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Publications

   

2019

  1. Valencia L, Arumughan V,  Jalvo B,  Maria H, Thomas S, Mathew AP, Nanolignocellulose Extracted from Environmentally Undesired Prosopis juliflora, ACS Omega, 2019, 4, 2, 4330-4338

  2. Sultan S and Mathew AP, 3D Printed Porous Cellulose Nanocomposite Hydrogel Scaffolds, JoVe, 2019,J. Vis. Exp. (146), 2019

  3. P Liu, C Zhu, AP Mathew , Mechanically robust high flux graphene oxide-nanocellulose membranes for dye removal from water, - Journal of hazardous materials, 2019   371, 484-493, 2019

  4. Valencia L, Nomena EM, Mathew AP, Velikov KP, Biobased Cellulose Nanofibril–Oil Composite Films for Active Edible Barriers ACS Appl. Mater. Interfaces, 2019 ,11, 17, 16040-16047

  5. Alanis A, Valdés JH, Guadalupe NVM, Lopez R, Mendoza R, Mathew AP, León RD, Valencia L, Plasma surface-modification of cellulose nanocrystals: a green alternative towards mechanical reinforcement of ABS, RSC Advances, 2019 9 (30), 17417-17424

2018

  1. Sultan  S, Abdelhamid HN, Zou X., MathewAP, CelloMOF: Nanocellulose Enabled 3D Printing of Metal-Organic Framework, Adv. Fun Mater 2018. https://doi.org/10.1002/adfm.201805372

  2. Valencia L, Kumar S, Jalvo B., Mautner A., Salazar-Alvarez- G. Mathew AP, Fully bio-based zwitterionic membranes with superior antifouling and antibacterial properties prepared  surface-initiated free-radical polymerization of poly(cysteine methacrylate) ,  2018, 16361-16370 

  3. Lee A. Goetz, Narges Naseri, Santhosh S. Nair, Zoheb Karim, Aji P. Mathew. All cellulose electrospun water purification membranes nanotextured using cellulose nanocrystal Cellulose May 2018, Volume 25, Issue 5, pp 3011–3023

  4. Chuantao Zhu, Susanna Monti, and Aji P. Mathew. Cellulose Nanofiber–Graphene Oxide Biohybrids: Disclosing the Self-Assembly and Copper-Ion Adsorption Using Advanced Microscopy and ReaxFF Simulations ACS Nano Article ASAP

  5. Sultan S, Mathew AP. 3D printed scaffolds with gradient porosity based on a cellulose nanocrystal hydrogel. Nanoscale. 2018;10(9):4421–31.

2017
  1. Zhu C, Liu P, Mathew AP. Self-Assembled TEMPO Cellulose Nanofibers : Graphene Oxide-Based Biohybrids for Water Purification. ACS Applied Materials and Interfaces. 2017;9(24):21048–58.

  2. Zhu C, Soldatov A, Mathew AP. Advanced microscopy and spectroscopy reveal the adsorption and clustering of Cu(II) onto TEMPO-oxidized cellulose nanofibers. Nanoscale. 2017;9(22):7419–28.

  3. Nair SS, Mathew AP. Porous composite membranes based on cellulose acetate and cellulose nanocrystals via electrospinning and electrospraying. Carbohydrate Polymers. 2017;175:149–57.

  4. Jalvo B, Mathew AP, Rosal R. Coaxial poly(lactic acid) electrospun composite membranes incorporating cellulose and chitin nanocrystals. Journal of Membrane Science. 2017;544:261–71.

  5. Hooshmand S, Aitomäki Y, Berglund L, Mathew AP, Oksman K. Enhanced alignment and mechanical properties through the use of hydroxyethyl cellulose in solvent-free native cellulose spun filaments. Composites Science And Technology. 2017;150:79–86.

  6. Herrera MA, Mathew AP, Oksman K. Barrier and mechanical properties of plasticized and cross-linked nanocellulose coatings for paper packaging applications. Cellulose (London). 2017;24(9):3969–80.

