B.S. in Laboratory Science

Learn Laboratory Science on the Coast of Maine

Like a precisely focused microscope, 色香视频鈥檚 Bachelor of Science in Laboratory Science concentrates on classic and state-of-the-art lab technique and instrumental methodology, giving you a firm grounding in chemistry, biology, and biochemistry. By taking a broad spectrum of lab courses, you鈥檒l develop a comprehensive repertoire of skills that will serve you well in a variety of modern lab settings, including academic, medical, or industrial labs.

A laboratory science student in a white coat and gloves prepares slides underneath a microscope

Why 色香视频 for Your B.S. in Laboratory Science

Ranked a 鈥淗igh Research Activity鈥 university by the Carnegie Classification, 色香视频 boasts all the advantages and resources that you would expect at a large institution. Yet we provide a small, intimate college environment that gives you the one-on-one attention and access to sophisticated equipment that are uncommon at the undergraduate level. The Laboratory Science major offers:

  • Training in state-of-the-art lab techniques
  • Abundant local internship opportunities
  • Focus on independent experimental design
  • Proximity to health professions programs
  • Formal and informal peer mentoring
  • Teaching assistantships
Headshot of U N E student Peter Swanson

Peter Swanson 鈥24

Applied Mathematics, Chemistry, Biophysics

Why 色香视频

I enjoy how there is such an emphasis on teaching and research in my math and science classes. The department is smaller than a larger state school, so you get to know all of [your professors] on a personal level. They are here to mentor you. A lot of [my professors] stress the importance of guided gradual learning instead of just aiming for that perfect GPA. This is the thing that has helped me the most.

I鈥檝e been able to get out of my comfort zone by presenting posters on research that [I鈥檝e done] with my professors. The encouragement from faculty has better prepared me for graduate school and boosted my resume.

My favorite thing about 色香视频 is the accessibility to such high-quality research labs. I have done research under two different mentors. One project studies protein biomaterials [and] the other looks into computational modeling of supercritical carbon dioxide.

Beautiful Locations

I like how [色香视频鈥檚 campus] is small and quaint. It鈥檚 a little secluded outside of the city and right on the water. We have many things to do outside here. There is access to go hiking nearby, and you have the beach right here. A friend and I started back up the rowing team [after it was inactive for a few years] where we can practice here [on the Saco River].

My favorite thing about 色香视频 is the accessibility to such high-quality research labs. I have done research under two different mentors. One project studies protein biomaterials [and] the other looks into computational modeling of supercritical carbon dioxide.

Applied Mathematics, Chemistry, Biophysics

What will you study? Laboratory Science Degree Curriculum Overview

B.S. in Laboratory Science Courses

The following are some examples of the exciting courses that you can take:

  • Biochemistry
  • Microbiology
  • Physical Chemistry
  • Advanced Lab
  • Instrumental Analysis
  • Parasitology
  • Advanced Biochemistry Lab
  • Quantitative Analysis
  • Histology
  • Human Anatomy, Physiology, and Pathophysiology

Curriculum

CAS Core RequirementsCredits
Total Credits43
Program Required CoursesCredits
BIO 105/105L 鈥 Biology I w/LabCredits Fulfilled by Core Requirements
BIO 106/106L 鈥 Biology II w/Lab4
BIO 214/214L 鈥 Genetics w/Lab4
BIO 232/232L 鈥 Microbiology w/Lab4
BIO 365/365L 鈥 Immunology w/Lab4
BIO 370 鈥 Cell and Molecular Biology3
CHE 150/150L 鈥 University General Chemistry I w/Lab*4
CHE 151/151L 鈥 University General Chemistry II w/Lab*4
CHE 250/250L/250S 鈥 University Organic Chemistry I w/Lab and LabLecture*5
CHE 307/307L 鈥 Quantitative Analysis w/Lab5
CHE 310/310L 鈥 Fundamentals of Biochemistry w/Lab4
CHE 417/417L 鈥 Instrumental Methods of Analysis w/Lab4
MAT 190 鈥 Calculus IFulfilled by Core Requirements
PHY 210 鈥 University Physics I*4
Total Credits49
Select a minimum of three (3) courses from the followingCredits
BIO 203/203L 鈥 Histology w/Lab4
BIO 204/204L 鈥 Parasitology w/Lab4
BIO 245/245L 鈥 Gen Prin of Human Anat, Phys and Path I w/Lab4
BIO 345/345L 鈥 Gen Prin of Human Anat, Phys and Path II w/Lab5
CHE 251/251L/251S 鈥 University Organic Chemistry II w/Lab and LabLecture*5
CHE 450 鈥 Advanced Biochemistry Lab3
PHY 211 鈥 University Physics II*4
Total Credits11鈥14
Open Elective Credits (as needed to reach 120 credits)**Variable
Minimum Total Required Credits120

*Matriculated majors are expected to enroll in the University course sequences for general chemistry, organic chemistry, and physics. The following substitutions may be made with department permission: CHE 110 for CHE 150; CHE 111 for CHE 151; CHE 210 for CHE 250; CHE 211 for CHE 251; PHY 110 for PHY 210; and/or PHY 111 for PHY 211.

