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New Advancements and Innovations in Nanomaterials & Nanochemistry
- Nanochemistry 2017

Sessions and Tracks

Track 1: Nanochemistry

The Understanding Nanotechnology Website is devoted to providing clear and brief explanations of Nanochemistry presentations. Scan the listings under to find an application of concentration, or use the navigation bar above to go straight to the page discussing an application of curiosity.


Track 2: Nano Medicinal Chemistry

Many researchers assign ethylene glycol molecules to nanoparticles that bring therapeutic drugs to cancer tumors. The ethylene glycol molecules break white blood cells from recognizing the nanoparticles as foreign materials, allowing them to circulate in the blood stream extended enough to attach to cancer tumors. However researchers at the University of California, San Diego trust that they can upturn the time nanoparticles can circulate in the blood stream. They are covering nanoparticles holding therapeutic drugs with membranes from red blood cells and have exposed that these nanoparticles will circulate in a mouse's blood brook for almost two days, instead of the few hours observed for nanoparticles using ethylene glycol molecules.

Track 3: Nano pharmaceutical chemistry      

A standout amongst the most encouraging nanotechnology fields is Nanopharmaceuticals. Since nanomaterials might enter the body through dermal presentation, inward breath, ingestion, or visual contact, they loan themselves to inventive medication conveyance frameworks. Pharmaceutical examination, toxicology thinks about, definition, and assembling of pharmaceutical items require material portrayal to guarantee reliable medication security and viability Nanoscale pharmaceutical procedures in medication revelation and advancement outline and improvement of Nano formulations and nanoscale drug conveyance frameworks, administrative viewpoints and approaches identified with nanopharmaceuticals.

Track 4: Neurochemistry

Neurochemistry is the detailed study of neurochemicals, counting neurotransmitters and other particles (such as psychopharmaceuticals, neuropeptides, or gastrotransmitters) that affect the utility of neurons. This field strictly examines how these neurochemicals influence the system of neural process. This evolving zone of neuroscience bids a neurochemist a micro-macro joining between the study of organic compounds dynamic in the nervous system and neural procedures such as cortical plasticity, neurogenesis and neural distinction.

Track 5: Cancer Chemistry

The improvement of nanomaterials and nanotechnology has acquired another time the field of Nano prescription. The use of the Nanomedicine in the diverse fields of solution are offering humankind for the leap forward in medication conveyance, some assistance with blooding cleansing, tissue designing growth furthermore related fields of drug. The business sector examination says that the Nanomedicine deals for the disease conclusion has crossed $7.1billion in 2009 and with more than 230 organizations in Nano informatics and 45 items worldwide of Nano bio-innovation at least $4.6 billion in innovative work is been contributed each year. More than 490 colleges of Nano solution around the globe and around 54 commercial ventures in India are doing research in medication conveyance and biomedical instrumentation. Almost $9,600 million is been supported on this task. Tissue building is the present exploration which is concentrated by the United Kingdom.

Track 6: Nanochemistry Applications

Nanochemistry or Nanotechnology is related with the manufacture and the responses of nanoparticles, nanostructures and their mixtures. It is concerned with the distinctive properties connected with assemblies of atoms or molecules on a scale among that of the single building blocks and the bulk material (from 1 to 1000 nm). At this level, quantum properties can be significant, and also new ways of carrying out chemical reactions convert possible. This science use procedures from the synthetic chemistry and the resources chemistry to obtain nanomaterials with specific dimensions, shapes, surface belongings, defects, self-assembly properties, designed to accomplish specific functions and uses. Nanomaterials can be created from virtually any material, such as metals, semiconductors and polymers, both in their amorphous and crystalline forms.  Nanochemical approaches can be used to generate carbon nanomaterials such as carbon nanotubes (CNT), Graphene and fullerenes which have gained courtesy in recent years due to their extraordinary mechanical and electrical possessions.

