1. The Programme Contents
Students are required to complete at least 60 credits which include:
A. 9 credits of the General University Requirements (GUR) as follows:-
General University Requirement (GUR) (compulsory)
For details, please refer to OUS website |
No. of Credits
|
Remarks
|
| Cluster Area Requirements (CAR) |
| CAR (M): Chinese History and Culture |
3 |
CAR (M) subject should fulfill the Chinese Reading and Writing Requirements. |
| Specially-designed CAR (A): English Language subject with embedded English Reading and Writing Requirements |
3 |
| Other requirements |
Service-Learning
|
3 |
|
ABCT1Q01:
GE Essential Components (non-credit bearing) |
Nil |
Online module containing components on National Education, Online Tutorial in Academic Integrity, Artificaial Intelligence and Data Analytics (AIDA) and Innovation and Entrepreneurship (IE). |
| Sub-total: |
9 credits |
| |
| Additional Language and Communication Requirements (LCR) |
| Students not meeting the equivalent standard of the Undergraduate Degree Language Communication Requirements (LCR) based on their previous studies in AD/HD programmes and their academic performance will be required to take additional credits (6 in English and 3 in Chinese) on top of the programme's normal credit requirements. |
B. Major Study Requirement as follows:-
(I) Discipline-Specific Core Subjects
|
Subject
|
No. of Credits |
Subject Code |
Level |
Basic Statistics
|
2 |
AMA1006 |
1 |
| Calculus and Linear Algebra |
3 |
AMA1007 |
1 |
| Physics I |
3 |
AP10005 |
1 |
English for Scientific Communication
|
2 |
ELC3121 |
3 |
Chinese Communication for Science Professionals
|
2 |
CLC2211P |
2 |
General Biology
|
3 |
ABCT1102 |
1 |
General Laboratory Techniques and Safety
|
3 |
ABCT1103 |
1 |
| General Chemistry I |
3 |
ABCT1741 |
1 |
| General Chemistry II |
3 |
ABCT1742 |
1 |
| Introductory Cell Biology and Biochemistry |
3 |
ABCT2312 |
2 |
| Analytical Chemistry I |
3 |
ABCT2701 |
2 |
| Organic Chemistry I |
3 |
ABCT2742 |
2 |
Introductory Physical Chemistry /
Physical Chemistry I^
|
2/3^ |
ABCT2772/
ABCT2712 |
2 |
| Chemistry Laboratory I |
1 |
ABCT2774 |
2 |
| Chemistry Laboratory II |
2 |
ABCT2705 |
2 |
| Inorganic Chemistry I |
3 |
ABCT2706 |
2 |
| Analytical Chemistry II |
3 |
ABCT3741 |
3 |
| Analytical Chemistry II Laboratory |
1 |
ABCT3759 |
3 |
| Organic Chemistry II |
3 |
ABCT3742 |
3 |
Organic Chemistry II Laboratory
|
2 |
ABCT3707 |
3 |
| Introduction to Chemical and Bioprocess Technology |
3 |
ABCT3747 |
3 |
| Intermediate Physical Chemistry |
3 |
ABCT3708 |
3 |
| Inorganic Chemistry II |
3 |
ABCT3779 |
3 |
| Inorganic Chemistry II Laboratory |
2 |
ABCT3780 |
3 |
| Physical Chemistry III |
2 |
ABCT4712 |
4 |
| Physical Chemistry Laboratory |
1 |
ABCT4713 |
4 |
| Subtotal |
64 |
|
|
(II) Capstone Project of 6 credits
A student must complete the 6-credit Project or Research Project.
| Subject |
No. of Credits |
Subject Code |
Level |
Project
|
6 |
ABCT4709 |
4 |
| Research Project |
6 |
ABCT4770 |
4 |
(III) 21 credits of Discipline-Specific Elective Subjects
Students must complete at least 18 credits of Discipline-Specific Elective Subjects from the List 1 and at least 3 credits from List 2.
