15 Online Chemistry Summer Programs for High School Students

November 9, 2024

If you're a high schooler with an interest in chemistry, enrolling in an online summer program can help you gain hands-on experience in the field! These programs will allow you to build your knowledge, work with industry professionals, and learn about current trends in chemistry, all while participating from home.

Through these programs, you can explore various career paths in chemistry, including biochemistry, materials science, chemical engineering, and environmental chemistry, helping you discover where your interests may lie.

Participating in an online chemistry program not only demonstrates your dedication to the subject but also shows admission officers your ability to apply theoretical knowledge in practical settings. Moreover, it allows you to connect with expert mentors, which could lead to future job opportunities or letters of recommendation.

In this blog, we’ve compiled a list of 15 online chemistry summer programs for high school students for you to explore!

1. Horizon Academic Research Program (HARP) — Chemistry Track

Subject Areas: Chemistry, biophysics, history, data science, network science, neuroscience, sociology, psychology, machine learning, political theory, environmental health and engineering, behavioral economics, international relations, and philosophy, among others.

Location: Virtual

Cost: You can get the exact cost by filling out an interest form here.

Application Deadline: May 21, 2024, for the summer cohort and September 25, 2024, for the fall cohort.

Dates:

Summer seminar: June 24–September 2, 2024
Fall seminar: October 23, 2024–February 19, 2025
Horizon Labs offers flexible start dates, but applications need to be submitted at least 4 weeks before the desired start date.

Eligibility: High school students with a GPA of 3.67 or higher are eligible to apply, with most admitted students being in 10th or 11th grade. Certain tracks may have additional prerequisites, which are outlined in more detail here.

Horizon offers trimester-long research programs for high school students in a wide range of fields, including biomedical engineering, chemistry, data science, machine learning, neuroscience, political theory, and psychology. It is one of the few programs where students can engage in both quantitative and qualitative research. For students with a focus on chemistry, the Formulation Chemistry course offers great opportunities, such as applying machine learning to predict chemical reactions or material properties or conducting comprehensive literature reviews on challenges that lie at the intersection of formulation chemistry and materials science.

Once you choose your subject track and research type, you will be paired with a professor or Ph.D. scholar from a popular university, who will mentor you throughout the research process. You will work towards producing a 20-page university-level research paper, which can be submitted to academic journals for potential publication. This program provides an opportunity to conduct specialized research under expert guidance. Additionally, you will receive a letter of recommendation and detailed feedback on your work, which can be helpful for future research projects and college applications. You can apply here!

2. Ladder Internship Program

Subject Areas: Chemistry, technology, machine learning, media, healthcare, journalism, AI, environmental science, business, sustainability, engineering, medicine, marketing, computer science, and more.

Location: Virtual

Cost: Starts at $2,490; financial aid is available.

Application Deadline: Deadlines vary depending on the cohort.

Dates: Programs lasting 8–16 weeks are available throughout the year, with multiple cohorts offered during the spring, summer, fall, and winter sessions.

Eligibility: The program is available to high school students, undergraduates, and gap year students who can work 5–15 hours per week for 8–16 weeks.

Ladder Internships, a selective program established by Harvard alumni, connects high school students with startups and nonprofits around the globe for virtual internships. You have the option to choose from a wide variety of fields, including chemistry, technology, computer science, engineering, machine learning, AI, environmental science, business, marketing, healthcare, sustainability, medicine, media, journalism, and more.

As an intern, you will engage in meaningful projects that align with the mission of the startup or nonprofit, culminating in a presentation of your work at the program's conclusion. The internship provides personalized training in essential skills such as communication and time management, along with group training sessions with other interns. You will be paired with a manager at the startup and a Ladder coach, who will serve as an additional mentor. You can explore all available options through their application form.

3. Lumiere Research Scholar Program

Subject Areas: Chemistry, physics, psychology, engineering, data science, environmental science, medicine, entrepreneurship, business, computer science, biology, economics, international relations, gender studies, and more.

Location: Virtual

Cost: Starts at $2,990; financial aid is available!

Application Deadline: Deadlines differ depending on the cohort. The main summer deadlines are March 17, April 14, and May 12, with the final deadline for the summer cohort in June.

Dates: The summer cohort typically runs from June to August, with program lengths ranging from 12 weeks to 1 year.

Eligibility: High school students with an unweighted GPA of 3.3 on a 4.0 scale can apply.