  7. Zhu, Chuantao, and Aji Mathew. Investigation of surface interactions of micro/nano-cellulose with metal ions at micro-nano-molecular scale. In ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY, vol. 253. 1155 16TH ST, NW, WASHINGTON, DC 20036 USA: AMER CHEMICAL SOC, 2017.

  8. Natalia Herrera, Anshu Anjali Singh, Asier M. Salaberria, Jalel Labidi, Aji P. Mathew and Kristiina Oksman. Triethyl Citrate (TEC) as a Dispersing Aid in Polylactic Acid/Chitin Nanocomposites Prepared via Liquid-Assisted Extrusion. Polymers 2017, 9(9), 406;

  9. Voisin H, Bergström L, Liu P, Mathew AP. Nanocellulose-Based Materials for Water Purification. Nanomaterials. 2017;7(3).

  10. Karim Z, Hakalahti M, Tammelin T, Mathew AP. In situ TEMPO surface functionalization of nanocellulose membranes for enhanced adsorption of metal ions from aqueous medium. RSC Advances. 2017;7(9):5232–41.

  11. Sahar Sultan, Gilberto Siqueira, Tanja Zimmermann, Aji P. Mathew. 3D printing of nano-cellulosic biomaterials for medical applications. Current Opinion in Biomedical Engineering. 2017;2: 29-34.

 
2016
  1. Liu P,    Garrido  B,   Oksman  K.,  A.P Adsorption isotherms and mechanisms of Cu(II) sorption onto TEMPO-mediated oxidized cellulose nanofibers, RSC Adv., 2016,6, 107759-107767

  2. Narges Naseri, B. Deepa, Aji P. Mathew, Kristiina Oksman, and Lenart Girandon, Nanocellulose-Based Interpenetrating Polymer Network (IPN) Hydrogels for Cartilage Applications, Biomacromolecules 2016 17 (11), 3714-3723

  3. Karim Z, Claudpierre S., Grahn M, Oksman K,. Mathew A. P.,  Nanocellulose based functional membranes for water cleaning: Tailoring of mechanical properties, porosity and metal ion capture. Journal of Membrane Science (2016) 514, 418 – 428.

  4. Naseri N, Poirier JM, Girandon L Fröhlich M, Oksman K,, Mathew AP, 3-Dimensional Porous Nanocomposite Scaffolds Based on Cellulose Nanofibers for Cartilage Tissue Engineering: Tailoring of porosity and mechanical performance, RSC Advances, 2016, 6, 5999 – 6007

  5. Naseri, N., Mathew, A.P , Oksman, K. Electrospinnability of bionanocomposites with high nanocrystal loadings: The effect of nanocrystal surface characteristics, 2016, Carbohydrate Polymers. 10.1016/j.carbpol.2016.04.018

  6. Liu P., Oksman K ,. Mathew AP Surface adsorption and self-assembly of Cu(II) ions on TEMPO-oxidized cellulose nanofibers in aqueous media J Colloid Interfac .  J Coll. Inter  Sci. 464C (2016) 175-182

  7. Siqueira, G., Oksman, K., Tadokoro, S. K. & Mathew, A. Re-dispersible carrot nanofibers with high mechanical properties and reinforcing capacity for use in composite materials, 2016 , Composites Science and Technology. 123, 49-56.

  8. Herrera Vargas, N., Salaberria, A. M., Mathew, A. P, Oksman, K., Plasticized polylactic acid nanocomposite films with cellulose and chitin nanocrystals prepared using extrusion and compression molding with two cooling rates: effects on mechanical, thermal and optical properties, Composites Part A: Applied Science and Manufacturing., 2016, 83, 89–97.

  9. Zoheb Karim, Aji P. Mathew, Mojca Bozic, Jiang Wei, Vanja Kokol, Mattias Grahn, Kristiina Oksman, High flux cellulose based nanocomposite as adsorbents for removal of heavy metal ions, RSC advances. 2016 5(25) 20644-20653.

  10. Goetz LA, Jalvo B, Garcia RR. Mathew AP ,Superhydrophilic anti-fouling electrospun cellulose acetate membranes coated with chitin nanocrystals for water filtration J Memb Sci 2016, 238-248.