List 1
| Subject |
No. of Credits |
Subject Code |
Level |
Offering semester3 |
Microbiology
|
3 |
ABCT2134 |
2 |
1 |
| Environmental Science |
3 |
ABCT3103 |
3 |
1 |
| Principles of Quality Assurance |
3 |
ABCT4708 |
4 |
1 |
| Industrial Electrochemistry |
3 |
ABCT4741 |
4 |
1 |
Advanced Analytical Techniques
|
3 |
ABCT4743 |
4 |
1 |
| Economic Analysis for Process Technology |
3 |
ABCT4765 |
4 |
1 |
| Natural Products Chemistry |
3 |
ABCT4779 |
4 |
1 |
| Management & Organisation |
3 |
MM2021 |
2 |
1 & 2 |
| Consumer Behaviour |
3 |
MM3721 |
3 |
1 |
| |
| Food Chemistry |
3 |
ABCT3402 |
3 |
2 |
| Medicinal Chemistry |
3 |
ABCT4762 |
4 |
2 |
| Polymer Chemistry and Nanotechnology |
3 |
ABCT4740 |
4 |
2 |
| Organometallic Chemistry & Catalysis |
3 |
ABCT4745 |
4 |
2 |
| Food Processing Technology |
3 |
ABCT4747 |
4 |
2 |
Pollution Control & Environmental Analysis
|
3 |
ABCT4757 |
4 |
2 |
| Chemical & Bioprocess Technology |
3 |
ABCT4777 |
4 |
2 |
List 2
| Subject |
No. of Credits |
Subject Code |
Level |
Offering semester3 |
| Industrial Electrochemistry Laboratory |
1 |
ABCT4760 |
4 |
1 |
| Advanced Analytical Techniques Laboratory |
1 |
ABCT4758 |
4 |
1 |
| |
| Polymer Laboratory |
1 |
ABCT4763 |
4 |
2 |
| Organometallic Chemistry & Catalysis Laboratory |
1 |
ABCT4759 |
4 |
2 |
| Pollution Control & Environmental Analysis Laboratory |
1 |
ABCT4774 |
4 |
2 |
| Chemical & Bioprocess Technology Laboratory |
2 |
ABCT4778 |
4 |
2 |
(IV) Work-Integrated Education
Students are required to complete 2 training credits, equivalent to 120 working hours. The grade for WIE component will be “Pass” or “Fail” and will not contribute to the GPA calculation.
All credits-bearing subjects taken by students shall be counted towards GPA. However, only subjects within the curriculum shall be counted towards AGPA.
2 Suggested pattern of progression for study in the stage 3 and stage 4 of the programme is given as follows:
Stage 1*
| Semester 1 |
| Subject Code |
Subject Title |
Number
of
Credits |
Core or
Elective |
Discipline Specific
or
General University
Requirement |
| ABCT2706 |
Inorganic Chemistry I |
3 |
C |
D |
| ABCT3742 |
Organic Chemistry II |
3 |
C |
D |
| ABCT3707 |
Organic Chemistry II Laboratory |
3 |
C |
D |
| ABCT3708 |
Intermediate Physical Chemistry |
2 |
C |
D |
| ABCT3747 |
Introduction to Chemical and Bioprocess Technology |
3 |
C |
D |
| ABCT2312 |
Introductory Cell Biology and Biochemistry |
3 |
C |
D |
ABCT1Q01
|
GE Essential Components |
Nil |
C |
G |
|
Total |
17 |
|
|
| Semester 2 |
| ABCT3779 |
Inorganic Chemistry II |
3 |
C |
D |
| ABCT3780 |
Inorganic Chemistry II Laboratory |
2 |
C |
D |
| ABCT3741 |
Analytical Chemistry II |
3 |
C |
D |
| ABCT3759 |
Analytical Chemistry II Laboratory |
1 |
C |
D |
| CLC2211P |
Chinese Communication for Science
Professionals ^ |
2 |
C |
D |
| ELC3121 |
English for Scientific Communication ^ |
| XX.YYYY |
Discipline-Specific Elective subject |
3 |
E |
D |
|
Service Learning |
3 |
C |
G |
| ABCT1Q01 |
GE Essential Components |
Nil |
C |
G |
|
Total |
17 |
|
|
| Summer Semester |
|
CAR♣ |
3 |
C |
G |
|
Total |
3 |
|
|
* Students might need to complete Level 1 and Level 2 subjects listed under Discipline-Spectific Core
Subjects in Stage 1 depends on their final proof of entrance qualification.