The Lumiere Research Scholar Program is designed for high school students and offers tailored research opportunities across a range of subjects. This initiative pairs students with Ph.D. mentors who provide individualized support for independent research projects.

Throughout the program, you will work with your research mentor and a writing coach to select and refine your research topic. In addition to individual mentoring sessions, you will engage in workshops focused on the research process. For 12 weeks, you will concentrate on your selected topic and ultimately create an independent research paper. Research areas available include chemistry, psychology, computer science, physics, engineering, international relations, data science, economics, and others. More information about the application process can be found here.

4. Stanford Pre-Collegiate Summer Institutes—Chemical and Environmental Engineering

Subject Areas: Chemical engineering, environmental engineering, renewable energy, and biomanufacturing.

Location: Virtual (synchronous lectures)

Cost: The total cost is $3,050, and some courses might require the purchase of additional materials, like course readers or textbooks, which could cost up to $100. Need-based financial aid is available.

Application Deadline: March 29, 2024; TBA for 2025

Dates:

Session 1: June 17–June 28, 2024
Session 2: July 8–July 19, 2024
Dates TBA for 2025

Eligibility: Students in grades 9 to 11 are eligible to apply. However, some courses may have restrictions related to specific grade level ranges.

Stanford University’s Pre-College Summer Institutes offer a 2-week virtual program for high school students worldwide, allowing you to choose from 60 online courses in fields such as chemistry, social justice, philosophy, computer science, math, creative writing, and engineering. You may enroll in only one course each summer, and these courses do not provide academic credit.

One good option is the Chemical and Environmental Engineering course, which covers fundamental engineering principles for analyzing chemical processes, with a focus on energy and environmental issues. The course meets online for two hours each day, allowing you to develop your skills and learn from both your instructors and peers. Throughout the program, you will diagram processes, convert variables, and establish material and energy balances for steady-state solutions. You'll also get to apply these concepts to real-world challenges like renewable energy and wastewater purification. The course concludes with interactive assignments and a student-led group project, offering a practical learning experience. There will also be seminars, workshops, and activities available for you to participate in during your free time. After the program, you will receive a written evaluation and a certificate of completion. The program accepts only 16 students per class.

5. ASPIRE by the Johns Hopkins University

Subject Areas: Chemistry, planetary science, cybersecurity, engineering, computer science, biology, physics, mathematics, information technology, and data analysis.

Location: Virtual or in-person at Johns Hopkins University Applied Physics Laboratory, Laurel, MD

Cost/Stipend: The program is free for all accepted participants, but it is an unpaid opportunity.

Application Deadline: February 15, 2024; TBA for 2025

Dates:

Summer session: June 25–August 22, 2024; TBA for 2025
Academic year session: September 16–May 2025; the exact dates are TBA.

Eligibility: High school juniors and seniors, aged 15 or older, with a minimum GPA of 2.8, are eligible to apply. The applicants must also be permanent residents of the Washington-Baltimore metropolitan region.

The ASPIRE program, offered by Johns Hopkins University’s Applied Physics Laboratory, gives high school juniors and seniors a chance to explore STEM careers before choosing a college major. During the program, you will be paired with lab staff to work on projects that will help you develop both technical and interpersonal skills. The program offers both in-person and virtual internships, with virtual participants working entirely online, aside from in-person onboarding, equipment returns, and troubleshooting.

When applying, you’ll select your area of interest, but your mentor and project will be assigned by the program. You can choose from subjects like biology, chemistry, computer science, engineering, information technology, cybersecurity, mathematics, data analysis, physics, and planetary science. Mentors will review your application based on your chosen field, and your secondary area of interest may also be considered if a project requires specific skills. With an acceptance rate of about 15%-20%, this program provides valuable opportunities to explore career paths and gain hands-on experience in various STEM fields.

6. Secondary School Program at Harvard University—Biochemical Engineering and Synthetic Life

Subject Areas: Biochemical engineering, synthetic biology, genetic and metabolic engineering.

Location: Online synchronous sessions will be held through live attendance via web conferencing.

Cost: $3,900 (4 credits) + $75 application fee. Financial aid is available.

Application Deadline:

Early application deadline: January 8, 2025
Regular application deadline: February 12, 2025
Late application deadline: April 9, 2025, or earlier if all course waitlists reach full capacity.

Dates: June 21–August 9, 2025

Eligibility: High school students aged 16–19 with a biology and chemistry background who will graduate in 2025, 2026, or 2027 can apply.

