Education & Training
Summer Course

SCELSE Summer Course 2017 (27 June – 15 July)

 

About the Course


Click HERE to download the Summer Course Schedule (tentative)

Click HERE to download the Summer Course Brochure

Click HERE to apply

Our understanding of the microbial world is undergoing multiple paradigm shifts. Microbes are no longer viewed as free living, single-celled organisms. Instead there is a growing realisation that they reside in dynamically structured communities of multiple species embedded in a polymeric matrix, which we define as biofilms. Their communal activity is substantially different from the summation of the individual member species or their variants. The majority of the members of such communities cannot grow independently, such that classical reductionist approaches of pre-culture laboratory studies are of limited value. To understand the activity of biofilms and their member species we must, therefore, resolve to study the community using a complex system approach. 

These paradigm shifts make it necessary for us to revisit applications of microbes in engineering processes, human health and environmental contexts, an endeavour made possible through the concurrent rapid and exciting developments in life sciences, including those of meta-'omics, systems biology, high resolution imaging, nanotechnology and materials sciences. Use of such a multidisciplinary platform for exploring the biology of microbial biofilms, will allow for the development of new environmental engineering tools for informed manipulation of the biological processes from within, rather than the current use of external control tools. The latter requires large-scale engineering platforms catering to the requirements of stable bioprocesses with little knowledge of the biology of the microbial biofilms. 

As evident from above, a new spectrum of graduate level students, investigators and practitioners in environmental engineering with good insights into contemporary life sciences is needed to ensure environmental sustainability under exponentially increasing environmental stresses. These experts will be in a position to safeguard urban as well as environmental sustainability and safeguard human well-being in increasingly stress-impacted habitats.

 


 

Aims

This course aims to provide participants with the following benefits:

  • awareness of our current state of knowledge of microbial systems
  • understanding of the frontiers of life sciences that can be applied to an enhanced understanding of the default mode of microbial life in biofilms and to harness such microbial activities to efficiently recycle natural resources, provide pure water, control health risks and ensure sustainable environment for future generations; and
  • access to a platform for the young professionals in this emerging field to interact and provide an international network to share their knowledge.

 


 

Guest Teachers

This three-week course brings together world-renowned scientists and engineers including SCELSE scientific leaders, and guest experts. Participants will interact with these experienced mentors in their interdisciplinary approach to understand and harness the biology of biofilms in environmental, health and industrial applications. The course consists of:

  • structured core lectures;
  • topical seminars;
  • guided discussions on specialised topics and case studies;
  • international and regional perspectives;
  • exposure to the progress made by Singapore for its water resources.

Learning outcomes involve understanding mechanisms and processes using quantitative approaches. This knowledge will be used to help design experiments that can yield information for developing new technologies or solving problems in the engineered environments. 

The course is held in the midst of NTU's rich, green campus. The course format provides ample opportunities for the participants to interact closely with the mentors in small groups and informal settings.

 


 

Application process

Applicants with strong and demonstrated interest in exploring interdisciplinary approaches to address complex scientific scenarios will be preferred. The course is open for students worldwide currently pursuing graduate programs or those graduated within the last three years in engineering or sciences including life sciences, chemical or physical sciences. Applicants from Asia are highly encouraged.

Admission to the course is competitive with restricted number of places. Successful international applicants will receive housing, meals and some allowances. Additional financial support will be provided to partially cover travel.

 



Application deadline: 15 April 2017

Kindly ensure that you have the following documents before you fill the application form:

  • Curriculum vitae bearing your most recent passport-sized photograph;
  • A scanned copy of your passport;
  • A scanned copy of your GRE results (if applicable);
  • A scanned copy of your TOEFL results (if applicable - for applicants whose degree is from a university where English is not the main medium of instruction);
  • A scanned copy of your educational certificates and transcripts or other relevant documents;
  • A PDF copy of your statement of purpose (not exceeding 1000 words);
  • All documents must bear your name.

Applicants should arrange for two letters of recommendation/reference. All application forms must be filled in English. If the supporting documents are not in English, it must be accompanied by copies of the English translation of the documents. Should you give inaccurate details or suppress any material information, your application or the subsequent offer will be declared void.

Only successful applicants will be notified via email before 31 May 2017.

Click HERE to apply