**Recommended Elective Courses are BIO 330/330L 鈥 Comparative Vertebrate Anatomy w/Lab (if BIO 245/345 not selected), MAT 150 鈥 Statistics for Life Sciences and MAT 195 鈥 Calculus II

Students in this major can participate in the pre-health graduate school preparation tracks.

To learn more about the program see the Academic Catalog.

Honors Program

We offer qualified students the option of graduating with Honors. This includes significant research, scholarship or creative activity under the direction of a faculty member. Interested students should consult with their advisor.

Career Paths for B.S. in Laboratory Science Majors

Whether you鈥檙e destined for a career in medical technology, quality control, biotechnology, or pharmacology, your major in Laboratory Science will provide the knowledge, laboratory skills, analytical abilities, and internship experience you need to succeed.

As a Laboratory Science graduate, there are many professions that you may explore, including:

  • Biotechnology Researcher
  • Biomedical Scientist
  • Laboratory Technician
  • Clinical Research Associate
  • Research Scientist
  • Teacher
  • Science Journalist
  • Toxicologist
  • Forensic Scientist
  • Phlebotomist

Career Advising for B.S. in Laboratory Science Students

Whether you have a specific career goal in mind or a vague idea of the field that interests you, Career Advising is here to help you plan your next step.

Laboratory Science Facilities

Our Laboratory Science program is housed in Peter and Cecile Morgane Hall, with additional teaching and research laboratories in the Harold Alfond Center for Health Sciences and biochemistry research laboratories in the Pickus Center for Biomedical Research. All of the facilities are located on our beautiful seaside campus in Biddeford.

Morgane Hall houses the general chemistry, general physics, and biochemistry teaching labs as well as some small research labs. The advanced chemistry teaching and research labs are located on the third floor of the Alfond Center and the first floor of the Pickus Center. Pickus has flexible biochemistry research space, where you work with faculty using a wide range of modern chemical and biochemical instrumentation in facilities designed to be conducive to learning and research productivity.

Experiential Learning in the Bachelor鈥檚 Degree in Laboratory Science

In our Laboratory Science program, you鈥檒l engage in hands-on learning by working with faculty on research projects, conducting your own lab experiments, and getting on-the-job experience through internships 鈥 because at 色香视频 we believe in learning by doing.

Internships for Laboratory Science Majors 

You may complete an internship over the summer at sites including hospitals, private or government labs, educational institutions, or science centers. Or intern during the academic year with one of the prestigious employers with which we partner:

  • IDEXX
  • Lonza
  • Jackson Laboratories
  • Envirologix
  • Katahdin Labs

For more information email the Academic and Career Advising Center at advising@une.edu.

Research for Laboratory Science Students

We offer a breadth of research opportunities not commonly found at the undergraduate level 鈥 from synthesizing bioactive compounds and engineering protein materials to synthesizing small  molecule drugs and exploring environmental toxicology,

  • Collaborate with faculty on innovative research
  • Engage in undergraduate research in your coursework
  • Perform paid research
  • Present at conferences and publish your findings
Amy M. Deveau, Organic and Medicinal Chemistry

There are three ongoing research projects in Amy Deveau's (Dr. D) lab:

  1. The design and synthesis of naltrexol derivatives for use as pain and addiction therapies
  2. The synthesis and biological characterization of tryptophan-based DNA intercalators
  3. The synthesis of medicinally active, nitrogen-containing compounds using green Suzuki Coupling methodology, and the extension of these experiments to the undergraduate organic lab curriculum.

Overall, Dr. D is passionate about finding ways to interest students in science and in learning new ways to integrate teaching and research in the classroom (i.e. chemical pedagogy).