Harvard Summer School's Secondary School Program (SSP) is an academic opportunity lasting 4 or 7 weeks that allows high school students to take college-level courses for credit. You can choose from more than 200 courses across various fields. During the 7-week online session, you will participate in live classes through web conferencing or access recorded lectures at your convenience. Recorded sessions are typically available within a few hours after class and no later than the following business day.

In the Biochemical Engineering and Synthetic Life course, you will study the key concepts of biochemical engineering, including biological principles, the flow of genetic information in living systems, the fundamental components of cells, and the pathways and control mechanisms within them. The course will also introduce you to fields such as synthetic biology that allow engineers to create entirely new cells. Throughout the course, you will investigate genetic and metabolic engineering, applying these ideas to real-world issues in areas such as specialty chemicals, nutrition, global health, environmental remediation, and sustainability. You will also gain an understanding of the science behind creating designer molecules like pharmaceuticals, plastics, and biofuels. Enrollment is limited to 40 students in this course.

7. NASA’s Office of STEM Engagement (OSTEM) Internships

Subject Areas: Aeronautics, astronomy, Chemistry, technology, ecology, engineering, space science, outreach and communications, space microbiology, and robotics.

Location: Interns may work either remotely or on-site at one of NASA's 10 field centers located throughout the country, depending on the project.

Cost/Stipend: Participation is free; interns may receive a stipend that varies according to their academic level and the length of the session.

Application Deadline:

Spring 2025: August 23, 2024
Summer 2025: February 28, 2025
Fall 2025: May 16, 2025

Dates: These internships are offered in three sessions, with specific dates differing depending on the opportunity:

Fall (16-week program, from late August or early September to mid-December)
Spring (16-week program, from mid-January to early May)
Summer (10-week program, from late May or early June to August).

Eligibility: Applicants must be U.S. citizens and have a cumulative GPA of at least 3.0 on a 4.0 scale. They must also be full-time students (from high school through graduate level) or part-time college students enrolled in at least 6 semester hours. Additionally, applicants must be at least 16 years old at the time of application, with no exceptions.

NASA’s Office of STEM Engagement (OSTEM) offers paid internships for high school and college students where they receive training, mentorship, and career development while gaining exposure to professionals in fields such as science, engineering, finance, IT, and business. These internships encompass a range of subjects, including space science, chemistry, engineering, aeronautics, astronomy, technology, space microbiology, robotics, ecology, and outreach and communications. For those interested in chemistry or chemical engineering, opportunities are available to work with the PolCube CubeSat polarimeter, where you will learn to utilize polarimetry, a passive remote-sensing technique, to analyze atmospheric aerosols. You can also choose to work with nuclear materials and NASA's space nuclear propulsion applications.

You will have the chance to design experiments, analyze mission data, and develop innovative technologies while collaborating closely with a researcher or in a small group on a current NASA project. Responsibilities may involve recording and analyzing data, monitoring the movements of celestial bodies using advanced telescopes and other astronomical equipment, and providing assistance with mission preparations. Additionally, you will have the opportunity to attend lectures from astronauts and other experts in various fields of astronomy. This experience will equip you with skills that will help prepare you for undergraduate studies and your future career. You can explore available internship opportunities by using the ‘Filter’ option to view those that are open to high school students.

8. Project SEED Summer Program by American Chemical Society

Subject Areas: Chemistry, lab work, research, and career preparation.

Location: The program offers both in-person and virtual research projects for students. You can check here for lab locations.

Cost/Stipend: There is no cost to participate, and interns receive a stipend of $4,000.

Application Deadline: April 10, 2024; TBA for 2025

Dates: The program usually lasts 8 to 10 weeks from June to August; TBA for 2025

Eligibility:

High school sophomores, juniors, seniors, and recent graduates who have completed at least one high school chemistry course can apply.
Preference is given to students whose family income is at or below 300% of the Federal Poverty Guidelines, adjusted for family size.
Project SEED provides several options to document eligibility, which can be found here!

Project SEED is a paid summer fellowship program designed for high school students, providing hands-on laboratory experience in chemistry research. If you are accepted, you will spend 8 to 10 weeks, Monday through Friday, working 8 hours each day at a research lab located at a university, government lab, or another facility. You will have the opportunity to work on a project either independently or in collaboration with other students, and you will write a report or prepare a poster at the end of the summer. The program primarily focuses on supporting students from underrepresented communities and offers over 350 internships and summer camps to assist with college applications.

