Nanotechnology & Material Sciences

About conference

Nanotechnology 2023 Invites all the Experts and Researchers from the nanotechnology and materials science engineering sector people all over the world to attend “80^th International conference on Nanotechnology & material sciences” [ICNMS-2023] which is going to be held on November 27-28,2023 at Barcelona,spain

ICNMS-2023  conference includes Keynote presentations,oral talks,Poster presentations and workshops.This conference unites the worldwide pioneers who are involved in the field to explore their Research work at nanotechnology 2023 conference and provides a great chance to collaborate with global business delegates and Researchers and it is all set to be adorned by world renowned speakers.

In order to share their Research knowledge with the world and inform other esteemed delegates of the most Recent Trends in the field of  Nanotechnology and Material sciences.This event has taken the initiative to bring together top experts from both industry and Academia brings on a common platform at Nanotechnology 2023 conference.so,we kindly invite all interested individuals from all nations to join us at our event and contribute to its success

why to Attend

This is an international conference on Nanotechnology and Material sciences and brings the people all over the world together from different areas to fulfill and share their Research knowledge and views about the Conference  

Why to attend?

Nanotechnology 2023[ICNMS-2023] offers a fantastic opportunity to meet and make new contacts in the field of nanotechnology and Material science field people.This conference allows delegates and speakers to have issues addressed on Nanotechnology by recognized global experts who are up to date with the latest developments in the nanotechnology and Material science fields and provide information on new advanced Technologies.This international conference will feature world renowned keynote speakers ,plenary speeches,young Reserch forum,poster presentations,Technical workshops and career guidance sessions 

Members associated with Nanotechnology and Material sciences:

• Eminent Scientists, Research Professors and Rectors
• Marketing Professionals, Regulatory Officials, Engineers
• Students and research scholars
• Members of different medical associations
• Governmental and public bodies
• Advocacy groups, Institutional Board members

Target Audiences

• Nanotechnology Scientists
• Nanotechnology Research Professionals
• Directors of nanotechnology companie
• Junior/Senior research fellows of Nanotechnology and Material sciences 
• Leading scientists
• Nanotechnology Engineers
• Members of different Nanotechnology/Materials science associations
• Business delegates 
• Young research scientists
• Healthcare professionals
• Medical colleges 
• Biotechnology fields 
• Fellows or postdoctoral students 
• Professors

Sessions/Tracks

1.Nanotechnology

Nanotechnology is the science which deals with the processes that happen at molecular level and of Nano length scale size. Nanotechnology can be particularly applied to the small things and can be used through all the other science fields such as biology, chemistry, material science, engineering, and physics. It is the field of realistic science and technology whose theme is the governor of matter on the atomic and molecular scale usually 100 nanometers or smaller.  By using nanotechnology materials can effectively be made lighter, stronger, more reactive, more durable, more sieve-like, or better electrical conductors among many other traits.  Everyday used commercial products are currently on the market and in daily use that trusts on nanoscale material processes.

2.Nanotechnology in Materials science

Nanotechnology is the branch of technology that deals with dimensions and tolerances of less than 100 nanometers, especially the manipulation of individual atoms and molecules. Applications are wide and varied, including energy production and storage, drug delivery, materials science, and many others.

The field of Nanoscience and Nanotechnology as an area within Materials Science spans the discovery, fabrication, characterization, modeling and end-use of nanoscale materials

The properties of some nanomaterials make them ideal for improving early diagnosis and treatment of neurodegenerative diseases or cancer. They are able to attack cancer cells selectively without harming other healthy cells. Some nanoparticles have also been used to enhance pharmaceutical products such as sunscreen

3.Applications of Nanomaterials 

Nano-engineered materials make superior household products such as degreasers and stain removers; environmental sensors, air purifiers, and filters; antibacterial cleansers; and specialized paints and sealing products, such a self-cleaning house paints that resist dirt and marks

There are several important applications of Nanomaterials such as aviation and space, chemical industry, optics, solar hydrogen, fuel cell, batteries, sensors, power generation, aeronautic industry, building/construction industry, automotive engineering, consumer electronics, thermoelectric devices, pharmaceuticals

4.Applications of Nanotechnology

Nanotechnology is helping to considerably improve, even revolutionize, many technology and industry sectors: information technology, homeland security, medicine, transportation, energy, food safety, and environmental science, among many others. Described below is a sampling of the rapidly growing list of benefits and applications of nanotechnology.