Track 7: Polymer Nanotechnology

Polymer nanocomposites (PNC) consist of a polymer or copolymer containing nanoparticles or Nano fillers detached in the polymer medium. These may be of dissimilar in shape (e.g., platelets, fibers, spheroids), but at least one dimension must be in the choice of 1–50 nm. These PNC's fit to the category of multi-phase systems (MPS, viz. blends, composites, and foams) that ingest nearly 95% of plastics production. These systems necessitate controlled mixing/compounding, stabilization of the attained dispersion, orientation of the discrete phase, and the compounding strategies for all MPS, counting PNC, are similar. Polymer Nanoscience is the study and request of Nanoscience to polymer-nanoparticle matrices, where nanoparticles are those with at least one dimension of less than 100 nm. The changeover from micro to nano particles drive to change in its physical as well as chemical belongings. Two of the main factors in this are the upsurge in the ratio of the surface area to volume, and the scope of the particle. The upsurge in surface area-to-volume ratio, which upsurge as the particles get smaller, leads to an growing dominance of the performance of atoms on the outward area of particle over that of those inner of the particle. This affects the properties of the particles when they are reacting with other particles. Because of the higher surface area of the nano-particles, the communication with the other atoms within the combination is more and this upsurges the strength, heat resistance, etc. and many influences do change for the mixture. An example of a Nano polymer is silicon nanospheres which show quite dissimilar characteristics; their size is 40–100 nm and they are much solider than silicon, their stiffness being between that of sapphire and diamond.

Track 8: Green Nanochemistry

Nanotechnology is producing significant developments in technologies for protecting the environment. Nanoscale devices are being used for improved sensing, treating and remediating environmental pollutants.

Track 9: Organic Materials in Nanochemistry

Many revisions have demonstrated developments in permeability reduction to gases, moisture and organic vapors resulting from the accumulation of low concentrations of layered some nanoparticles to numerous thermoplastic matrices. This is mostly due to their nanometer scale element size and intraparticle spaces. The desired properties are typically reached at low filler volume portion, allowing the nanocomposites to retain macroscopic dispersion and low thickness of the polymer. The geometrical outline of the particle plays an important role in determining the properties of the complexes. The improved nanocomposite barrier performance illustrated by many samples has been explained by the tortuous track model, in which the existence of impermeable some platelets produces an overlapped construction that hinders penetrate diffusion and thus reduces the permeability of the material.

Track 10: Nanochemical biology

      Nanochemical biology is a scientific correction spanning the fields of chemistry, biology, and physics. It involves the presentation of chemical techniques, tools, and analyses, and often compounds produced through synthetic chemistry, to the study and manipulation of biological systems. Nano Chemical biologists attempt to use chemical principles to modulate systems to whichever investigate the underlying biology or generate new function. Research completed by chemical biologists is often nearer related to that of cell biology than biochemistry. Biochemists study of the chemistry of biomolecules and regulation of biochemical paths within cells and tissues though chemical biologists deal with novel chemical compounds applied to biology.

Track 11: Nanostructured materials

Nanostructured Materials (NsM) are resources with a microstructure the characteristic distance scale of which is on the command of a rare (typically 1–10) nanometers. NsM may be in or far away from thermodynamic equilibrium. NsM synthesized by supramolecular chemistry are samples of NsM in thermodynamic equilibrium.

Track 12: Nano-Electromechanically Systems          

Nano-electro-mechanical systems (NEMS) are a class of devices assimilating electrical and mechanical functionality on the nanoscale. NEMS form the rational following miniaturization step from so called microelectromechanical systems, or MEMS devices. NEMS usually incorporate transistor-like nanoelectronics with mechanical actuators, pumps, or motors, and may thus form physical, biological, and chemical sensors. The title derives from typical device dimensions in the nanometer range, leading to low mass, high mechanical reverberation regularities, potentially great quantum mechanical possessions such as zero point motion, and a great surface-to-volume relation useful for surface-based sensing mechanisms. Uses embrace accelerometers, or detectors of chemical substances in the in-flight.