As an intern, you will work on a self-selected project under the supervision of a qualified mentor from academia or industry. Additional benefits may include field trips, campus tours, career panels, and opportunities for professional development. The program is intended to prepare you for college and a career in chemistry, and it may also provide the opportunity to present your research at the American Chemical Society National Meeting. Furthermore, Project SEED offers virtual summer camps that focus on college readiness, professional development, lab preparedness, and exposure to career paths related to chemistry.

9. George Mason University’s Aspiring Scientists Summer Internship Program

Subject Areas: Chemistry, computer science, health, engineering, business, forensic science, data sciences, finance, biology, biochemistry, geography, environmental science, mathematics, physics, astronomy, and more.

Location: Internships are available in fully remote and hybrid formats, with in-person opportunities also offered at George Mason University in Fairfax, VA.

Cost/Stipend: Participation in the program is free, except for a $25 application fee, which may be waived depending on financial need. However, transportation and housing costs are not included, and the internship is unpaid.

Application Deadline: Applications for the 2025 ASSIP program will open on December 2, 2024, and close on February 2, 2025.

Dates: June 18–August 8, 2025

Eligibility:

Interns for remote internships must be at least 15 years old by the program start date.
Interns for in-person or hybrid internships in computer labs must also be at least 15 years old by the program start date.
For in-person or hybrid wet-lab internships, interns must be at least 16 years old by the program start date.

The Aspiring Scientists Summer Internship Program offers high school students the opportunity to work closely with faculty researchers at George Mason University on their research projects. Throughout the 8-week internship, you will acquire hands-on experience with advanced technologies and equipment, enhance your scientific writing and communication skills, explore STEM career paths through discussions and meetings with industry professionals, and apply creative problem-solving, an essential aspect of innovative research.

Previous chemistry-related projects have included research on antibiotic development, measuring Volatile Organic Compounds (VOC), assessing heterogeneity in purified recombinant proteins, and creating atomically layered heterostructures for use as electrochemical dopamine sensors. You can view past research projects from the Department of Chemistry and Biochemistry here. here.

10. Columbia University's Online Summer Pre-College Programs—Introduction to the Physical Sciences

Subject Areas: Chemistry, physics, electromagnetic radiation, quantum mechanics, special relativity, and gravitation.

Location: Virtual

Cost:

The fee for a single course registration is $3,960 per session, which includes the course fee along with activity, health services, and technology fees.
Students who are accepted into the 2-week online program may enroll in more than one course, with each additional 2-week course costing $3,850.
There is an $80 application fee, along with course-specific fees that may vary.
Additionally, students should budget at least $50 for course materials, such as textbooks and supplies.

Application Deadline: Applications are closed for 2024; TBA for 2025

Dates:

Session A: July 1–July 12, 2024
Session B: July 15–July 26, 2024
Dates TBA for 2025

Eligibility: High school students entering grades 9 through 12 in the fall are eligible to apply.

Columbia University's Online Summer Pre-College Programs provide students worldwide with the chance to engage through academic instruction, student life activities, and informative college success events. You can choose to enroll in either a 2-week program, a 1-week program, or both, selecting from over 40 courses in various subject areas. Participants will join virtual classrooms to take part in discussions, debates, simulations, individual and group projects, and Student Life workshops.

For those interested in chemistry, the “Introduction to the Physical Sciences” course can be a good option. This 2-week course covers the foundations of physics and chemistry from a contemporary perspective. It includes lectures, discussions, and simulations focused on topics such as electromagnetic radiation, spectroscopy, elementary particles, quantum mechanics of atoms, special relativity, and gravitation. You will also engage in virtual experiments that primarily explore the interference of electromagnetic waves, the orbital motion of planets, and conservation laws. Upon successful completion, you will receive a Columbia University Certification of Participation and written evaluations from your instructors, which can assist you in the college application process.

11. Yale University's Summer Sessions—Chemistry Courses

Subject Areas: Chemistry, chemical engineering, thermodynamics, statistical thermodynamics, cyclic processes, chemical reactions, and phase equilibria.

Location: Virtual or in-person at Yale University, New Haven, CT

Cost:

Tuition: $5,070
Technology fee: $85
Application fee: $75 (non-refundable)

Application Deadline:

For Session A: May 10, 2024
For Session B: June 14, 2024
The 2025 application will open in mid-January 2025.