  11. Vuddanda P.P, Mathew AP, Velaga S.  Electrospun nanofiber Mats for ultrafast release of ondansetron Reat Finc Polym, 2016, 99,  65-78

  12. Herrera, M., Sirviö, J. A., Mathew, A. & Oksman, K .Environmental friendly and sustainable gas barrier on porous materials: Nanocellulose coatings prepared using spin- and dip-coating , Materials & Design, 2016,  93, 19–25.

  13. Mautner, A., Maples, H. A., Sehaqui, H., Zimmermann, T., Perez de Larraya, U., Mathew, A., Lai, C. Y. & Bismarck, A, Nitrate removal from water using a nanopaper ion-exchanger,  Environmental Science: Water Research & Technology  2016,  2, 117-124

  14. Oksman, K., Aitomäki, Y., Mathew, A., Siquiera, G., Zhou, Q., Butylina, S., Tanpichai, S., Zhou, X. & Hooshmand, S. Review of the recent developments in cellulose nanocomposite processing, Composites Part A: Applied Science and Manufacturing., 2016, 83, 2-18.

 

2015
  1. Zhu C, Dobryden I,  Rydén J, Öberg S†, Holmgren A, Mathew AP, Adsorption behavior of cellulose and its derivatives towards Ag(I) in aqueous medium: An AFM, spectroscopic and DFT study, Langmuir 2015 31 (45), 12390.DOI:  0.1021/acs.langmuir.5b03228

  2. Deepa B, Abraham E., Cordeiro N, Mozetic M, Mathew A.P, Oksman K. Thomas S and Pothan L.A., Utilization of various lignocellulosic  biomass for the production of nanocellulose: a comparative study,  Cellulose 22, (2015) 1075.

  3. Naseri N, Mathew AP, Girandon L, Fröhlich M, Oksman K Porous electrospun nanocomposite mats based on chitosan-cellulose nanocrystals for wound dressing: Effect of surface characteristics of nanocrystals, Cellulose 22,  (2015) 521.

  4. Herrera Vargas N., Mathew AP, Oksman K., Plasticized polylactic acid/ cellulose nanocomposites prepared using melt extrusion and liquid feeding: mechanical, thermal and optical properties, Comp. Sci. Technol. 106, (2015) 149.

  5. Colic M, Mihajlovic D.  Mathew A.P, Naseri N, Kokol V., Cytocompatibilty and immunomodulatory properties of wood based nanofibrillated cellulose, Cellulose, 22, (2015) 763.

  6. Kokol V, Bozic M, Mathew AP, Characterisation and properties of homo- and heterogeneously phosphorylated nanocellulose, Carbo. Polym, 125, (2015) 301.

  7. Mautner A., Lee K-Y, Tammelin T., Mathew AP, Nedoma AJ. Li K., Bismarck A., Cellulose nanopapers as tight aqueous ultra-filtration membranes, React. Funct. Polym., 86, (2015) 209.

  8. Mtibe A., Linganiso L., Mathew AP, Oksman K., John M, Ananjiwala RD, A comparative study on the properties and micro and nanopapers produced from cellulose and cellulose nanofibers, Carbohy. Polym,118. (2015) 1.

  9. Liu P, Borrell P, Božič M, Kokol V, Oksman K, Mathew AP,  Nanocelluloses and their phosphorylated derivatives for selective adsorption of Ag+, Cu2+ and Fe3+ from water , J. Hazar. Mater 294, 2015 177-185.. http://dx.doi.org/10.1016/j.jhazmat.2015.04.001

  10. Kokol, V., Bozic, M., Vogrinčič, R. & Mathew, A. P. Characterization and properties of homo- and heterogenously phosphorylated nanocellulose 2015 : Carbohydrate Polymers. 125,.301–313

  11. Hooshmand, S., Aitomäki, Y., Norberg, N., Mathew, A. P. & Oksman, K. Dry-Spun Single-Filament Fibers Comprising Solely Cellulose Nanofibers from Bioresidue 2015: A C S Applied Materials and Interfaces. 7, 23, 13022–13028

