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Forensic Chemistry 2026

Welcome Message

It is our great pleasure to welcome you to the 15th International Conference on Forensic Chemistry and Biochemistry, taking place on March 30–31, 2026, in Dubai, UAE. This prestigious gathering brings together leading scientists, researchers, practitioners, and industry experts from around the world to share advancements, exchange ideas, and explore emerging trends in forensic science.

As forensic chemistry and biochemistry continue to evolve with new technologies and innovative methodologies, this conference provides an essential platform for collaboration and knowledge exchange. Over the coming days, participants will engage in insightful presentations, interactive discussions, workshops, and networking sessions designed to inspire progress and strengthen global partnerships.

We are honored to host this event in the vibrant city of Dubai—an international hub of culture, innovation, and scientific excellence. We hope this conference not only enriches your professional knowledge but also offers memorable experiences and meaningful connections.

Thank you for joining us. We wish you a productive and inspiring conference.

Welcome to Dubai, and welcome to the 15th International Conference on Forensic Chemistry and Biochemistry!

About the Conference

The 15th International Conference on Forensic Chemistry and Biochemistry will be held on March 30–31, 2026, in Dubai, UAE. This global event brings together leading researchers, forensic experts, academicians, industry professionals, and students to discuss the latest developments in forensic science.

With the theme “Innovations in Forensic Chemistry and Biochemistry: Advancing Science for Justice,” the conference aims to highlight cutting-edge research, advanced analytical techniques, and emerging technologies that are transforming forensic investigations. Participants will explore new methods, share scientific findings, and exchange ideas that contribute to more accurate, reliable, and efficient forensic practices.

The conference will feature keynote lectures, technical sessions, poster presentations, workshops, and networking opportunities designed to foster collaboration and inspire scientific progress. By bringing together experts from around the world, the event seeks to strengthen the role of forensic chemistry and biochemistry in supporting justice and improving global forensic standards.

We welcome all professionals and scholars dedicated to advancing forensic science to join us in Dubai for this insightful and impactful conference. This event will serve as a platform for meaningful scientific dialogue and global cooperation. It will encourage participants to explore innovative solutions to modern forensic challenges.
The conference aims to inspire new partnerships that promote research excellence and professional growth.
Together, we strive to build a stronger, more scientifically driven future for justice.

Why Attend

Attending the 15th International Conference on Forensic Chemistry and Biochemistry offers a unique opportunity to connect with global experts, researchers, and professionals in the field of forensic science. The conference provides a platform to learn about the latest innovations, advanced techniques, and breakthrough research shaping the future of forensic chemistry and biochemistry.

Gain valuable insights through keynote speeches, technical sessions, workshops, and interactive discussions led by renowned specialists.
Earn CME / CPD points, adding value to your professional development.
Receive an official certificate of participation recognized by the conference organizers.
Whether you are a researcher, practitioner, academic, or student, this conference will help you enhance your skills, deepen your understanding, and stay updated with the latest trends in forensic chemistry and biochemistry.
Build meaningful networking connections with international experts and peers.
Explore innovative technologies and research advancements shaping the future of forensic science.

Target Audience

Forensic chemists and biochemists
Forensic scientists and laboratory professionals
Toxicologists and analytical chemists
Medical and legal professionals in forensic investigations
Criminal investigators and law enforcement personnel
Researchers and academicians in forensic sciences
University students and scholars pursuing forensic studies
Industry experts and technologists in forensic tools
Policy makers and legal consultants interested in forensic applications
Healthcare and public health professionals in forensic analysis

Sessions and Tracks

Track 01. Advanced Forensic Chemistry

Advanced forensic chemistry is pivotal in solving complex criminal cases. With the increasing sophistication of criminal activities, the need for advanced chemical techniques has never been greater. This session will explore innovative methods in drug analysis, chemical profiling, and trace evidence detection. The use of techniques such as gas chromatography-mass spectrometry (GC-MS) and high-performance liquid chromatography (HPLC) plays a crucial role in identifying trace chemicals and toxic substances. These tools enable forensic chemists to detect even minute amounts of drugs or poisons in complex matrices, providing clear evidence in criminal investigations. Moreover, the development of more portable and rapid chemical analysis tools is pushing the boundaries of on-site forensic investigations. As forensic science continues to evolve, so does the need for new chemical methodologies that can address emerging threats, such as novel psychoactive substances. The integration of these methods ensures more accurate and reliable forensic outcomes, leading to more successful case resolutions.

