---
title: Novichok
slug: novichok-8e2f9
url: /detay/novichok-8e2f9
type: article
language: English
entity:
  primary: Novichok
  type: article
  categories:
    - name: Chemistry
      slug: kimya
      url: /kategori/kimya
    - name: Health And Medicine
      slug: saglik-ve-tip
      url: /kategori/saglik-ve-tip
    - name: Biomedical
      slug: biyomedikal
      url: /kategori/biyomedikal
  tags:
    - Novichok
    - Nerve agent
    - Russian
    - Weapon
    - chemical
    - death
author: Nart Shefkiu
created_at: 2026-04-16T16:15:42.659617+03:00
updated_at: 2026-05-09T13:27:29.916274+03:00
image: https://cdn.t3pedia.org/media/uploads/2026/04/16/hVCBQ9WRxeghIyMZJ9Z88ulPaQY0MxYv.jpg
---

# Novichok

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## Article Content

Novichok agents are a class of organophosphate nerve agents described in the provided sources as highly potent chemical compounds developed within the Soviet classified nerve-agent program known as FOLIANT.[^1] They became widely known after poisoning incidents in the United Kingdom in 2018. According to the sources, these agents are among the most toxic nerve agents and may affect both the central and peripheral nervous systems. At the same time, the available literature emphasizes that public information regarding their composition, development, and properties remains incomplete and, in some cases, internally inconsistent.

### **Definition and Nomenclature**

![Image](https://cdn.kureansiklopedi.com/media/uploads/2026/05/09/LcZAIK9aBhzR1gCEPmIN9EXcsCURcBP5.png)
*Novichok (Created with Artificial Intelligence)*

The term *Novichok*, meaning “newcomer” in Russian, is used in the literature to describe a group of organophosphate nerve agents.[^2] In toxicological studies, it generally refers to highly potent compounds that act on the nervous system through enzyme inhibition. In historical analyses, however, the term is applied more broadly and sometimes inconsistently, reflecting uncertainty in open-source information.

Different compounds associated with this group are identified by designations such as A-230, A-232, and A-234, while others are referred to as binary agents, including Novichok-5 and Novichok-7.[^3]The distinction between these categories is based primarily on the methods through which the agents are produced and weaponized rather than solely on their chemical structure.

### **History**

#### Antecedents in Open Literature

The historical analysis traces possible scientific antecedents of Novichok agents to developments in organophosphorus chemistry beginning in the 1930s. Several strands of research are identified as potentially relevant. These include Swedish studies conducted in 1957 on phosphylated choline esters that demonstrated strong inhibition of acetylcholinesterase, as well as United States Army research in the early 1970s on compounds such as EA 5365. A West German textbook published in 1983 described a novel organophosphorus structure, while research conducted in Czechoslovakia beginning in the same year investigated compounds combining features of both G-type and V-type nerve agents. All of these developments occurred within chemical defense laboratories and are presented as possible contexts for later innovations.[^4]

#### Open Disclosures and Public Attention

Public awareness of Novichok agents emerged in the early 1990s following disclosures by Soviet chemist Vil Mirzayanov. In 1991, he published an article warning of a covert chemical weapons program, and in 1992 he was dismissed from his position following additional public statements. Reports in Western media soon described a new class of nerve agents allegedly more toxic than known agents such as VX. Mirzayanov was subsequently arrested in October 1992 on charges related to the disclosure of state secrets.

Additional accounts from scientists including Lev Fedorov and Vladimir Uglev described a secret research program involving the synthesis and testing of new nerve agents, including the development of binary weapons. These disclosures formed the basis of much of the open literature, although the sources emphasize that the reliability and completeness of this information remain uncertain.[^5]

#### **Salisbury, Amesbury, and Later Public Debate**

The poisoning of Sergei Skripal and his daughter in Salisbury in March 2018, followed by a related incident in Amesbury later that year, brought renewed international attention to Novichok agents. According to the sources, laboratory analyses confirmed the presence of a Novichok compound in biological and environmental samples. These events triggered extensive public discussion and renewed focus on chemical weapons regulation and enforcement.

### **Chemistry and Classification**

#### Unitary and Binary Forms

The literature distinguishes between unitary and binary forms of Novichok agents. Unitary agents are fully synthesized toxic compounds, such as A-230, A-232, and A-234. Binary agents, in contrast, are produced through the combination of two less toxic precursor substances shortly before use, thereby forming the active nerve agent at the point of deployment.

Binary formulations are described as offering practical advantages, including greater stability during storage and transport. Some reported systems involve combinations such as acetonitrile and a low-potency organophosphate. In addition to their liquid forms, Novichok agents may also be converted into dispersible solid formulations through adsorption onto materials such as silica gel or talc.

#### Structural Models in the Literature

The sources stress that the chemical structures of Novichok agents have not been definitively established in the open literature. Several models have been proposed, including organophosphate compounds with varying substituents and structures incorporating dihaloformaldoxime groups. Some descriptions resemble modified versions of earlier nerve agents, such as those belonging to the G- and V-series.