Headshot of Amy Deveau
Director, School of Molecular and Physical Sciences
Professor, Chemistry
Stephen Fox, Inorganic Chemistry

Along with interested 色香视频 students and scholars, Dr. Fox plans to:

  • Continue to characterize the physical and structural properties of the dicopper(I) model and its derivatives
  • Further customize the naphthyridine with electron-donating groups to enhance the reactivity of the dicopper(I) center; selectively remove/replace the bridging groups to investigate the utility of the dicopper(I) center as a catalyst for reactions such as aziridination
  • Investigate factors influencing the metal-metal separation through theoretical computational studies.
Amy Keirstead, Physical Organic Chemistry and Photochemistry

Research in Amy Keirstead's (Dr. K) group covers a wide variety of traditional areas, from synthetic organic chemistry to photochemistry, spectroscopy, materials science and green chemistry, and undergraduate students will gain experience in all of these areas. Two major pieces of equipment are used for this research: a photochemical reaction chamber, which is a steady-state instrument, and a nanosecond laser flash photolysis system, which uses a nanosecond laser and fast detection system to monitor reactions as they happen on the nanosecond to millisecond time scale.

Headshot of Amy Keirstead
Associate Dean, College of Arts and Sciences
Associate Professor, Chemistry
Jerome Mullin, Analytical Chemistry

Several areas of research are being explored in Dr. Mullin's laboratory. One area is focused on the determination of heavy metal distributions in sediments from the Gulf of Maine, local rivers, and the Bering Sea, in an attempt to evaluate current levels of heavy metal pollution and identify degrees and sources of anthropogenic inputs of these elements. Of particular interest are the baseline heavy metal distributions in the Bering Sea, a relatively sparsely populated area of high primary productivity still considered to be largely unpolluted. Metals that have been determined to date, using atomic absorption spectroscopy and anodic stripping voltammetry, include cadmium, lead, and chromium.

Another area of research involves the spectroscopic and electrochemical characterization of a series of Group-14 and 15 metallacyclopentadienes (metalloles). These interesting compounds, which have unusual photoluminescence properties, show promise as monomeric units for the design of conducting polymers, for use in energy-transfer applications, as emitting species in light-emitting diodes (LEDs), and as components of chemical sensors. Luminescence quantum yields for the compounds recently have been determined and luminescence quenching studies are ongoing. Of special interest is the dramatic aggregation-induced emission (AIE) exhibited by many of these compounds, in which luminescence yields are increased by over two orders of magnitude compared to the unaggregated compounds. Current directions in this research also include the development of substituted metalloles designed for increased water solubility, improved luminescence yields, and for use as luminescent probes.

Photoluminescence is also the subject of research involving compounds containing a rare earth ion, e.g., Tb(III), Eu(III), or Dy(III) and the dicyanoaurate or dicyanoargentate ions. These compounds appear to have energy transfer characteristics that lead to "tunable" excitation of rare earth photoluminescence.

Other areas of interest include the development of fiber-optic probes based on fluorescence and/or chemiluminescence and the development of a chemiluminescence-based immunoassay system for the determination of trace amounts of dioxins.

Recent Grant Support: National Science Foundation, U.S. Fish and Wildlife Service, EOSAT Corporation, Pittsburgh Conference Memorial National Grants Program, American Chemical Society (ACS) Petroleum Research Fund (PRF), University of New England.

Jerome Mullin
Professor of Chemistry
Ludcke Chair 2013
Deena Small, Biochemistry

One major research area in Dr. Small鈥檚 laboratory is the investigation of how proteins belonging to the Jagged1/Notch and Fibroblast Growth Factor (FGF) families interact and regulate adipocyte differentiation in response to hormones such as insulin. Since adipose tissue development and function is also dependent on the ability of the mature fat cells to secure a vascular system that will support its metabolic requirements, the study also includes analysis of Jagged1/Notch and FGF interactions as a regulator of angiogenesis- the formation of new blood vessels from the existing vasculature.

The second research project in The Small Laboratory is a toxicology study that characterizes the effects that Polybrominated Diphenyl Ethers (PBDEs), chemicals used as flame retardants in a variety of household goods, have on mesenchymal stem cell differentiation. In particular, research is focused on analyzing the effects that these endocrine-disrupting chemicals have on mesenchymal stem cell growth dynamics and their ability to differentiate into adipocytes and osteoblasts. These studies also document the impact that early PBDE exposure has on the formation of adipose and bone. The ultimate goal of both projects is to understand the connection that these signaling mediators have on human health and disease. Both research projects use a combination of cell culture and in vivo biomedical models such as the mouse and zebrafish. Techniques include standard biochemical/molecular biology methods including quantitative RT-PCR, immunoblot, and ELISA. In addition, Dr. Small employs molecular techniques such as cloning to produce transgenic mice and zebrafish for the studies. These projects involve collaborations with scientists from 色香视频, Maine Medical Center Research Institute, SUNY Geneseo, University of Maine, Bates College and University of Quebec, Montreal.