Dates:

Session A: May 27–June 28, 2024
Session B: July 1–August 2, 2024

Eligibility:

Students who will be entering their senior year of high school or their freshman year of college and who are at least 16 years old by the program start date can apply.
Current high school sophomores are not eligible.
Certain courses are not available to pre-college students; please check the individual course descriptions for more details.

Yale University's Summer Sessions provides motivated high school students the chance to enroll in Yale College courses for credit. While taking these courses, you will attend classes alongside college students and engage in college-level assignments. You may enroll in a maximum of two courses per session. Online courses include weekly live seminars and lectures with discussion sessions. These courses incorporate both synchronous and asynchronous activities, allowing for conversation, feedback, and interaction with faculty. Each course earns one Yale College credit, equivalent to four credit hours. Online coursework requires attendance at live classes during the 5 weeks; it is not solely self-paced. You should expect to work approximately 15-20 hours per week for each course.

For students interested in chemistry or chemical engineering, the online courses Introduction to Green Energy Systems (GES) and Engineering Improv: An Introduction to Engineering Analysis are great options. The Introduction to Green Energy Systems (GES) course focuses on environmental sustainability and explores how green energy can help reduce the effects of greenhouse gases and global warming. Meanwhile, the Engineering Improv: An Introduction to Engineering Analysis course provides a foundational overview of engineering analysis and principles of chemical engineering. Each course is limited to 25 students.

12. Summer@Brown Online—Factory to Faucet: Environmental Toxicology and Chemistry

Subject Areas: Environmental toxicology and chemistry.

Location: Online (asynchronous) through Canvas, Brown’s learning management system

Cost: $3,094

Application Deadline: May 10, 2024; TBA for 2025

Dates:

June 24–July 5, 2024
Dates TBA for 2025

Eligibility: Students who are completing grades 9 to 12 and are aged 14–18 can apply. Completion of high school biology and chemistry is highly recommended.

Summer@Brown Online provides high school students with the opportunity to choose from over 80 courses, offering engaging college-level learning experiences without the pressure of grades or credits. In addition to academic courses, the program includes workshops, activities, and events beyond the classroom.

In the “Factory to Faucet: Environmental Toxicology and Chemistry” course, you'll explore how pollutants move through the environment and their impact on animals and humans. Through real-world examples and case studies, you'll examine how pollution enters and spreads in the environment, its effects on habitats and organisms from the cellular to the population level, and its implications for ecosystems and human communities. The course integrates virtual labs, scientific literature, lectures, and optional live sessions. You'll gain a multidisciplinary understanding of environmental toxicology and how different fields of knowledge come together to address today's environmental challenges.

13. Harvard University’s Secondary School Program—Chemistry in Context

Subject Areas: Chemistry, stoichiometry, chemical bonding, energy, thermochemistry, nuclear chemistry, electrochemistry, polymers, and more.

Location: Online synchronous or asynchronous sessions will be held through flexible attendance web conferences.

Cost: $3,900 (4 credits) + $75 application fee. Financial aid is available.

Application Deadline:

Early application deadline: January 8, 2025
Regular application deadline: February 12, 2025
Late application deadline: April 9, 2025, or earlier if all course waitlists reach full capacity.

Dates: June 21–August 9, 2025

Eligibility: High school students aged 16–19 with knowledge of algebra and geometry who are set to graduate in 2025, 2026, or 2027 are eligible to apply.

The “Chemistry in Context” course offers an introduction to general chemistry within the framework of social, environmental, technological, and health issues. It is designed for students with minimal chemistry background, as well as those looking to enhance their fundamental understanding of the subject. Topics include atomic structures and properties, stoichiometry, solutions, chemical bonding, energy, thermochemistry, nuclear chemistry, electrochemistry, polymers, chemical equilibrium, basic acids and bases, and an introductory examination of the aspects of the quantum world that influence our everyday lives.

14. Johns Hopkins University's Pre-College Summer Programs—Applications of Chemistry in Medicine

Subject Areas: Medicine, health, biology, and chemistry.

Location: Online (asynchronous)

Cost:

Tuition: $1,950 for one-credit course
Application fee: $85 (non-refundable)
Financial assistance is available.

Application Deadline: Applications are closed for the 2024 program; TBA for 2025

Dates:

Session 1: June 24–July 5, 2024
Session 2: July 8–July 19, 2024
Session 3: July 22–August 2, 2024
Dates TBA for 2025

Eligibility: Students who have completed 9th grade before the program start date and maintain a minimum cumulative GPA of 3.0 on a 4.0 scale are eligible to apply. A background in chemistry and biology is strongly recommended for applicants.

