Doctoral Program

Courses	Research	Total credits
3 credits	0 credits	At least 27 credits Students must complete at least 15 credits of GGS courses (including 6 credits under Designated Electives I and 3 credits under Designated Electives II) and at least 9 credits of courses from participating departments	At least 30 credits	At least 66 credits

Courses

Research

Total credits

Mandatory general

Mandatory major

Electives

3 credits

0 credits

At least 27 credits

Students must complete at least 15 credits of GGS courses (including 6 credits under Designated Electives I and 3 credits under Designated Electives II) and at least 9 credits of courses from participating departments

At least 30 credits

At least 66 credits

View all courses

Mandatory general: 3 credits

Choose one of the following CC courses (3 credits): CC500, CC510, CC511, CC512, CC513, CC522, CC530, CC531, CC532, CC533
CC020 Ethics and Safety

Mandatory major: None

Electives: At least 27 credits

Students must complete at least 15 credits of GGS courses (including 6 credits under Designated Electives I and 3 credits under Designated Electives II) and at least 9 credits of courses from participating departments

Courses offered by GGGS

Students must complete at least 6 credits from the following Designated Electives I (Core Courses)

GGS501

Climate Policy and Finance

GGS502

Energy and Environmental Technology

GGS503

Global Green Growth Strategy

GGS504

Science of Climate Change

Students must complete at least 3 credits from the following Designated Electives II (Project Courses)

GGS511

Project for Carbon Neutrality Technology Systems

GGS512

Project for Green Energy Systems

GGS513

Project for Resource Circulation Technology Systems

GGS514

Project for Carbon Neutrality Assessments

GGGS Electives

GGS521

Integrated Assessment of Global Environmental Issues

GGS531

Computational Social Science Using Energy and Environmental Data

GGS532

Carbon Accounting and Climate Information Disclosure

GGS533

Technical and Economic Evaluation of Green Power Generation Systems

GGS534

Sustainable System Design and Life Cycle Assessment Methodology

GGS541

Microeconomics

GGS542

Green Economy and Policy Analysis

GGS644

Sustainable Finance and Climate Risk Analysis

GGS551

International Climate, Environment, and Trade Law and Policy

GGS552

Climate and Green Technology Law and Policy

GGS571

Special Topics in Green Growth and Sustainability I

GGS621

Climate and Environmental Scenario Assessment Methodology

GGS641

Consumer Behavior and Decision Theory

GGS642

Energy and Resource Economics

GGS643

Advanced Econometrics

GGS645

Sustainable Energy Finance

Courses offered by participating departments

Basic

AI501

Machine Learning for AI

Kim Jaechul Graduate School of Artificial Intelligence

DS501

Statistical Inference for Data Science

KAIST ISysE

CC512

Introduction to Materials Science and Engineering

KAIST DMSE

STP601

Survey in Science, Technology, and Public Policy

KAIST Graduate School of Science and Technology Policy

BTM530

Accounting Principles

BTM KAIST

EE469

Brains, Machines, and Socities

KAIST Electrical Engineering

CD401/402

Multidisciplinary Capstone Design I / II

K-School

CoE491

Special Topics in Smart Convergence

KAIST College of Engineering
Project for Green Energy Systems

ME554

Future energy-utilization engineering

KAIST Mechanical Engineering

CBE571

Energy Engineering

DEPARTMENT OF CHEMICAL & BIOMOLECULAR ENGINEERING

MS626

Physical Properties of Energy Materials

KAIST DMSE

EE464

Electrical Engineering for Green Energy

KAIST Electrical Engineering

EE567

Photovoltaic Power Generation

KAIST Electrical Engineering

M0501

Modeling and Control of Electric Propulsion Systems

Cho Chun Shik Graduate School of Mobility

M0520

Electric Powertrain Engineering

Cho Chun Shik Graduate School of Mobility

M0531

Battery System Modeling and Control

Cho Chun Shik Graduate School of Mobility
Project for Carbon Neutrality Assessments

STP501

Science, Technology, and Global Development

KAIST Graduate School of Science and Technology Policy

MSB535

Technology Management and Corporate Finance

BTM KAIST

MSB635

Investments Theor

BTM KAIST

IE432

Decision Analysis and Risk Management

KAIST ISysE

IE471

Artificial Intelligence for Finance

KAIST ISysE

IE532

Simulation and Modeling

KAIST ISysE
Project for Carbon Neutrality Technology Systems

CBE771

Advanced Electrochemical Engineering

DEPARTMENT OF CHEMICAL & BIOMOLECULAR ENGINEERING

MS526

Semiconductor Photoelectrochemistry: Fundamentals and Energy Applications

KAIST DMSE

MS617

Solid-State Electrochemistry

KAIST DMSE

EE673

Photochemical Materials

KAIST DMSE

EE563

Display Engineering

KAIST Electrical Engineering

EE568

Introduction to Organic Electronics

KAIST Electrical Engineering
Project for Resource Circulation Technology Systems

CE475

Waste Management for Circular Environments

Civil and Environmental Engineering

CE560

Smart and Green Environmental Design

Civil and Environmental Engineering

CE545

Applications of Artificial Intelligence to Transportation System Analyses

Civil and Environmental Engineering

ME312

Energy and Environment

KAIST Mechanical Engineering

EE793

Systems and Applications of Artificial Intelligence and Machine Learning)

KAIST Electrical Engineering

Research: Complete at least 30 credits

Including 2 credits of seminars

Prerequisites

GGS511, GGS512, and GGS513 have the following prerequisite course: GGS502
GGS514 has the following prerequisite course: GGS501

Transitional measures

The above requirements apply to students admitted in fall 2023 or later.

Miscellaneous

Special lectures and regular courses with the same subthemes shall be considered the same even if their course codes are different.

Concentrations

Students must complete at least 12 credits of designated electives to qualify for a concentration