Track 13: Nanocrystals and Clusters

Nanoclusters and Nanocrystals afford attention on various aspects of nanoclusters and Nanocrystals. Recent synthetic strategies to construct metallic or semiconducting nanoscale clusters and crystals, nanocrystalline films, control of bulk and form of clusters and crystals, progress mechanism, spectroscopic categorization, amorphous and crystalline structures, physical properties and potential engineering applications in transducers and photocatalysis.


Track 14: Graphene and Fluorographene

Graphene is a smart material, but can also be measured as a 2D nanomaterial because it is only one atom thick. Graphene is fundamentally a single layer of carbon in the form of graphite, with its layered structure of hexagonal rings of carbon particles (structure of graphite).It is conceivable to synthesise graphite in individual layers just one atom thick and the product is identified as graphene. Fluorographene (also a smart material): In fluorographene, the quarter valency electron of carbon is paired with one from fluorine to produce a 4th single covalent bond between carbon and fluorine.

Track 15: Quantum dot imaging

Quantum dots (QD) are very small particles, so minor that their optical and electronic properties vary from those of larger particles. This phenomenon is widespread in semiconductors. QD's are a central subject in nanotechnology. In the linguistic of materials science, nanoscale semiconductor materials firmly confine both electrons or electron holes. Quantum dots are also occasionally mentioned to as artificial atom, a term that emphasizes a single thing with bound, discrete electronic conditions, as is the case with naturally occurring atoms or molecules.

Track 16: Life Cycle of Nanomaterials & Applications

Nanotechnology and the manufacture of nanomaterials and products covering nanomaterials are swiftly developing fields with many occasions for innovation. However, numerous indecisions exist concerning their possible influence on the atmosphere and human health. Therefore, holistic and widespread valuation tools such as Nano Life Cycle Assessment (LCA) are important to analyze, evaluate, appreciate and manage the environmental and wellbeing effects of nanotechnology.



Market Analysis


 The new title on “Nanochemistry Market (Pharmacy, Drugs, Anti-inflammatory, Anti-infective, and nanotechnology applications) - Global Industry Analysis, Size, Share, Growth, Trends and Forecast, 2013 - 2019," predicts that the total nanochemistry market globally will be worth USD 177.60 billion by 2019, growing considerably from its 2012 value of USD 78.54 billion. This market is expected to achieve a compounded annual growth rate of 12.3% between 2013 and 2019.

The report talks about the major growth areas of within the nanochemistry market over the period of forecast. The introduction of new technologies and applications in this sector will propel growth to a significant degree at the global level. Further, the initiatives taken by various governments as well as privately-funded institutions towards promoting the commercialization of new nanochemistry products will boost this market. The report also dwells on the role played by the rising geriatric population base, the prevalence of medical needs that are in need of treatment, as well as the rising incidence of chronic diseases globally.

According to the report, the leading application segment within the nanochemistry market was that of oncology, holding a 38% share of the overall market in 2012, as a vast number of commercially available products prevail in this sector.

The development of nanochemistry-based treatments and products that are able to directly target tumors in the brain and other bodily sites is poised to be a significant factor affecting growth in this market.

Though the largest market segment within the nanochemistry market is that of oncology, the fastest growing segment is the cardiovascular market. According to the Transparency Market Research report, growth in this segment has been fuelled by the presence of a sizeable patient population, and a simultaneous growth in the demand for device and drugs that are based on nanochemistry. These factors are collectively anticipated to further fuel the growth of the cardiovascular segment within the nanochemistry market.

The report also carries out an in-depth analysis of the regional market share based on the applications, revenue, and products. According to the report, the nanochemistry market was largely dominated by North America in 2012. It is expected that this regional market will continue to hold its leading position in the way over the forecast period until 2019.

Though the larger market share will be held by North America, it is anticipated that the fastest growing market, by region, will be Asia-Pacific. The report states that the CAGR recorded by the Asia-Pacific market will be 14.6% between 2013 and 2019.

Furthermore, the analysis of the regional markets also concludes that the Europe region is predicted to show a growth rate that’s relatively higher than that of North America. Factors that are likely to cause this increased growth rate include: an improvement in the regulatory framework as well as the presence of a wide-ranging product portfolio in the pipeline, set to be introduced by leading market players.