Track 02. Modern Forensic Biochemistry

Modern forensic biochemistry leverages breakthroughs in molecular biology and biochemistry to uncover crucial evidence in criminal cases. By focusing on the analysis of DNA, proteins, and other biochemical markers, forensic scientists can determine the identity of individuals, confirm relationships, and even trace the history of biological evidence. Advances such as next-generation sequencing (NGS) allow for more detailed and comprehensive DNA analysis, providing forensic investigators with the ability to solve cold cases and identify suspects from minuscule biological traces. In addition to DNA, other markers such as proteins and metabolites are increasingly being utilized in forensic diagnostics. The application of biochemistry to forensic investigations goes beyond traditional blood typing or DNA fingerprinting, enabling scientists to extract deeper insights into the health, activities, and biological relationships of suspects and victims. As new biochemical techniques emerge, forensic biochemists are also exploring their potential to identify biomarkers related to poisoning, trauma, or even specific diseases that could have influenced the events leading to a crime. With ongoing advancements in technology and research, forensic biochemistry remains an essential tool in modern forensic science.

Track 03. Forensic Toxicology

Forensic toxicology plays a crucial role in determining the cause of death or identifying substances involved in criminal activities. This track will dive into the latest techniques used to analyze blood, urine, tissues, and other bodily fluids for toxic substances. Techniques such as gas chromatography-mass spectrometry (GC-MS) and liquid chromatography-mass spectrometry (LC-MS) allow forensic toxicologists to identify drugs, poisons, and other chemicals with exceptional precision. The analysis of substances like alcohol, opioids, and illicit drugs is essential for cases involving overdose, poisoning, and impaired driving. One of the most exciting advancements in forensic toxicology is the detection of new psychoactive substances (NPS), which present challenges due to their varied chemical structures and rapid appearance on the market. This session will also explore the role of toxicology in determining the time of exposure and the effects of substances on the human body, providing critical information in cases of criminal activity, including homicide, assault, and trafficking. Forensic toxicologists are also exploring how genetic and metabolic factors influence drug interactions, a field that holds great promise for personalized toxicology assessments in criminal cases. As new challenges emerge in this ever-evolving field, forensic toxicology remains a cornerstone of modern forensic science.

Track 04. Crime Scene Investigation and Reconstruction

Crime scene investigation and reconstruction is a dynamic and evolving field that requires forensic experts to integrate scientific knowledge, investigative skills, and advanced technology to uncover the truth. From collecting physical evidence such as fingerprints, bloodstains, and firearms to reconstructing the sequence of events at a crime scene, forensic investigators play a key role in solving cases. This track will explore advanced methods in crime scene documentation, including 3D scanning and digital photography, which allow for precise, accurate representations of crime scenes. Techniques like bloodstain pattern analysis help forensic experts determine the positions of victims and suspects during violent events. Additionally, forensic scientists use forensic engineering and physics to reconstruct vehicle collisions, falls, and other physical events that can provide vital information in criminal investigations. This session will also highlight the growing importance of forensic digital evidence collection from electronic devices, including computers, smartphones, and surveillance cameras. With the increasing use of technology in criminal activities, digital forensics is playing an expanding role in crime scene investigations. By combining traditional methods with modern technological advancements, crime scene investigation and reconstruction continues to advance and contribute to criminal justice.

Track 05. Forensic Instrumentation and Technology

Forensic instrumentation and technology are transforming the landscape of forensic science, enhancing both the speed and accuracy of evidence analysis. From handheld analyzers used at crime scenes to highly advanced laboratory instruments, the integration of cutting-edge technology is revolutionizing forensic investigations. This track will discuss the latest instruments used for chemical analysis, including portable spectrometers, portable DNA analyzers, and field-deployable testing tools. The session will also address laboratory automation, which allows forensic scientists to process and analyze larger volumes of evidence in less time while minimizing human error. One of the most notable advancements in forensic instrumentation is the application of artificial intelligence (AI) and machine learning, which are increasingly being integrated into forensic analysis to identify patterns, recognize images, and predict outcomes with higher accuracy. The development of AI-powered tools in image recognition is particularly impactful in the fields of facial recognition, handwriting analysis, and fingerprint identification. As forensic technology evolves, the integration of cloud storage and data analytics systems will streamline evidence processing, making it easier to share and compare forensic data across jurisdictions. With the continuous innovation of new forensic instruments, forensic science is poised to address a wider array of challenges, ensuring greater precision and reliability in criminal investigations.