  12.  Esmaeili, C., Abdi, M. M., Mathew, A., Jonoobi, M., Oksman, K. & Rezayi, M. Synergy Effect of Nanocrystalline Cellulose for the Biosensing Detection of Glucose, 2015 ,Sensors. 15, 10, 24681-24697

 

2014
  1. Liu P, Sehaqui, H., Tingaut, P, Adrian W, Oksman K, Mathew AP, Cellulose and chitin nanomaterials for capturing silver ions ( Ag+) from water via surface adsorption, Cellulose 21 (2014)  449-461.

  2. Hassan Mohammad L, Mathew Aji P, Hassan Enas A, Fadel Shiamaa M, Oksman, Kristiina. Improving Cellulose/Polypropylene Nanocomposites Properties with Chemical Modified Bagasse Nanofibers and Maleated Polypropylene, Journal of Reinforced Plastics and Composites, 33, (1) 2014 26-36

  3. Jonoobi M, Aitomäki Y, Mathew AP, Oksman K, Thermoplastic polymer impregnation of cellulose nanofiber networks: Morphology, mechanical and optical properties, Composites Part 58 (2014), 58. 30-35

  4. Naseri N, Algan C, Jacobs V, John M, Oksman K, Mathew AP, Electrospun chitosan-based nanocomposite mats reinforced with  chitin nanocrystals for wound dressing application, Carbohydrate polymers 109C (2014), pp. 7-15  .DOI: 10.1016/j.carbpol.2014.03.031

  5. Hooshmand S., Cho S-W, Akrifars M., Mathew AP, Oksman K, Melt spun cellulose nanocomposite fibers: Comparison of two dispersion techniques,  Plastics, rubbers and Composites,  43  (2014) 15-24.

  6. Mojca Božič, Peng Liu, Aji P. Mathew, Vanja Kokol, Enzymatic phosphorylation of cellulose nanofibers to new highly-ions adsorbing, flame-retardant and hydroxyapatite-growth induced natural nanoparticles, Cellulose, 2014 21, 2713- 2726.

  7. Mathew AP, Oksman K, Karim Z, Liu P and Khan SA, Process scale-up and characterization of cellulose nanocrystals isolated from wood resources, Industrial Crops and Products,  58, 2192-2198 (2014).

  8. Martha Herrera, Aji  P Mathew, K.Oksman,  Gas permeability and selectivity of cellulose nanocrystal films (layers) deposited by spin coating, Carbohydrate Polymers  2014, 112, 494- 501.

  9. Sehaqui, H.,Perez de Larraya U,  Liu P, Mathew AP, Zimmermann, T. & Tingaut, P. Enhancing adsorption of heavy metal ions onto biobased nanofibers from waste resources for application in wastewater treatment, Cellulose, 21.( 2014), 2831.

  10. Karim Z, Mathew AP, Grahn M, Mouzon J, Oksman K, Nanoporous membranes containing cellulose nanocrystals as functional additive: Evaluation of removal of dyes from water, Carbohydrate Polymers 112, (2014)  668.

  11. Martha Herrera, Aji P Mathew, K.Oksman, Gas permeability and selectivity of cellulose nanocrystal films (layers) deposited by spin coating, Carbohydrate Polymers  112, (2014).

  12. Hooshmand S., Aitimaki Y. Akrifars M., Mathew AP, Oksman K, All cellulose nanocomposite fibers by mltspinning of cellulose acetate butyrate and cellulose nanocrysals: Cellulose 21, 4, (2014)  2665.

 2013
  1. M, Jacob John, R. Anandjiwala, K Oksman, A.P Mathew. Effect of cellulose nanowhiskers on the processing and properties of melt-spun polylactic acid (PLA) fibers, J. Appl.Polym. Sci., 127(1) (2013) 274.

  2. Jonoobi M, Mathew AP, Abdi MM, Makinejad MD, Oksman K, A comparison of modified and unmodified cellulose nanofiber reinforced polylactic acid (PLA) prepared by twin screw extrusion, submitted to Journal of Polymers and Environment, 20(4),(2012) 991-997.