Deena Small
Associate Professor of Chemistry
John Stubbs, Physical Chemistry

The first area is focused on DNA sensor microarray technology, which is composed of single-stranded DNA oligomers bound to a surface. The development of this technology relies on knowledge of DNA denaturation or "melting" and hybridization transitions, and their sensitivity to many variables has left several questions unanswered, such as the mechanism by which changes in physical environment between solution and bound DNA act to influence hybridization, or competitive adsorption of nearly identical sequences.

The second area attempts to improve upon separation technology using fairly innocuous materials such as supercritical carbon dioxide and polyethylene glycol to achieve what traditional processes do with more detrimental materials. Molecular simulations allow the modeling of such systems with the goal of optimizing solvation conditions and is done by carrying out calculations with varying thermodynamic (e.g. temperature and/or pressure) conditions and compositions.

James Vesenka, Physics

"Dr. V鈥 conducts research in the self-assembly process of four-stranded 鈥淕-wire鈥 DNA using scanning probe microscopy (SPM). He is interested in understanding the kinetics of the self-assembly process and the interaction of the G-wire DNA with substrates and double-stranded DNA. G-wires make exciting candidates for possible nano-electronic devices, so he is interested in their electronic properties and the ability to manipulate the self-assembled structures at the microscopic level with the SPM. With the advent of fast local area networks he has safely connected the sensitive SPM to the noisy environment of the introductory physics lab using virtual network computing.

Dr. V also conducts research in the area of physics pedagogy. He is developing more effective means for teaching introductory physics through the use of multiple representation learning tools, also called 鈥渕odeling,鈥 which includes better student evaluation procedures. He has organized two workshops to train pre-service and in-service science teachers in Maine and California for the summer of 2000.

Grant support: Research Corporation, National Science Foundation, Maine Mathematics and Science Alliance.

Laboratory Science FAQ

What is a laboratory science major?

A major in laboratory science is all about preparing students for work in a variety of modern laboratory settings, ranging from biotechnology labs to quality control labs to academic, medical, or industrial research labs.

色香视频 offers a Bachelor of Science (B.S.) degree program in Laboratory Science, preparing graduates for careers in modern laboratory settings, including biotechnology, quality control, research, and academic or medical labs. The major focuses on classic and state-of-the-art lab techniques and instrumental methodology, providing a strong foundation in chemistry, biology, and biochemistry.

Learn more about the Bachelor of Science (B.S.) Degree in Laboratory Science at 色香视频

What can you do with a laboratory science degree?

Whether you鈥檙e destined for a career in medical technology, quality control, biotechnology, or pharmacology, majoring in Laboratory Science will provide the knowledge, laboratory skills, analytical abilities, and internship experience you need to thrive.

Graduates of 色香视频's B.S. in Laboratory Sciences undergraduate degree program have embarked on diverse career paths holding positions such as biotechnology researchers, biomedical scientists, laboratory technicians, clinical research associates, research scientists, teachers, science journalists, toxicologists, forensic scientists, and phlebotomists.

色香视频 students are encouraged to utilize the resources available at our Academic and Career Advising Center. It doesn鈥檛 matter if you have a clear career goal or just a general interest in a field.

Learn more about Career Advising at 色香视频

What are the courses under a laboratory science degree?

A laboratory science degree encompasses a wide range of laboratory courses in chemistry, biochemistry, and biology. The goal is to furnish graduates with a comprehensive set of relevant laboratory skills that can be effectively applied across various sectors, including chemical, biological, and medical industries.

The following are some examples of the exciting courses that you can take as a Laboratory Science major at 色香视频:

  • Biochemistry
  • Microbiology
  • Physical Chemistry
  • Advanced Lab
  • Instrumental Analysis
  • Parasitology
  • Advanced Biochemistry Lab
  • Quantitative Analysis
  • Histology
  • Human Anatomy, Physiology, and Pathophysiology

Learn more about 色香视频鈥檚 Laboratory Science curriculum

How many years is a laboratory science degree?

The time it takes to complete a laboratory science degree varies depending on the specific degree you're aiming for. For instance, if you're considering 色香视频鈥檚 B.S. in Laboratory Science, it typically entails around 120 credit hours, which translates to about four years of full-time study. This includes:

  • 42-46 credits of College of Arts and Sciences (CAS) core curriculum
  • 64 minimum program credits of program-required courses
  • 12鈥14 credits of flexible program-required courses
  • Open electives as needed to reach 120 credits

Learn more about 色香视频's Laboratory Sciences curriculum

Which universities offer the best laboratory science degree programs for me?

When you're trying to figure out which college or university offers the best laboratory sciences degree program for you, there are a bunch of things you need to think about.