Track 06. Digital and Cyber Forensics

Digital and cyber forensics are crucial in the investigation of cybercrimes and digital evidence related to criminal activity. As the world becomes increasingly digital, cybercriminals use computers, networks, and mobile devices to carry out illegal activities. This track will explore the process of recovering, analyzing, and presenting digital evidence in criminal investigations. Topics will include the analysis of computer hard drives, mobile phones, emails, and cloud storage to uncover critical information about criminal behavior. The field of digital forensics requires a deep understanding of operating systems, file structures, encryption methods, and internet protocols. Forensic experts use specialized tools to recover deleted data, decrypt files, and trace digital footprints. The session will also cover the growing importance of cybersecurity in preventing data breaches, identity theft, and other types of cybercrime. Digital forensics has proven essential in solving high-profile cases related to hacking, online fraud, and cyber espionage. As cybercrime becomes more sophisticated, forensic experts must continuously develop new strategies and tools to stay ahead of criminal activity. Emerging technologies such as blockchain forensics and cryptocurrency analysis will also be discussed, providing a glimpse into the future of digital forensics.

Track 07. Legal and Ethical Aspects

Legal and ethical considerations are critical in ensuring the integrity of forensic science and its role in the justice system. This track will explore the responsibilities of forensic scientists and the ethical challenges they face when collecting, analyzing, and presenting evidence. The session will address the admissibility of forensic evidence in court, the standardization of forensic procedures, and how forensic professionals can maintain objectivity when serving as expert witnesses. Discussions will include how forensic findings can be used effectively in criminal trials, and how experts can navigate complex legal and ethical issues such as chain of custody and evidence contamination. Forensic professionals are required to meet stringent ethical standards to avoid biases that could affect the outcome of cases. The legal and ethical aspects of forensic science are ever-evolving as new technologies and methodologies emerge, raising questions about privacy, data protection, and the potential for misuse of forensic tools. This track will highlight the importance of continuing education and adherence to legal frameworks to ensure forensic scientists contribute positively to the pursuit of justice. By addressing both the scientific and ethical dimensions of forensic work, this session will provide invaluable insights into how forensic professionals can support legal proceedings with integrity.

Track 08. Emerging Research and Innovations

Emerging research and innovations in forensic science are pushing the boundaries of traditional investigative methods. As technology advances, new research areas are uncovering novel ways to solve complex criminal cases. This session will focus on cutting-edge developments in forensic chemistry, biology, and digital analysis, including advances in nanotechnology, artificial intelligence, and biometrics. Researchers are exploring how AI can help identify patterns in large datasets, improving the speed and accuracy of investigations. Nanotechnology is being used to develop highly sensitive detectors capable of identifying trace amounts of substances at crime scenes, such as drugs, explosives, and toxins. In addition to AI, machine learning models are also being applied to predict criminal behavior or generate profiles based on historical data. Advances in genomics are enabling researchers to extract DNA from smaller or more degraded samples, allowing for more reliable identification even in challenging conditions. Moreover, the development of new forensic imaging technologies, such as 3D crime scene reconstructions and advanced microscopy, is providing investigators with more precise tools for solving crimes. The integration of interdisciplinary approaches, such as combining forensic anthropology with molecular biology, is offering new insights into human remains and improving methods for identification. These emerging innovations are shaping the future of forensic science and enhancing its effectiveness in criminal investigations.

Track 09. Forensic Serology

Forensic serology focuses on identifying bodily fluids, such as blood, saliva, semen, and urine, that can provide crucial evidence in criminal cases. This session will examine the latest advancements in serological analysis and how it aids in criminal investigations. The application of immunoassays and enzyme-linked immunosorbent assays enables forensic scientists to detect specific proteins and markers present in bodily fluids, even when samples are minimal or degraded. Bloodstain pattern analysis is a key technique used to determine the position of individuals involved in a crime, helping investigators reconstruct the sequence of events. The session will also explore how modern serological methods are improving the accuracy of linking suspects and victims to crime scenes, particularly when DNA evidence is unavailable. Researchers are continuously working to improve the sensitivity and specificity of serological tests, including using advanced microscopy and spectroscopy to detect minute amounts of biological material. New technologies, such as rapid blood typing and portable analyzers, are allowing law enforcement to test samples on-site, speeding up investigations. In addition, serology is increasingly being used in cases involving sexual assault and homicide investigations, where bodily fluid evidence is crucial for identifying perpetrators and supporting the victim’s testimony.