A few Examples of current nanotechnology include the following

• Food security
• Medicine 
• Energy 
• Automotive
• Renvironment
• Electronics
• Textiles
• Cosmotics

5.Nanobiotechnology

Nanobiotechnology is a new field of science that introduces special physiochemical and biological properties of nanostructures and their applications in various areas such as medicine and agriculture.Mettal nanoparticles have been found to be dominant compounds affecting fungal diseases both in humans and plants

Nanotechnology is universally recognized as one of the most important scientific fields of the twenty‐first century. Biomedical applications of this technology offer great promise in finding new approaches to repairing damaged tissues and curing disease. Nanomedicine and Nanobiotechnology will address key topics from the perspectives of medicine, biology, physics, chemistry, and engineering, and serve as an encyclopedic reference for Nanomedicine and Nanobiotechnology research

6.Nanoengineering

Nanoengineering is the practice of engineering on the nanoscale. It derives its name from the nanometre, a unit of measurement equalling one billionth of a meter. Nanoengineering is largely a synonym for nanotechnology, but emphasizes the engineering rather than the pure science aspects of the field

Nanoengineering  is a branch of engineering that deals with all aspects of the design, building, and use of engines, machines, and structures on the nanoscale. At its core, nanoengineering deals with nanomaterials and how they interact to make useful materials, structures, devices and systems.

Nano-engineering materials make superior household products such as degreasers and stain removers;environmental sensors, air purifiers, and filters; antibacterial cleansers; and specialized paints and sealing products, such a self-cleaning house paints that resist dirt and marks

7.Nanoscience

Nanoscience and nanotechnology are the study and application of extremely small things and can be used across all the other science fields, such as chemistry, biology, physics, materials science, and engineering.

Nanoscience combines science, engineering, and technology to study matter and processes at the nanoscale.

Nanoscience is the study of structures and materials on an ultra-small scale. A nanometre is one billionth of a metre. The physical and chemical properties of matter change at the nano level. Nanotechnology has the potential to revolutionise a diverse range of fields, from health care to manufacturing

8.Molecular Nanotechnology

Molecular nanotechnology involves the ability to manufacture objects to precise atomic specifications. A central postulate is that any structure that can be specified and that does not violate physical law can be built

The principle of molecular nanotechnology is based upon Richard Feynman’s vision of nanoscale factories using complex machines to build products. It deals with engineering nanoscale machines that operate on the molecular scale distinct from other areas of nanotechnology, such as nanoscale materials.

9.Nanochemistry and wet Nanotechnology

Nanochemistry is an emerging new field of chemistry, in particular of solid-state chemistry, which emphasizes the study and development of preparation methods of useful materials with nanometer-size dimensions (1–100 nm), as defined by Geoffry Ozin, a pioneer in the field.

Nanochemistry is associated with synthesis of building blocks which are dependent on size, surface, shape and defect properties. Nanochemistry is being used in chemical, materials and physical, science as well as engineering, biological and medical applications

Wet nanotechnology (also known as wet nanotech) involves working up to large masses from small ones. Wet nanotechnology requires water in which the process occurs. The process also involves chemists and biologists trying to reach larger scales by putting together individual molecules.

10.Nanotechnology effects and Industrial safety

Nanoparticles behave differently than other similarly sized particles. It is therefore necessary to develop specialized approaches to testing and monitoring their effects on human health and on the environment. While nanomaterials and nanotechnologies are expected to yield numerous health and health care advances, such as more targeted methods of delivering drugs, new cancer therapies, and methods of early detection of diseases, they also may have unwanted effects.

• Good Nano Guide
• Labeling of storage containers of nanomaterials with both the chemical contents and the nanostructure form
• Dispose of contaminated cleaning materials as segregated nanomaterial waste

11.Nanotoxicology

The multidisciplinary field of  Nanotoxicology focuses on determining the extent to which nanomaterials (materials with at least one dimension <100 nm) pose a hazard to human health and the environment. The small size, large surface area-to-volume ratio, and quantum size effects of nanoscale materials may lead to biological effects that differ from those induced by their larger counterparts.

• Cell-particle interactions
• Medical toxicology
• Regulation and risk management
• Immunotoxicity
• Method of toxicology studies

12.Smart drug Delivery Technology

The development of the smart drug delivery system (SDDS) is a revolution of nanotechnology in the pharmaceutical and medical fields. Nanomaterials through their enhanced target specificity, biodistribution, and plasma retention have overcome the therapeutic adverse effects of the conventional drug delivery system

13.Nano electronics and Nanophotonics

Nanoelectronics is refers to the use of Nanotechnology in electronic components. These components are often only a few Nano meter in size. Nano electronics helps the study of the synthesis and characterization of materials of   Nano scale size

Nano photonics studies the behaviour of light on nano meter scales as well as interactions of nano meter sized objects with lights.

• Semiconductor Devices
• Spintronics
• Nanotechnology in physics
• Nano scanning probe and microscopy
• Amplifiers and Isolator
• Electro-optic Modulators

14.Nano Pharamaceutical industry and market 

The field of drug nanotechnology gives a bits of knowledge into the investigation of combination, characterization and analytic utilization of materials at the nanoscale. The specific enthusiasm inside the field is amalgamation, characterization, natural assessment, clinical testing and toxicological appraisal of nanomaterials as medications for different diseases. Nanotechnology is the science which manages the cycles that happen at atomic level and of nanolength scale size. The significant examinations in the nanotechnology incorporate nanosized particles, their capacity and conduct as for different frameworks. The enormous capacities of nanoparticles have changed the viewpoint and extent of nanotechnology towards advancement into an adjuvant field for the rest of the fields of life sciences.