Johns Hopkins University's Pre-College Summer Programs offer opportunities for high school students to learn from Hopkins instructors and engage with peers from around the world. The programs offer a range of courses in medical, neuroscience, and psychology fields, aimed at expanding your knowledge, enhancing your college applications, and earning academic credit. If you choose online sessions, you’ll study at your own pace while participating in virtual activities and connecting with the student community. You can attend multiple sessions. Although primarily delivered asynchronously, instructors may schedule live interactions, and your syllabus will outline these opportunities and key deadlines. You can expect to dedicate around 15 hours per week to your coursework.

In the "Applications of Chemistry in Medicine" course, you’ll explore chemistry’s significant contributions to fields such as health care, medicine, pharmaceutical sciences, materials science, and forensic chemistry. The course will also cover chemistry’s role in industries like pharmaceuticals, cosmetics, and oil and natural gas. Focusing on chemistry's applications in medicine and pharmaceutical sciences, this online course is mostly asynchronous, but your instructor will offer chances for synchronous sessions like office hours, group discussions, and additional lectures. In 2024, this course was available exclusively online during sessions 2 and 3.

15. UChicago’s Summer College—Comprehensive General Chemistry 1

Subject Areas: Physical sciences, chemistry, thermodynamics, electrochemistry, kinetics, quantum mechanics, nuclear chemistry, and more.

Location: Online (synchronous)

Cost: The cost of the program is $4,635. Need-based financial aid is available, offering support ranging from $500 to $3,500 for eligible students enrolled in Summer College.

Application Deadline:

Priority deadline: January 18, 2024
Regular deadline: March 5, 2024
Extended deadline: April 11, 2024
Dates TBA for 2025

Dates:

June 10–June 28, 2024 (3 weeks)
Dates TBA for 2025

Eligibility: Current high school juniors and seniors are eligible to apply. Applicants must have completed at least one year of high school chemistry and possess a strong foundation in mathematics, ideally with experience in single-variable calculus.

University of Chicago’s Summer College allows high school students to enroll in undergraduate courses from the regular University of Chicago curriculum. These courses can span either three or five weeks. Regardless of the duration, each course equates to a full, 9-week course, with a minimum of 30 contact hours. During the program, you’ll have access to the same academic resources available to UChicago students during the regular school year. Classes are taught by UChicago professors and experienced lecturers. While you can enroll in multiple courses, it's important to ensure they don’t have overlapping schedules.

The "Comprehensive General Chemistry 1" course is for students who have a good understanding of general chemistry. This course will offer you an overview of modern descriptive, inorganic, and physical chemistry. Topics include atomic and molecular theories, chemical periodicity, bonding, equilibria (acid-base, solubility, and phase), thermodynamics, electrochemistry, kinetics, quantum mechanics, and nuclear chemistry. The lab component covers quantitative measurements, properties of key elements and their compounds, and experiments related to common ions and their separation and identification.

16. UCLA’s Summer Sessions—Chemistry Courses

Subject Areas: Organic chemistry, biochemistry, drug discovery, chemical structure, pharmaceuticals, reactivity, synthesis, spectroscopy, and more.

Location: Online

Cost:

Registration fee: $350
Course fees: $385 per unit
IEI fee: $61 (applicable for students without a bachelor’s degree)
Document fee: $50 (for first-time Summer Sessions students)

Application Deadline: Applications are closed for 2024. Dates TBA for 2025.

Dates: Multiple sessions of varying lengths will be available between June 23 and September 12, 2025. You can check the exact dates here.

Eligibility: Students must be at least 15 years old by the program start date to enroll in the summer courses.

UCLA’s Summer Sessions provide high school students with the chance to take college-level courses and earn college credit, allowing them to fulfill future chemistry requirements by completing courses over the summer. High school students can begin enrolling as early as their sophomore year and choose 1-2 courses from an approved list. Chemistry courses span a variety of fields, such as biochemistry, organic chemistry, drug discovery, chemical structure, pharmaceuticals, and the structure of organic molecules.

For students interested in chemistry, some courses to consider include CHEM 14A: General Chemistry for Life Scientists, CHEM 30A: Organic Chemistry I (Structure and Reactivity), and CHEM 20A: Chemical Structure. Depending on your background knowledge, any of these courses can offer a strong introduction to college-level chemistry, providing an opportunity to advance beyond typical high school studies. The program includes 9 different sessions, running from July to September, with courses lasting from 3 to 10 weeks.