Track 10. Biochemical Markers in Forensics

Biochemical markers are powerful tools for forensic scientists, providing crucial information about individuals, their health, and their involvement in criminal activities. This session will delve into the role of biomarkers in identifying substances, diseases, or injuries that may have played a role in criminal cases. Proteins, enzymes, and metabolites are often used to determine the cause and time of death, identify poisoning or drug overdose, and even establish the time of exposure to certain chemicals or toxins. Advances in mass spectrometry and metabolomics are enabling researchers to identify specific biomarkers associated with criminal activity, such as drug consumption, trauma, or poisoning. This track will also cover the growing use of epigenetic markers, which can provide insight into environmental exposures, age, and even stress levels in individuals involved in criminal acts. The analysis of biomarkers in body fluids, tissues, and hair samples is enhancing our understanding of criminal behavior and allowing for more accurate assessments of criminal responsibility. Additionally, forensic biochemistry is increasingly being used to study toxicological responses, including how substances affect the human body and how these effects may have contributed to a crime. With rapid advancements in technology, the potential for biochemical markers to uncover hidden details in criminal investigations continues to grow.

Track 11. Environmental Forensics

Environmental forensics is the application of scientific methods to investigate crimes involving environmental damage, pollution, and toxic waste. This session will focus on how forensic experts use chemical, biological, and geological techniques to identify pollutants and trace their sources. Techniques such as isotopic analysis and stable isotope ratio mass spectrometry are used to determine the origin of pollutants, whether they be from industrial discharge, illegal dumping, or natural sources. Forensic scientists analyze soil samples, water quality, and air pollution to track down sources of contamination and assess the impact on ecosystems and human health. The session will also discuss the application of geospatial technologies, including Geographic Information Systems, to map contamination sources and track pollution pathways. The increasing recognition of environmental crimes such as illegal logging, wildlife trafficking, and toxic waste dumping highlights the growing role of environmental forensics in global conservation efforts. As regulatory agencies work to combat these environmental threats, forensic experts play a critical role in providing evidence for legal enforcement and public health protection. In the future, environmental forensics will continue to expand, addressing new challenges posed by climate change, industrial accidents, and illegal exploitation of natural resources.

Track 12. Forensic Anthropology and Odontology

Forensic anthropology and odontology are vital in the identification of human remains, particularly in cases of mass disasters, homicides, and missing persons. This session will cover the latest techniques used by forensic anthropologists to examine skeletal remains and determine age, sex, ancestry, and trauma patterns. The use of 3D imaging, CT scanning, and radiography is improving the precision of skeletal analyses and allowing experts to detect fractures or signs of disease that may not have been visible before. Forensic odontologists play an essential role in identifying human remains through dental records, bite mark analysis, and the examination of dental patterns, which can be used to link victims to suspects in certain cases. Advanced forensic DNA extraction techniques are now being used to extract DNA from teeth and bones, improving the identification process, even when bodies are severely decomposed. The session will also explore how dental forensics helps in identifying victims in disaster scenarios or mass fatality events, where conventional methods of identification may not be applicable. The collaboration between forensic anthropology, odontology, and DNA analysis is enabling more efficient and accurate identification, which is critical in the pursuit of justice.

Track 13. Forensic Psychology and Behavioral Science

Forensic psychology and behavioral science are essential in understanding criminal behavior and aiding in criminal investigations. This session will explore how psychological theories and techniques are applied to criminal cases, including the assessment of suspects, victims, and witnesses. Criminal profiling, based on behavioral patterns, is used to predict the behavior of suspects and narrow down potential suspects. Psychological autopsies are performed to understand the mental state of individuals before their deaths, especially in cases involving suicide or violent crime. The application of psychological tests and assessments can help determine whether suspects are fit to stand trial or capable of understanding their actions. Additionally, psychological trauma and its impact on victims, such as in cases of sexual assault, domestic violence, or child abuse, will be examined. Experts will also discuss the role of interrogation techniques and how psychological principles can be used to enhance the effectiveness of suspect interviews. Behavioral analysis provides insight into the motivations, personality traits, and cognitive processes behind criminal acts, helping investigators to build stronger cases. This session highlights the critical intersection of psychology and law enforcement in understanding the mind of the criminal and the impact on victims and witnesses.