^ Students will be assigned either ELC3121 English for Scientific Communication or CLC2211P Chinese
Communication for Science Professionals depends on their final proof of entrance qualification.
♣ The time for taking GUR subjects (except GE Essential Components) is flexible and could be adjusted
according to the students’ own progress. CAR subjects in the two cluster areas can be taken at any stage
and at any order.
Stage 2
| Semester 1 |
| Subject Code |
Subject Title |
Number
of
Credits |
Core or
Elective |
Discipline Specific
or
General University
Requirement |
| ABCT4709 or ABCT4770 |
Project or Research Project |
6 |
C |
D |
| |
CAR♣
|
3 |
C |
G |
| XX.YYYY |
Discipline-Specific Elective subjects |
6 |
E |
D |
|
Total |
15 |
|
|
| Semester 2 |
| ABCT4712 |
Physical Chemistry III |
2 |
C |
D |
| ABCT4773 |
Advanced Physical Chemistry Laboratory |
1 |
C |
D |
| XX.YYYY |
Discipline-Specific Elective subjects |
12 |
E |
D |
|
Total |
15 |
|
|
3. Subject aims, learning outcomes, mode of study, teaching/learning approach,
assessment and other details are listed in subject description forms.
4. For students following the progression pattern specified for their programme,
they have to take the number of credits and subjects, as specified in the
Programme Requirement Document, for each semester. Students cannot drop
those subjects assigned by the department unless prior approval has been given
by the department.
5. Subject to the maximum study load of 21 credits per semester and the
availability of study places, students are allowed to take additional subjects on
top of the prescribed credit requirement for award before they become eligible
for graduation. Students can take additional subjects from within or outside their
programme curriculum. They can choose freely from any subject (unless they
are barred because of pre-requisites), and these free electives need not be only
those from a list prescribed by the Department.
6. The minimum number of credits required for graduation from this programme
is 60, including the mandatory 9 credits of GUR. In addition, students must
satisfy other prevailing university (and programme) requirements for graduation.
7. On top of the formal curriculum, students are required to complete a Work�Integrated Education (WIE) component in their programme of study. WIE is
intended to provide students with an exposure and working experience in
sciences-related industrial/commercial sectors or in areas deemed as appropriate
by the WIE Group.
7.1 On completion of WIE, students will be able to achieve one or more of
the following WIE learning outcomes:
(i) acquire practical experience
(ii) integrate knowledge and link up theories with practice
(iii) have effective communication skills
Depending on the different job nature, and the contract between
individual student and the company, students may also acquire the
following outcomes:
(iv) have critical thinking and analytical mind
(v) have effective information management skills
(vi) function as a competent member in a multi-disciplinary team
(vii) learn and acquire the ethical standards in the professional
attributes
7.2 WIE component is mandatory. Students who do not complete this
component satisfactorily will not be considered for the graduation
award. Students are required to complete 2 training credits, each
equivalent to 60 working hours.
7.3 The attainment of intended learning outcomes will be assessed based on
student’s reports and employer/supervisor’s evaluations. Exemption
may be considered and to be approved by the WIE Group if student can
provide evidence of sufficient experience of working in the related
fields.
7.4 The WIE can be in different formats deemed appropriate by the WIE
Group. These should include, but not limited to, internship,
block placement, cooperative project, research exchange, community
service, summer jobs and part-time employments secured by
students themselves, which are relevant to students’ future profession
or to the development of generic skills as required by the analytical
science professions.
