamic and open culture where we rejoice in each other’s successes.

The Department of Chemistry offers a postdoctoral position in the field of Technical Chemistry that will mainly work on developing and testing membranes for harvesting blue energy based on Swedish natural and artificial water resources. The postdoctoral project includes the theoretical estimation of extractable energy, testing and characterizing the commercial membranes, synthesizing polymers, characterizing new membranes, and applying the prepared membranes for blue energy production. Last day to apply is July 31th 2021.

 

Project description

Our research group is focused on the design and synthesis of artificial membranes for gas separation, energy storage, and production. Currently, we focuses on designing and synthesizing new polymeric membranes for harvesting blue energy. In collaboration with Professor Frank Lipnizki research group at Lund University, we are going to develop a robust system for harvesting blue energy based on Swedish natural and artificial resources. The project is interdisciplinary, and the postdoctoral candidate will have the opportunity to plan and develop routes to synthesize novel membranes. The research involves the theoretical calculations for estimating the extractable energy, design, synthesis, and testing of new membranes, characterizing the membrane, and applying the prepared membrane in a lab scale unit.

 

Working tasks
The postdoctoral project includes the theoretical estimation of extractable energy, designing, synthesizing, characterizing new polymeric membranes, and testing them in a lab-scale setup to produce the blue energy. Furthermore, commercial membranes from several companies need to be evaluated. The promising membranes will be tested in the pilot-scale setup that we are planning to build at Lund University for this purpose. As a postdoc, you will contribute with your knowledge to the research group, summarize the research and present your progress at group meetings. The employment is full-time for a period of two years, starting at a date decided in agreement between the two parties.

 

Qualifications

The required qualification is a doctoral degree or a foreign degree that is deemed equivalent in chemistry in the field of polymer chemistry, chemical engineering or equivalent. Priority should be given to candidates who have completed their doctoral degree no more than three years before the closing date of the application. A candidate who has completed their degree prior to this may be considered if special circumstances exist. Special circumstances include absence due to illness, parental leave or clinical practice, appointments of trust in trade unions or similar circumstances. These must be clearly stated in the application.

You must have good knowledge of polymer chemistry, thermodynamic, membrane fabrication, membrane characterization, and application in energy production. As well as a documented good ability to conduct research and present it in writing in the form of scientific publications in expert-reviewed journals. You must be able to independently develop multistage syntheses and solve challenging synthetic problems in order to efficiently design, produce and characterize new membranes.

A desire to conduct research in a multidisciplinary project and in an environment that promotes collaboration between people with different skills, as well as excellent oral and written knowledge of English is required. We are looking for a highly motivated candidate. It is important that you are creative and have the ability and interest to co-operate with other team members.

 

More information:

https://umu.varbi.com/en/what:job/jobID:404769/

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