Track 14. Pharmaceutical and Drug Forensics

Pharmaceutical and drug forensics involves the detection and identification of controlled substances, as well as the analysis of pharmaceutical products in both criminal and civil cases. This track will cover the role of forensic scientists in identifying illicit drugs, counterfeit pharmaceuticals, and understanding the pharmacology of various substances. Chemical analysis techniques such as mass spectrometry, HPLC, and GC-MS are used to detect and quantify controlled substances in blood, urine, or other body fluids. With the increasing prevalence of counterfeit and substandard drugs, forensic scientists are focusing on how to accurately detect these substances in a variety of product forms. The session will also discuss the impact of drug trafficking on public health and the role of forensic science in identifying illicit drug production and distribution methods. Additionally, forensic experts will explore the growing issue of opioid abuse and the role of forensic toxicology in diagnosing opioid overdoses and deaths. The rise of synthetic drugs and designer drugs presents unique challenges, and the session will discuss the latest research on identifying these new substances. By advancing detection methods and developing new forensic tools, forensic scientists help maintain public safety and support law enforcement efforts in drug-related crimes.

Track 15. Forensic Genomics and Epigenetics

Forensic genomics and epigenetics are revolutionizing the way forensic scientists identify individuals and investigate criminal cases. This session will explore the use of next-generation sequencing (NGS) to analyze DNA and identify genetic markers that provide highly detailed individual profiles. Epigenetics, the study of chemical changes in DNA that do not alter the genetic code but can influence gene expression, is also making a significant impact in forensic investigations. The session will discuss how epigenetic markers can provide insights into a person’s history, such as their exposure to environmental factors, lifestyle, or even stress. These advances are enabling forensic scientists to identify individuals from highly degraded DNA samples, such as those found in cold cases or disaster victim identification scenarios. DNA methylation patterns are becoming increasingly important in determining time of death and linking suspects to crimes. The combination of genomics and epigenetics offers new tools for addressing long-standing forensic challenges. Advances in forensic genomics are also helping to overcome obstacles in traditional DNA analysis, such as contaminated or low-quality samples, allowing for more accurate and reliable identification. Forensic experts are also investigating how epigenetic signatures can help link suspects to crime scenes, offering new opportunities to understand individual behaviors and relationships in criminal investigations.

Track 16. Forensic Engineering and Accident Reconstruction

Forensic engineering and accident reconstruction are vital in determining the cause and mechanisms of accidents, whether they involve vehicles, buildings, or machinery. This track will explore how forensic engineers use scientific principles and engineering expertise to investigate and reconstruct accidents, identify contributing factors, and assess liability. The session will focus on vehicle collision analysis, including crash reconstruction, which uses data from the crash site, vehicle damage, and occupant injury to determine the cause and dynamics of accidents. Advances in computer simulations and 3D modeling have enabled more accurate and detailed reconstructions of accident scenes, allowing investigators to visualize and analyze complex scenarios. In addition, forensic engineers often use materials science to examine the failure of structural components in building collapses, industrial accidents, or product defects. The application of engineering principles to understand mechanical failure in machinery, industrial equipment, and consumer products is crucial in investigating accidents in workplace safety, manufacturing, and consumer goods industries. The session will also highlight the importance of forensic engineering in medical malpractice investigations, where the failure of medical devices or surgical equipment is often a key factor. By applying rigorous engineering techniques, forensic engineers help to clarify the causes of accidents and provide essential information for legal proceedings.

Track 17. Forensic Botany and Entomology

Forensic botany and entomology provide essential clues in criminal investigations, particularly in cases of death investigations, where environmental factors play a role in determining the time of death and circumstances surrounding the crime. This session will explore the role of plant identification and insect activity in forensic investigations. Forensic botanists can analyze plant materials found on victims, suspects, or crime scenes to link them to specific locations, seasons, or events. The study of pollen and seeds found on clothing or in soil samples can help establish the geographic origin of individuals or the time frame in which a crime occurred. Forensic entomologists focus on the role of insects, such as blowflies and beetles, in decomposing bodies, using their life cycles to estimate the post-mortem interval and determine the time of death. This session will also delve into the use of insect traces to identify whether a body has been moved after death. The application of DNA analysis to insects found at crime scenes has opened new avenues for linking insects to specific cases. Forensic entomology has also been instrumental in the investigation of human trafficking, where the movement of victims is tracked using insect evidence. Both forensic botany and entomology serve as vital tools for reconstructing crime scenes and assisting in the determination of cause and manner of death.

