Tag Archives: 2014 TAPPI International Conference on Nanotechnology for Renewable Materials

Final words on TAPPI’s June 2014 Nanotechnology for Renewable Materials conference

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A July 8, 2014 news item on Nanowerk provides some statistics about the recently ended (June 23 – 26, 2014) TAPPI (Technical Association for the Pulp, Paper, Packaging and Converting Industries) Conference on Nanotechnology for Renewable Materials,

Over 230 delegates from 25 countries gathered in Vancouver, British Columbia, Canada last week at TAPPI’s 9th International Conference on Nanotechnology for Renewable Nanomaterials. “This year’s conference was exceptional,” noted co-chair Wadood Hamad, Priniciple Scientist, FPInnovations. “The keynote and technical presentations were of very high quality. The advancements made in many applications show great promise, and we will see expanded commercial use of these renewable biomaterials.”

An identical news item dated July 7, 2014 on Nanotechnology Now,notes the commercial announcements made during the conference,

Several key commercial announcements were made at this year’s conference, highlighting the tangible growth in this emerging market area of renewable biopolymers:

Celluforce, which opened their commercial plant in January 2012, shared six advanced commercial projects.

Imerys announced the launch of their new FiberLean™ MFC innovative composite, which enables a 10-15% reduction in fiber usage for papermaking applications.

Representatives from the newly formed BioFilaments shared information on their unique high performance biomaterial derived from wood cellulose to be used as reinforcing agents and rheological modifiers.

Blue Goose Biorefineries presented their patent-pending process for producing cellulose nanocrystals from wood pulp.

Nippon Paper Industries introduced Cellenpia, their cellulose nanofibers produced from their pre-commercial plant.

GL&V presented their commercial system, developed with the University of Maine, to produce cellulose nanofibrils at a very low energy cost.

American Process Inc. presented their latest results of producing lignin-coated nanocellulose particles using their AVAP® technology which produces a material that is more easily dispersed and has enhanced properties.

I wish them good luck with their projects.

Preparing nanocellulose for eventual use in* dressings for wounds

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Michael Berger writes about a medical application for wood-based nanocellulose in an April 10, 2014 Nanowerk Spotlight article by featuring some recent research from Norway (Note: Links have been removed),

Cellulose is a biopolymer consisting of long chains of glucose with unique structural properties whose supply is practically inexhaustible. It is found in the cell walls of plants where it serves to provide a supporting framework – a sort of skeleton. Nanocellulose from wood – i.e. wood fibers broken down to the nanoscale – is a promising nanomaterial with potential applications as a substrate for printing electronics, filtration, or biomedicine.

Researchers have now reported on a method to control the surface chemistry of nanocellulose. The paper appeared in the April 8, 2014 online edition of the Journal of Biomaterials Applications (“Pretreatment-dependent surface chemistry of wood nanocellulose for pH-sensitive hydrogels”).

Using a specific chemical pretreatment as example (carboxymethylation and periodate oxidation), a team from the Paper and Fibre Research Institute (PFI) in Norway demonstrated that they could manufacture nanofibrils with a considerable amount of carboxyl groups and aldehyde groups, which could be applied for functionalizing the material.

The Norwegian researchers are working within the auspices of PFI‘s NanoHeal project featured in my Aug. 23, 2012 posting. It’s good to see that progress is being made. From the Berger’s article,

A specific activity that the PFI researchers and collaborators are working with in the NanoHeal project is the production of an ultrapure nanocellulose which is important for biomedical applications. Considering that the nanocellulose hydrogel material can be cross-linked and have a reactive surface chemistry there are various potential applications.

“A concrete application that we are working with in this specific case is as dressing for wound healing, another is scaffolds,” adds senior research scientist and co-author Kristin Syverud.

“Production of an ultrapure nanocellulose quality is an activity that we are intensifying together with our research partners at the Institute of Cancer Research and Molecular Medicine in Trondheim,” notes Chinga-Carrasco [Gary Chinga-Carrasco, a senior research scientist at PFI]. “The results look good and we expect to have a concrete protocol for production of ultrapure nanocellulose soon, for an adequate assessment of its biocompatibility.”

“We have various groups working with assessment of the suitability of nanocellulose as a barrier against wound bacteria and also with the assessment of the cytotoxicity and biocompatibility,” he says. “However, as a first step we have intensified our work on the production of nanocellulose that we expect will be adequate for wound dressings, part of these activities are described in this paper.”