• Synthesis of Nanoparticles for Drug Delivery
• Drug Targeting
• Drug Delivery Research
• Novel Drug Delivery Systems
• Challenges and advances in Nano Pharmaceuticals
• Nanopharmaceuticals from the bench to Scale up
• Future aspects of Nano Pharmaceuticals

15.Advanced Nanomaterials

Advanced nanomaterials are found useful in numerous applications. The study on advanced materials offers clear pathways for their synthesis and utilization of their unique properties. In this regard, this chapter provides an overview of diverse protocols for synthesizing advanced materials with exceptional propertie.

Advanced Materials and Nanotechnology includes the design, synthesis and processing of nanostructured materials including thin-film zeolites, carbon nanotubes, and nanowires/nanotubes of metals and semiconductors.

16.Nanomaterials synthesis and characterization

The association of nanoparticles in a thin film shape is routinely essential to render these utilitarian and operational. Two basic engineered techniques, one is high-temperature warm breaking down and second is liquid interface reaction, sensible for arranging motion pictures of various metal and metal oxide nanoparticles. Besides, the utilization of a high-essentialness ball handling and begin plasma sintering process for the game plan and planning of nanocomposite powders into mass magnets are also featured.

• Engineering applications of materials
• Regulation On Advanced Therapy Medicinal Products/ Tissue Engineering
• Energy Storage and Novel Generation
• Applications of Nano materials and Devices
• Microscopy and Spectroscopic Methods of Measurement at the Nanoscale
• Nanomaterials manufacturing technologies
• Size Dependence of Properties
• Nano Particles
• Characterization and Optical Properties of Silver Nanostructures
• Applications of Nano materials and Devices
• Size Dependence of Properties

17.Nanotechnology in medicine and Drug delivery 

Nano Medicine is a use of nanotechnology. Nano medication ranges from the restorative utilizations of Nano Materials and Nano Electronic biosensors, and significantly more conceivable future uses of sub-atomic nanotechnology, for example, organic machines, Nano biotechnology is a rising field that is conceivably changing the way we treat ailments through medication conveyance and tissue designing. Critical difficulties stay in pushing this field into clinically practical treatments. For medication conveyance, the outline and testing of novel strategies for controlling the communication of Nano materials with the body is a portion of the present obstructions to making an interpretation of these advancements to treatment.

• Some natural polymers in nanodrug delivery
• Polymer–drug conjugates
• Multifunctional drug carriers
• Liposomes
• Macroemulsions

18.Nanotechnology in Advance Batteries

Nano batteries are fabricated batteries employing technology at the Nano scale, a scale of microscopic particles that amount less than 100 nanometres or 10−7 meters.

These batteries may be nano in size or may use nanotechnology in a macro scale battery. Nanoscale batteries can be combined to function as a macrobattery such as within a nanopore battery.In contrast, out-dated Li-Ion technology uses active materials, such as cobalt-oxide, with atoms or particles that range in size between 5 and 20 micrometres (5000 and 20000 nanometres - over 100 times Nano scale). It is hoped that Nano-engineering will improve many of the inadequacies of present battery technology, such as recharging time and battery 'memory'. Several companies are exploring and emerging these technologies

Market analysis

Nanotechnology is the improvement and engineering of devices so small that they are measured on a molecular scale. This developing field involves scientists from many different disciplines, including physicists, chemists, engineers, information technologists and material researchers as well as biologists. Nanotechnology is being zapplied to almost every field imaginable, including electronics, magnetics, information technology, materials development and biomedicine. There are numerous areas of concern in the nanomaterials market which are expectable to be explored in the approaching years, for instance, nanoparticles of metals and semiconductors, nanowires, nanobiological systems and nanotube

U.S. forms the largest market for the nanomaterials owing to large application use of nanotubes in various industries. Electrical and electronics, pharmaceutical, and chemical products are the major application segments in North America market. Europe also held a significant market share in the nanomaterials market. Decrease in price of nanomaterials due to increase in mass production has led to robust growth of nanomaterials in these regions. Asia Pacific is expected to witness remarkable growth in the projected period. Increasing government funding and support, rising environmental consciousness, and rising demand for specialty materials is expected to boost the growth of nanomaterials market in the foreseeable period. Nanomaterials are regulated under REACH and CLP regulation in the European market while U.S. FDA regulates nanomaterials for the American market

Nanotechnology Market Size:

Emergen Research has published its latest report titled “Nanotechnology Market Size, Share, Trends, by type (Nanomaterials, Nanocomposites, Nano devices, Nano tools) by industry (Food and Agriculture, Healthcare, Information and Technology, Environment, Energy, Cosmetics) and by region, forecast to 2028”.

According to Emergen Research, the global nanotechnology market size was USD 75.80 Billion in 2020 and is expected to reach USD 290.93 Billion in 2028 and register revenue CAGR of 18.3% during the forecast period, 2021-2028.

Past Conference Report

Materials-Nanotechnology 2021

Past Reports  Gallery  

Advanced Nanotechnology 2019

Past Reports  Gallery