Track 18. Forensic Anthropology and Facial Reconstruction

Forensic anthropology plays a crucial role in human identification, particularly when victims are severely decomposed, burned, or mutilated. This session will explore the latest advancements in facial reconstruction techniques, which allow forensic scientists to create a likeness of a victim based on skeletal remains. These techniques rely on anatomical knowledge of the human skull, as well as 3D imaging and computer modeling to predict facial features, aiding in the identification of unknown individuals. Forensic anthropologists will discuss their methods for determining age, sex, ancestry, and stature from skeletal remains, which help to narrow down the pool of potential victims. The use of forensic odontology to link dental records to skeletal remains will also be covered, especially in cases involving mass fatalities or disasters. The combination of anthropological analysis and facial reconstruction plays a crucial role in cases where traditional DNA analysis is not possible, such as in cases of fire victims, decomposed bodies, or severely mutilated remains. Advances in biomechanical analysis and virtual reality technologies are also enhancing the accuracy and utility of these reconstructions. This session will provide insight into how these interdisciplinary methods are evolving and contributing to successful identification efforts in modern forensic cases.

Track 19. Forensic Linguistics

Forensic linguistics is an emerging field that involves the analysis of language and communication to solve crimes. This session will explore the role of linguistic analysis in threat assessments, extortion letters, forgeries, and terrorist communications. Forensic linguists analyze word choice, syntax, and writing style to determine authorship, uncover hidden meanings, and identify potential suspects. The study of dialects, accents, and discourse patterns is also critical in identifying individuals or narrowing down geographical regions associated with criminal activity. Forensic linguistics is particularly useful in analyzing cybercrime, including email phishing, social media posts, and online threats, where linguistic markers can provide evidence of intent and origin. By examining linguistic profiling, forensic experts can differentiate between authors based on unique characteristics in their communication styles. The session will also cover how language evidence is used in interrogations and confessions to detect signs of deception or coercion. Additionally, semiotics and the interpretation of symbols or codes in criminal texts will be explored, offering insights into the use of cryptic language in criminal behavior. As the role of language becomes more central in criminal investigations, forensic linguistics is poised to become an increasingly vital tool in law enforcement.

Track 20. International Collaboration in Forensic Science

Forensic science often requires collaboration across borders, especially in complex international cases such as human trafficking, terrorism, and organized crime. This session will focus on the role of international partnerships in solving cross-border criminal investigations. Interpol, Europol, and other international organizations play a significant role in facilitating cooperation between forensic experts from different countries. This session will examine the challenges and benefits of sharing forensic data, such as DNA databases, fingerprint databases, and ballistics databases, to solve global criminal cases. The session will also cover standardization of forensic techniques and protocols across countries, which is essential for ensuring the reliability and admissibility of forensic evidence in international courts. Advances in telemedicine and virtual consultations are improving communication between forensic experts from different parts of the world, enabling more efficient case collaboration. International training programs and workshops are fostering knowledge exchange among forensic scientists globally, helping to improve forensic capabilities in developing countries. The session will also explore how emerging forensic technologies, such as cloud computing and data sharing platforms, are enabling quicker and more efficient global collaboration. By enhancing the collective capabilities of the international forensic community, these collaborations ensure a more effective response to global crime and justice efforts.

Market Analysis Report

The global forensic technology market is experiencing strong growth, driven by rising crime rates, advancements in analytical tools, and increased government investment in forensic infrastructure. In 2023, the market was valued at approximately USD 5.5 billion and is projected to reach around USD 10.6 billion by 2030, reflecting a compound annual growth rate (CAGR) of about 9.9%. The forensic chemistry segment alone is expected to grow steadily at a CAGR of 7.1%, reaching roughly USD 5.2 billion by 2033, supported by advances in techniques like mass spectrometry, chromatography, and DNA analysis. Emerging markets, particularly in Asia-Pacific and the Middle East, are seeing accelerated adoption due to rising crime, expanding forensic laboratories, and government initiatives.