I suggest reading Berger’s article in its totality for a more detailed description of the many hurdles researchers still have to overcome. For the curious, here’s a link to and a citation for the paper,

Pretreatment-dependent surface chemistry of wood nanocellulose for pH-sensitive hydrogels by Gary Chinga-Carrasco & Kristin Syverud. Published online before print April 8, 2014, doi: 10.1177/0885328214531511 J Biomater Appl April 8, 2014 0885328214531511

This paper is behind a paywall.

I was hoping to find someone from this group in the list of speakers for 2014 TAPPI Nanotechnology conference website here (officially known as 2014 TAPPI [Technical Association of the Pulp and Paper Industry] International Conference on Nanotechnology for Renewable Materials) being held in Vancouver, Canada (June 23-26, 2014) but had no luck.

* ‘as’ changed to ‘in’ Apr.14.14 10:50 am PDT in headline

Deadline for submissions to 2014 TAPPI International Conference on Nanotechnology of Renewable Materials in Vancouver, Canada extended

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A November 12, 2013 news item on TextileWorld.com announced the new deadline, Nov. 22, 2014, (original deadline was Nov. 5, 2013) for the 2014 TAPPI (Technical Association for the Pulp, Paper, Packaging and Converting Industries) nanotechnology conference submissions,

The Norcross, Ga.-based Technical Association for the Pulp, Paper, Packaging and Converting Industries (TAPPI) has issued a call for 300-word abstracts for presentations to be given at the 2014 TAPPI International Conference on Nanotechnology for Renewable Materials, to be held June 23-26 at the Fairmont Hotel Vancouver in Vancouver, Canada.

… Abstracts focused on additive manufacturing, 3-D printing and other industrial manufacturing applications are preferred.

…. Deadline for submissions is November 22, 2013. …

You can find the 2014 TAPPI Nanotechnology conference website here and the PDF of the Call for Submissions here. Here’s a list of suggested topics from the Call for Submissions,

Preparation & Characterization
Renewable Nanomaterial Isolation & Separation
Cellulose nanocrystals and nanofibrils
Plant, algal, bacterial and other sources
Lignin, heteropolysaccharides, chitosan, etc.
Lab & Pilot-Scale Production
Process Optimization
New isolation & extraction methods
Drying processes
Separation processes forr enewable nanomaterials
Metrology
Sizing, mechanical,chemical, optical and surfaceproperties
Purity, molecular weight, crystallinity, etc.
Thermal, electrical and other properties
Toxicity, biocompatibility & Biodegradability
Self- and Direct-Assembly & Functionalities Nanostructured Materials by Self-assembly
Nano manufacture & self-assembly
Photonic bandgap pigments for special optical effects
Controlled delivery, immobilization, etc.
Novel Nano-enabled Functionalities
Surface modification and responsive materials
Optical effects for novel photonic applications
Inorganic materials template by cellulose nanocrystals
Novel electric, magnetic and piezoelectric effects
Sustainable polymer electronics
Carbon Fibers from Biomass
Production, characterization & uses
Membranes & Filters
New Membrane technologies
Air, water and bio filtration
Biomedical Applications
Ligament replacements, scaffolds, advanced woundtechnology
Bioactive materials
Immunoassays
Rheology and Dispersion Phenomena
Rheology behavior in aqueous and non-aqueous systems
Viscoelastic properties, etc.
Composites, Hydrogels, and Aerogels
Nanocomposites and Renewable Nanomaterials
Nano-reinforced films and fibers
Biomimetic nanocomposites
Porous materials, gels and aerogels, foams and multiphase dispersed system
Bio-derived matrix polymers
Processing
Organic/Inorganic Hybrids
Catalysts
Flexible electronics, etc.
Metal functionalization, ALD, etc,
Manufacturing Applications
Rheology and Rheological Modifiers
Industrial processing applications, e.g., food, pharma, painting, coating, oil, gas, etc.
Dispersion and flocculation
Additive Manufacturing
Raw nanomaterials
Medical applications
3D printing
Paper, Board & Packaging
Coatings & Fillers
High modulus paper coatings
Wear and scratch resistant coatings
Flexible Packaging
Barriers
Printing Technologies
Printing inks
Smart materials
Sensing technologies
Computer Modeling and Simulation
Multiscale Modeling
Solvation structure and hydrodynamics
Environmental, Health and Safety Issues
Workplace Safety & Standards
Current understanding andcritical gaps
Consumer perception and regulations
Management of risks and perceptions
Sustainability assessment, LCA