The report on the global nanochemistry market additionally comprises an overview of the key market players in a section dedicated to company profiles. These key market players include names such as: Abbott Laboratories, Merck & Co Inc, Pfizer Inc., GE Healthcare, Nanosphere Inc., and many more.

World renowned speakers, the most recent techniques, tactics and the newest updates along with the advances in the fields of Nanomaterials & Nanotechnology.

Why to attend?

With members from around the world focused on learning about Nanotechnology engineering and Nano medicine this is your single best opportunity to reach the largest assemblage of participants from all over the world. Conduct demonstrations, distribute information, meet with current and potential customers, make a splash with a new product line, and receive name recognition at this 2-day event.

World-renowned speakers, the most recent techniques, tactics, and the newest updates in fields Nanotechnology and engineering, Nano-medicine, tissue engineering are hallmarks of this conference. Nanochemistry-2017 is an exciting opportunity to showcase the new technology, the new products of your company, and/or the service your industry may offer to a broad international audience. It covers a lot of topics and it will be a nice platform to showcase their recent researches on Nanotechnology, Material Science and other interesting topics.


The report is especially intended for entrepreneurs, investors, venture capitalists, and other readers with a need to know where the nanotechnology market is headed in the next 5 years. Other readers who should find the report particularly valuable include nanotechnology marketing executives and government officials associated with the National Nanotechnology Initiative and other state-level programs that promote the development of the nanotechnology industry. The report’s findings and conclusions should also be of interest to the broader nanotechnology community.

World-renowned speakers, the most recent techniques, tactics and the newest updates along with the Advances in the fields of Nanochemistry & Nanotechnology.

Come be Part of it...!

Organizing Committee
OCM Member
Hicham Fenniri
Professor, Chemical Engineering
The Northeastern Supramolecular Nanomaterials Lab
Boston, USA
OCM Member
Fabian Davamani
Senior Assistant Professor
International Medical University
Kualalumpur, Malaysia
OCM Member
James Liang
Associate Research Professor
Stevens Institute of Technology
New York, USA
OCM Member
S Joseph Antony
Associate Professor
University of Leeds
London, United Kingdom
OCM Member
Bharat Bhushan
Director, Nanoprobe Lab for Bio- & Nanotechnology and Biomimetics , Nanotechnology
The Ohio State University
Columbus, USA
OCM Member
Shaker A. Mousa
Pharmaceutical Research Institute
New York, USA
OCM Member
Mary Mehrnoosh Eshaghian-Wilner
Professor, Engineering
University of California
San Francisco, USA
OCM Member
Ramesh K. Agarwal
Washington University in St. Louis
Greater St. Louis, USA
OCM Member
G Ghosh
UGC-DAE Consortium for Scientific Research
Indore, India
OCM Member
Sina Mohsenian
University of Massachusetts Lowell
Boston, USA
OCM Member
Erick R. Bandala
Assistant Research Professor , Division of Hydrologic Sciences
Desert Research Institute
Las Vegas, USA
OCM Member
Bashar S.Mohammed
Associate Professor, Civil Engineering
The Universiti Teknologi PETRONAS
Seri Iskandar, Malaysia
OCM Member
Zongwei Xu
Associate Professor, Engineering
Tianjin University
Beijing, China
OCM Member
P. K. Kulriya
Inter-University Accelerator Centre
New Delhi, India
OCM Member
Emad M. Masoud
Associate Professor, Faculty of science
Benha University
Aswan, Egypt
OCM Member
Jafar Ghazanfarian
Associate professor, Engineering
University of Zanjan
Babol, Iran

To Collaborate Scientific Professionals around the World

Conference Date November 29-30, 2017
Speaker Oppurtunity Day 1 Day 2
Poster Oppurtunity Available
e-Poster Oppurtunity Available

Hotel Name: Holiday Inn & Suites Atlanta Airport l

Address: North l 1380 Virginia Avenue l

Atlanta, GA 30344

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