UCD Chemistry & Chemical Sciences (CCS)
Chemistry with Environmental & Sustainable Chemistry BSc (Hons) (NFQ Level 8)
PhD students Linda Sherry and Elaine Neville studying materials which promote the synthesis of sustainable fuels
CAO Code DN200 CCS
CAO Points Range 2015 510 — 625 Length of Course 4 Years DN200 Places 402
Entry Requirements English ¬ Irish ¬ Mathematics (Min O3/H6 in LC or equivalent) ¬ One laboratory science subject (Min O3/H6 in LC or equivalent. Applied Mathematics or Geography may be used instead of a laboratory science subject.) ¬ Two other recognised subjects
Leaving Certificate You must obtain a minimum of Grade H5 in two subjects and a minimum of Grade O6/ H7 in the remaining four subjects
A-Level/GCSE See
www.ucd.ie/myucd/alevel
Other EU Applicants See
www.ucd.ie/myucd/eu
Non-EU Applicants See
www.ucd.ie/myucd/noneu
Level 5/6 FETAC Entry Routes Yes, see
www.ucd.ie/myucd/fetac
Level 6/7 Progression Routes Yes, see
www.ucd.ie/myucd/hetac
Mature Entry Route Yes, see page 188
Why is this course for me? Two major problems are facing industrialised society. How do we maintain our standards of living without, firstly, using non- renewable resources as sources of energy and as raw materials for manufacturing industries and, secondly, compromising our local and global environment? Chemistry with Environmental & Sustainable Chemistry will be central to solving these problems. This discipline, which draws from all branches of chemistry, will enable us to produce the materials and energy we use through ways that minimise the impact on the environment. Furthermore, it will be crucial in developing a variety of resources (solar power, biofuel synthesis, fuel cells, etc.) for use in renewable energy generation. The degree is suitable for students who have an interest in the use of chemistry in tackling these urgent problems.
What will I study? This is a sample pathway for a degree in Chemistry with Environmental & Sustainable Chemistry.
First Year
Chemistry ¬ Mathematics ¬ Biology ¬ Optional Science modules ¬ Elective modules
Second Year Chemistry, Environmental Chemistry (with modules of Geology and Biology discussing climate change) ¬ + 1 other Science subject ¬
Elective modules
Third Year Physical, Inorganic & Organic Chemistry with optional modules in Geology and Ecology
Other courses of interest Chemistry
Medicinal Chemistry & Chemical Biology
Chemistry with Biophysical Chemistry
�106 �109 �107
108
www.ucd.ie/myucd/ environmentalandsustainable chemistry
Fourth Year Environmental & Sustainable Chemistry (includes a research project in an aspect of Environmental & Sustainable Chemistry) ¬ Options will include Green Technologies/ Chemistry in Energy Generation
Dr James Sullivan UCD School of Chemistry Belfield, Dublin 4
james.sullivan@
ucd.ie +353 1 716 2135
facebook.com/UCDScience
All Science courses are full time, with many student timetables running from 9.00am to 5.00pm or later. Depending on the subject choices, a weekly timetable can include lectures, practicals and tutorials.
Assessment varies with each module but may comprise continuous assessment of practicals, written exams and online learning activities.
Career & Graduate Study Opportunities Apart from the disciplines that are available to graduates with a BSc in Chemistry, graduates in Chemistry with Environmental & Sustainable Chemistry will be particularly suited to employment in the environmental and emerging energy industries, including: Commercial environmental analysis ¬ Alternative energy industry ¬ Environmental Protection Agency ¬ ESB ¬ Bord Gáis
Graduates can also pursue a range of MSc or PhD opportunities in Ireland or abroad.
International Study Opportunities Students may apply to spend time studying at the following universities:
– University of Lund, Sweden – University of Virginia, USA – McGill University, Canada
“Using precious non-renewable resources to power our current lifestyle is a situation that, in the medium term, will become too expensive to continue. In parallel with this, environmental legislation is forcing industry to purify effluents before release, or to alter their production methods avoiding pollutant and waste product formation. Finding acceptable solutions to these problems is motivating, inspiring and exceptionally relevant. Currently my research spans Environmental Chemistry, where we study catalysts to remove pollutants from car exhausts, Green Chemistry, where we improve processes used in polymer production, and Chemistry in Sustainable Energy generation, which focuses on materials for solar hydrogen production and storage and synthesis of biofuel.”
Dr James Sullivan Senior Lecturer
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