Key drivers of market growth include technological innovation, government and regulatory support, and the increasing demand for digital and chemical forensic solutions. Rapid developments in next-generation sequencing, AI-based analysis, and portable forensic devices are enabling faster, more accurate investigations. Additionally, the surge in cybercrime, counterfeit pharmaceuticals, and complex criminal cases has created a pressing need for advanced forensic tools and skilled professionals. Collaboration across borders and standardization of forensic practices are further enhancing global capabilities, allowing laboratories and law enforcement agencies to share expertise and data efficiently.

Despite the growth potential, challenges such as high costs of instrumentation, workforce shortages, regulatory differences, and ethical considerations around genomic and digital evidence remain. Nonetheless, the overall market outlook is highly positive, with the global forensic technologies and services market expected to more than double in value by 2030, reaching between USD 41.5 billion and USD 61.6 billion according to different estimates. This rapid expansion highlights significant opportunities for innovation, collaboration, and investment, making this the ideal time for conferences and forums that bring together researchers, practitioners, and industry experts to advance forensic science and technology.

Major Companies: Leading global companies in biochemistry, pharmaceuticals, and medical diagnostics include Abbott Laboratories, Novartis, Danaher, Roche, Siemens Healthcare, Thermo Fisher Scientific, Pfizer, Merck, Amgen, GlaxoSmithKline, AstraZeneca, Biogen, Gilead Sciences, Celgene, Shire Pharmaceuticals, and others from the USA, Europe, and Asia. These companies are at the forefront of innovation in analytical instruments, diagnostic tools, and therapeutic solutions.

Major Biochemistry Societies: Key professional societies include the American Society for Biochemistry and Molecular Biology, Association of Clinical Biochemists of India, Australasian Association of Clinical Biochemists, Federation of European Biochemical Societies, Canadian Society for Molecular Biosciences, Hong Kong Society for Biochemistry and Molecular Biology, Italian Society of Biochemistry and Molecular Biology, and other national and regional biochemistry organizations supporting research, education, and professional development globally.

Major Associations and Chemical Societies: Important associations include the American Association for Clinical Chemistry, American Chemical Society, AIChE, Chemical Society of Japan, Royal Society of Chemistry, European Chemical Society, Chinese Chemical Society, Indian Chemical Society, and numerous national and international chemical and pharmaceutical organizations. These bodies promote scientific collaboration, research standards, education, and industry-academia linkages worldwide.

Participation Benefits:

Receive a DOI number for your presented research for proper citation and recognition.
Earn CPD points and continuing education credits to support professional growth.
Enjoy refreshments including tea and coffee throughout the conference.
Receive a conference kit containing essential materials and information.
Network with global experts, researchers, and industry leaders.
Share and present your research to an international audience.
Stay updated on the latest advancements and innovations in forensic chemistry and biochemistry.
Build collaborations and professional connections across academia, industry, and healthcare sectors.

Past Conference Report

Forensic Chemistry 2024

Would you like to gain insights from industry experts at a conference? The 13th International Conference on Forensic Chemistry and Biochemistry offers you the chance to interact with international leaders in the field of chemistry, featuring over 300 professionals and students in attendance.

Scheduled for March 07-08, 2023, in Toronto, Canada, the 13th International Conference on Forensic Chemistry and Biochemistry aims to unite scholars and corporate researchers on a single platform to explore advanced research and technology in the realm of forensic chemistry. This conference will encompass prompt keynote presentations, oral talks, workshops/symposia, poster presentations, and exhibitions. The conference theme revolves around "Molecules of Justice: The Power of Forensic Chemistry."

In today's world, with the proliferation of television programs and media coverage highlighting the latest advancements in forensic sciences and chemistry, students have developed a profound interest in all aspects related to the work of forensic scientists. Forensic Chemistry 2023 provides a unique opportunity to enhance your skills, exchange ideas, discover innovative approaches to advance both yourself and your research. All of this while immersing yourself in a supportive community of professionals and resources that can greatly enrich your knowledge and career.

Participate in sessions, attend keynotes, and engage in networking opportunities. Keep returning for the invaluable chance to connect with leading forensic researchers, doctors, vendors, and company managers.

Stay tuned for updates on what 2023 has in store for you!

Past Reports Gallery