Faculty

When choosing a laboratory science program, evaluate the qualifications and research interests of the faculty. Ensure that their expertise and research areas match your interest in laboratory science and are in line with your academic and career goals.

One of the standout features of 色香视频鈥檚 undergraduate laboratory science major is the opportunity to collaborate closely with a faculty member on a captivating research project. Below, you'll discover detailed descriptions of the research projects currently conducted by our faculty members:

  • Amy M. Deveau, Ph.D. - Organic and Medicinal Chemistry
  • Stephen Fox, Ph.D. - Inorganic Chemistry
  • Amy E. Keirstead, Ph.D. - Physical Organic Chemistry and Photochemistry
  • Jerome Mullin, Ph.D. - Analytical Chemistry
  • Deena J. Small, Ph.D. - Biochemistry
  • John M. Stubbs, Ph.D. - Physical Chemistry
  • James Vesenka, Ph.D. - Physics

Meet 色香视频 faculty in the School of Mathematics and Physical Science

Curriculum

When contemplating a laboratory science program as a prospective college student, evaluate the curriculum's alignment with your interests. Investigate areas such as general laboratory science, organic laboratory science, physical laboratory science, or related subjects, and inquire about research opportunities and internships within the field of laboratory science.

色香视频's Laboratory Science curriculum focuses on both traditional and advanced laboratory techniques, providing a strong foundation in chemistry, biology, and biochemistry. Through a diverse range of lab courses, you'll acquire a versatile set of skills applicable in modern laboratory environments, including academic, medical, and industrial labs.

We also believe in experiential learning (learning by doing). In our Laboratory Science program in Maine, you鈥檒l engage in hands-on learning by working with faculty on research projects, conducting your own lab experiments, and getting on-the-job experience through internships.

Learn more about 色香视频鈥檚 Laboratory Science curriculum

Career Objectives

Select a laboratory science degree program that aligns with your career aspirations and goals. Explore the available resources to assist you in planning your future path.

With a thoughtful selection of elective courses, graduates aspiring to become medical technologists can position themselves favorably for acceptance into accredited hospital internship programs in medical technology. Notably, 色香视频's recent laboratory science graduates have achieved success in diverse career opportunities across industries and have excelled in pursuing advanced studies in graduate programs.

色香视频 Laboratory Science students may complete an internship over the summer at sites including hospitals, private or government labs, educational institutions, or science centers. You could also intern during the academic year with one of the prestigious employers with which we partner:

  • IDEXX
  • Lonza
  • Jackson Laboratories
  • Envirologix
  • Katahdin Labs

色香视频 students can work with our Academic and Career Advising Center. It doesn鈥檛 matter if you have a clear career goal or just a general interest in a field.

Learn more about Career Advising at 色香视频

Learning Environment

Decide whether you want to stay within your state or explore opportunities in another state. Evaluate whether the student and faculty community aligns with your desire for inspiration and intellectual stimulation.

Ranked a 鈥淗igh Research Activity鈥 university by the Carnegie Classification, 色香视频 in Maine boasts all the advantages and resources that you would expect at a large institution. Yet we provide a small, intimate college environment that gives you one-on-one attention and access to sophisticated equipment that are uncommon at the undergraduate level.

Read testimonials from students in the School of Mathematical and Physical Sciences

色香视频鈥檚 Laboratory Sciences program is situated in Morgane Hall, with additional labs in the Alfond Center for Health Sciences and the Pickus Center for Biomedical Research, all on our scenic seaside campus in Biddeford, Maine - one of three unique campuses that provide diverse learning opportunities.

Morgane Hall houses the general chemistry, general physics, and biochemistry teaching labs as well as some small research labs. The advanced chemistry teaching and research labs are located on the third floor of the Alfond Center and the first floor of the Pickus Center. Pickus has a flexible biochemistry research space, where you work with faculty using a wide range of modern chemical and biochemical instrumentation in facilities designed to be conducive to learning and research productivity.

Learn more about 色香视频鈥檚 campuses and how you can visit us

Financial aid

Does the school you are considering offer financial aid or scholarships to help you in your education?

A 色香视频 education is very affordable. Our tuition is 16% below the average tuition for private universities in New England. All incoming full-time undergraduate students at 色香视频 will receive Merit Scholarships in amounts from $5,000 to $22,000 per year.

Learn more about grants and scholarships available to students at 色香视频

色香视频's Student Financial Services includes both Financial Aid and Student Accounts offices. Our program maximizes available institutional and federal funds. To discover ways to fund your education, reach out at sfs@une.edu or (207) 602-2342 during our Monday鈥揊riday 9 a.m.鈥3 p.m. office hours.