It is also noted that some published structures may have been intentionally misleading or associated with pesticide research, further complicating efforts to determine their exact composition. As a result, the structural chemistry of Novichok agents remains a subject of uncertainty.

### Toxicology and Mechanism

The primary toxic effect of Novichok agents is attributed to the inhibition of acetylcholinesterase, an enzyme responsible for breaking down the neurotransmitter acetylcholine. When this enzyme is blocked, acetylcholine accumulates at synapses, leading to continuous stimulation of muscles and glands. This process results in sustained muscle contraction and the eventual failure of neuromuscular transmission.[^6]

The sources indicate that Novichok agents may differ from other nerve agents in that they are believed to affect not only the central nervous system but also the peripheral nervous system. This broader impact may contribute to additional neurological damage, including long-term complications.

#### **Clinical Effects**

Exposure to Novichok agents produces a progression of symptoms. Early signs include constricted pupils, nasal discharge, chest tightness, and difficulty breathing. As poisoning progresses, individuals may experience excessive salivation, abdominal pain, loss of continence, and muscle twitching. In severe cases, seizures, respiratory failure, cardiac arrest, and death may occur.[^7]

Even when exposure is not immediately fatal, long-term effects may include chronic muscle weakness and cognitive impairment, reflecting the lasting impact on the nervous system.

### **Medical Management**

Treatment of Novichok poisoning follows general principles established for nerve-agent exposure. Initial management involves decontamination, including the removal of contaminated clothing and thorough washing of the skin to prevent further absorption. Supportive care, such as oxygen administration and maintenance of airway function, is essential.

Antidotal therapy is a critical component of treatment. Atropine is used to block the effects of acetylcholine at its receptors, while oxime compounds such as pralidoxime or obidoxime are administered to reactivate acetylcholinesterase. Diazepam may be used to control seizures. The effectiveness of these treatments depends on rapid administration, as delayed intervention can lead to irreversible enzyme inhibition.

The sources also note that treatment in large-scale exposure scenarios may require substantial quantities of antidotes and careful management of medical resources.

### Arms Control and International Classification

Novichok agents are discussed in the context of international chemical weapons regulation. The Chemical Weapons Convention, opened for signature in 1993 and entering into force in 1997, prohibits the development, production, and use of such agents. The Organisation for the Prohibition of Chemical Weapons is responsible for overseeing compliance with this treaty.

However, the sources emphasize that the limited and sometimes contradictory nature of publicly available information complicates verification and enforcement. Assessments of Novichok agents are therefore influenced not only by scientific data but also by political and intelligence considerations.

### Scientific Uncertainty and Disputed Reporting

A central theme in the historical analysis is the uncertainty surrounding Novichok agents. The sources highlight that the open literature contains significant gaps and inconsistencies, and that some information may reflect misinformation or disinformation. While certain aspects of the program are corroborated by multiple accounts, a complete and reliable understanding remains elusive.

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## Academic Sources and References

1. Chai, Peter R., Bryan D. Hayes, Timothy B. Erickson ve Edward W. Boyer. "Novichok Agents: A Historical, Current, and Toxicological Perspective." Toxicological Communications 2, no. 1 (2018): 45–48. Accessed: April 16, 2026. https://pmc.ncbi.nlm.nih.gov/articles/PMC6039123/.
2. Hussain, Niha Mariam ve Sanjeev Chaand Sharma. "Novichok: An Overview of the World’s Deadliest Nerve Agent." The British Student Doctor Journal 3, no. 1 (2019): 48–50. Accessed: April 16, 2026. https://doi.org/10.18573/bsdj.78.
3. Robinson, Julian Perry. Novichok Nerve Agents: Publicly Available Information About Them and What It May Mean for Chemical Arms Control. HSPOP Harvard Sussex Program Occasional Paper, no. 07. 15 Mart 2019. Accessed: April 16, 2026. https://dsiweb-prod.s3.eu-west-2.amazonaws.com/uploads/INQ005146.pdf.

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## Citations

[^1]: Julian Perry Robinson, Novichok Nerve Agents: Publicly Available Information About Them and What It May Mean for Chemical Arms Control, HSPOP Harvard Sussex Program Occasional Paper, no. 07 (2019), 16, Accessed: April 16, 2026, https://dsiweb-prod.s3.eu-west-2.amazonaws.com/uploads/INQ005146.pdf.
[^2]: Robinson, Novichok Nerve Agents, 4.
[^3]: Robinson, Novichok Nerve Agents, 16.
[^4]: Robinson, Novichok Nerve Agents, 5-6.
[^5]: Robinson, Novichok Nerve Agents, 9.
[^6]: Niha Mariam Hussain ve Sanjeev Chaand Sharma, "Novichok: An Overview of the World’s Deadliest Nerve Agent," The British Student Doctor Journal 3, no. 1 (2019): 49, Accessed: April 16, 2026. https://doi.org/10.18573/bsdj.78
[^7]: Hussain ve Sharma, "Novichok," 49.