In digging about for information about the TAPPI nanotechnology conference,, I came across a reference to a meeting hosted by PAPTAC (Pulp and Paper Technical Association of Canada) regarding nanocrystalline cellulose (NCC) or, as it’s also known, cellulose nanocrystals (CNC)  held in June 2013 in Victoria, BC (preparatory to the 17th [2013] International Symposium
on Wood, Fibre and Pulping Chemistry [ISWFPC] conference in Vancouver) I thought the CNC programme interesting enough to reproduce here,

8:05
Keynote lecture by Professor Arthur Carty, Executive Director of the Waterloo Institute for Nanotechnology
Small World, Large Impact: Driving a Materials Revolution Through Nanotechnology
9:00
Dr Clive Willis, Former Vice President of National Research Council of Canada (NRC)
Standardization of CNC: Needs and Challenges
9:45 Coffee Break
10:15
Dr Richard Berry, VP and CTO, CelluForce Inc.
CelluForce—The Journey So Far
11:00
Dr Alan Rudie, USDA Forest Products Lab
Pilot Scale Production of Cellulose Nanocrystals and Cellulose Nanofibrils:
The US Need, FPL Process and Status
11:45
Professor Derek Gray, McGill University
Preparation and Optical Properties of Films Containing Cellulose Nanocrystals
12:30 Lunch
13:30
Professor Akira Isogai, Tokyo University
Applications of TEMPO-oxidized Cellulose Nanofibres to Gas Barrier Films and Nanocomposites
14:15
Dr Laurent Heux, CERMAV
Physico-chemical and Self-assembling Properties of CNC in Water and Organic Solvents
15:00
Professor Emily Cranston, McMaster University
Surface-modified Cellulose Nanocrystals: Characterization, Purification and Applications
15:45 Coffee Break
16:15
Dr Carole Fraschini, FPInnovations
Particle Issues in the Determination of Nanocellulose Particle Size
17:00
Dr Andriy Kovalenko, National Institute of Nanotechnology (NINT-NRC)
Multi-scale Modelling of the Structure, Thermodynamics,
and Effective Interactions of CNC in Different Solutions
19:00 Dinner and Award—Host: Dr J Bouchard

Monday, June 10

8:30
Dr Wadood Hamad, FPInnovations
Cellulose Nanocrystals for Advanced Functional Nanocomposites
9:15
Professor Michael Tam, University of Waterloo [emphasis mine]
Cellulose Nanocrystals—Functionalization, Characterization and Applications in Personal Care Systems
10:00
Professor Mark MacLachlan, University of British Columbia
Cellulose Nanocrystal-derived Porous Materials… With a Twist
10:45 Coffee Break
11:15
Professor Yaman Boluk, University of Alberta
Cellulose Nanocrystals in Soft Matter and Smart Applications
12:00
Professor Orlando Rojas, North Carolina State University
Self- and Direct-assembly of Cellulose Nanocrystals at Solid, Liquid and Air Interfaces: Fundamentals and Applications
12:45 Lunch
13:45
Professor John Simonsen, Oregon State University
Atomic Layer Deposition on Cellulose Nanocrystal Aerogels
14:30
Professor Alain Dufresne, Grenoble INP—Pagora
Processing of Nanocellulose Based Polymer Nanocomposites
15:15
Professor Monique Lacroix, INRS-Institut Armand-Frappier
The Use of Cellulose Nanocrystals in Food Packaging
16:00 Coffee Break
16:30
Professor Mark Andrews, McGill University
Cellulose NanocrystalsMake Light Work
17:15
Dr David Plackett, University of British Columbia
Cellulose Nanocrystals as a Vehicle for Delivery of Antibiotics

I don’t think it’s a coincidence that Michael Tam bears the same last name as Janelle Tam whose father is named Michael and both of whom lived in Waterloo when the then 16 year old Janelle Tam placed first in the 2013 Sanofi BioGENEius Challenge Competition (my May 11, 2012 posting).

There you have it, Good luck with your 2014 TAPPI nanotechnology conference submission.