Hosting Department: Biological Sciences

The Minor in Forensic Science aims to provide students with an understanding of the fundamental concepts and principles behind the application of scientific techniques to forensic investigations and to the criminal justice system. Advances in basic scientific research have had a rapid and dramatic impact in these fields and it is only through an understanding of these fundamental scientific concepts that the legal system may be effective in criminal investigations.This Minor offers a strong complementary training in criminal justice to students from all disciplines. Undergraduates from all Faculties/Schools are welcome to apply.

To be awarded the Minor, the following requirements are to be fulfilled:

Minor in Forensic Science Requirements (24MC)
Essential Modules – Pass the following 3 modules (3 x 4MC = 12MC)
LSM1306 Forensic Science
CM3301 Advanced Forensic Science
SP3202 Evidence in Forensic Science
Elective Modules – Pass 12MC from the following list of modules, including:
a) A maximum of 4MC from Level 1000 modules
b) A minimum of 4MC from Level 4000 modules (for Cohorts AY17/18 onwards) 
SP4261 Articulating Probability and Statistics in Court {New – See Annex}
SP4262 Forensic Human Identification {New – See Annex}
SP4263 Forensic Toxicology and Poisons {New – See Annex}
SP4264 Criminalistics: Evidence and Proof {New – See Annex}
[This is a 2MC module. Please complete an equivalent of 12MC of elective modules for the purpose of Minor requirements fulfilment.]
SP4265 Criminalistics: Forgery Exposé with Forensic Science {New – See Annex}
[This is a 2MC module. Please complete an equivalent of 12MC of elective modules for the purpose of Minor requirements fulfilment.]
CM2101 Physical Chemistry 2
CM3242 Instrumental Analysis II
LSM1102 Molecular Genetics
LSM3211 Fundamental Pharmacology
LL4362V Advanced Criminal Litigation - Forensics on Trial
PC1141 Introduction to Classical Mechanics
PR1110/A Foundations in Medicinal Chemistry
PR3116 Concepts in Pharmacokinetics & Biopharmaceutics
ST2334 Probability and Statistics; OR MA2216/ST2131 Probability
CM/FST/LSM/MA/PC/PR/ST/ZB3288 Advanced UROPS I (forensic science related; subject to approval of Minor programme coordinator)

Please take note that the double-counting between a Major and this Minor in Forensic Science is up to 8MC or typically two modules only. Please read sufficient additional modules to fulfill the two programmes.



This is a restricted Minor and application is open to undergraduate students from all disciplines. Applicants should have passed or are reading LSM1306 and have obtained or expecting a good grade for the module, and preferably a CAP of at least 3.5. Successful entry to the Minor is subject to approval.

The next round of application is from 3 June to 3 July 2019. Kindly make the submission by 3 July 2019, 5p.m.

Please submit the application to Department of Biological Sciences Administration Office, Block S3 Level 5 (Attn: Mr Lim Miah Kyan).

For enquiry on Minor in Forensic Science, you may contact the Programme Coordinators, Assoc Prof Stella Tan | dbstwls@nus.edu.sg or Dr Chen Litai Jeremiah | chmchlj@nus.edu.sg

The next application window will be in November-December 2019.

Annex: Specially designed modules for Minor in Forensic Science

LSM1306 Forensic Science [4MC]

Crime is one feature of human behaviour that fascinates our community. How crimes impact our society and how crimes are investigated and solved in the Singapore context is the focus of the module. The module is designed to enable students to appreciate why and how crimes are committed, to understand how crimes are solved in Singapore using investigative, and the latest scientific and forensic techniques, and to learn the role of the major stakeholders in the Criminal Justice System. Experts from law, pharmacy, statistics, the Health Sciences Authority and the Singapore Police Force will cover topics related to forensic science.

CM3301 Advanced Forensic Science [4MC; Pre-requisite: LSM1306]

This module covers forensic identification, criminalistics, DNA profiling, narcotics and toxicology. Topics on forensic identification and criminalistics includes crime scene investigation, nature of physical evidence, characteristics of evidence, an in-depth study of glass and fibre as sources of evidence in criminalistics investigations. For DNA profiling, this module would focus on screening methods for biological materials, the various instrumentation platforms and the application of forensic DNA in Singapore crime cases. In narcotics, the topics covered include forensic drug analysis and legislation, clandestine drug manufacturing, drug metabolism and analysis of urine for drug abuse. For toxicology, an in-depth study of toxicological analysis will be covered.

SP3202 Evidence in Forensic Science [4MC; Pre-requisite: LSM1306]

This module introduces students to Singapore’s basic criminal laws, evidence and procedures. The module also focuses on the scene of the crime and evidence found there. Topics include crime scene protocols, recognition, collection and preservation of evidence.

SP4261 Articulating Probability and Statistics in Court [4MC; Pre-requisite: LSM1306]

Probability and statistics provide powerful tools for quantifying the weight of forensic evidence. These quantities often come along with associated assumptions and need to be interpreted and articulated in a manner that is easily understood. Students will learn the necessary probability and statistical techniques in quantifying forensic evidence and error evaluation metrics. The fallacies and errors in interpreting results of selected forensic topics such as paternity testing and representative drug sampling will be covered. Additionally, students will learn the art of articulating these quantitative findings to non-scientists through real case studies involving DNA evidence, illegal drugs, forensic toxicology and criminalistics.

SP4262 Forensic Human Identification [4MC; Pre-requisite: LSM1306]

Ever wondered how DNA Evidence makes its way from the crime scene to the courtroom? This module is delivered in an interactive seminar-style format, where students will experience first-hand challenges and practical usage relating to Forensic DNA Evidence. Students will undergo practicals to learn the entire chain of forensic DNA techniques, from collection, characterisation, and storage to processing DNA Evidence. Students will also play the role of expert witnesses for the prosecution or defence based on evidence gathered at mock trials. Students will appreciate the importance of DNA as part of a toolkit used for individualisation in forensic investigations.

SP4263 Forensic Toxicology and Poisons [4MC; Pre-requisite: LSM1306; Preclusion: LSM4211]

Ever wondered how much of the coffee you consumed is subsequently metabolised? Find out using forensic toxicology! This multi-disciplinary module aims to support medical and legal investigation into the cause of death, poisoning and adverse responses to substances. Drawing from the foundational principles in toxicokinetics, students will be able to (1) study the physicochemical properties of substances and their effect(s) on the host and (2) consider the toxicological outcomes of exposure due to the unique handling of substances by organ systems. The lectures will conclude with real-life applications led by practitioners.

SP4264 Criminalistics: Evidence and Proof [2MC; Pre-requisite: LSM1306]

The central dogma of Forensic Science is “every contact leaves a trace”, popularly known as the Locard’s principle. However, in reality, juxtaposed against this central dogma is that evidence of absence is not necessary absence of evidence. To scintillate the bridge between science and law, which is exactly what forensic science is, this interactive module will be taught in three parts, 1)proof beyond a reasonable doubt; 2) not all evidence are proof; and 3) evidence of absence is not absence of evidence.

SP4265 Criminalistics: Forgery Exposé with Forensic Science [2MC; Pre-requisite: LSM1306]

Forgery is a perennial problem and exists everywhere – in fake jewellery, counterfeit medications, fake death to scam insurance, fake signatures. The question this module seeks is how do we use forensic science to expose forgery for justice to be meted out. Students will learn fundamental scientific concepts and will apply them in case studies, such as establishing anachronism in cheques and wills; determining whether the person is dead or alive when an insurance payout for his death was made and if the gold bars which were stolen were indeed gold.