  3. Mathew AP, Oksman K, Pierron D, Harmand M-F. Biocompatible fibrous networks of cellulose nanofibres and collagen crosslinked using genipin: Potential as artificial ligament /tendons, Macromolecular Bioscience, 13(3), 289-298 (2013)

  4. Hietala M, Mathew AP, Oksman K, Bionanocomposites of thermoplastic starch and cellulose nanofibers manufactured using twin-screw extrusion, European Polymer Journal, Eur. Polym. J 49, 950-956, (2013)

 2012
  1. Visakh. P. M, Thomas S, Oksman K, Mathew A P, Crosslinked Natural Rubber Nanocomposites Reinforced with Cellulose Nanowhiskers Isolated From Bamboo Waste: Processing, Mechanical /Thermal Properties, Composites Part A, 43 (2012) 735-741.

  2. Mathew AP, Oksman K, Pierron D, Harmad M-F, Cross-linked fibrous composites based on cellulose nanofibers and in situ pH induced collagen fibrillation, Cellulose 19(2012) 139-150.

  3. Visakh PM, Thomas S, Oksman K. Mathew AP, Cellulose nanofibre (CNF) and cellulose nanowhisker (CNW) based natural rubber composites: Diffusion, sorption and permeation of aromatic organic solvents, Journal of Applied Polymer Science 124 (2012) 1614-1623.

  4. Herrera MA, Mathew AP Oksman K, Comparison of cellulose nanowhiskers extracted from industrial bio-residue and commercial microcrystalline cellulose, Materials Letters, 71 (2012) 28–31.

  5. Gong G, Mathew AP, Oksman K, Efficient toughening and reinforcing of polyvinyl acetate, SPE Plastic Research online, 15th February, 2012.

  6. Visakh PM, Thomas S, Oksman K. Mathew AP, Effect of cellulose nanofibers isolated from bamboo pulp residue on vulcanized natural rubber, BioResources, 7(2012) 2156-2168

  7. Jonoobi M, Mathew AP, Oksman K. Producing low-cost cellulose nanofiber from sludge as new source of raw materials, Industrial Crops and Products 40 (2012) 232-238.

  8. Samyn, P. Laborie M_P, Mathew A.P. et al, Metastable patterning of plasma nanocomposite films by incorporating cellulose nanowhiskers, Langmuir, 28 (2) (2012) 1427

  9. Mathew AP, Oksman K, Pierron D, Harmad M-F. Fibrous Cellulose Scaffolds Prepared by Partial Dissolution for Potential Use as Ligament or Tendon Substitutes, Carbohydrate Polymers 87, 3(2012) 2291-2298.

  10. Jonoobi M, Mathew AP, Abdi MM, Makinejad MD, Oksman K, A comparison of modified and unmodified cellulose nanofiber reinforced polylactic acid (PLA) prepared by twin screw extrusion, J Polym Environ, 20, 4, (2012) 991-997 .

2011
  1. Herrera N, Mathew AP, Wang L, Oksman K. Randomly Oriented and Aligned Cellulose Fibres Reinforced with Cellulose Nanowhiskers and Prepared by Electrospinning. Plastics, Rubber and Composites: Macromolecular Engineering, 40 (2011) 57-64.

  2. Gong G, Mathew AP, Oksman K. Strong aqueous gels of cellulose nanofibers and nanowhiskers isolated from softwood flour, TAPPI Journal, 10(2) 2011.

  3. Shakeri A, Mathew AP, Oksman K, Self-reinforced nanocomposite by partial dissolution of cellulose microfibrils in ionic liquid, Journal of Composite Materials, 9 (2011) doi:10.1177/0021998311418017.

  4. Gong G, Mathew AP, Oksman K. Toughening effect of cellulose nanowhiskers (CNWs) on polyvinyl acetate (PVAc): Fracture toughness and viscoelastic analysis, Polymer Composites, 32 (2011) 1492-1498.

  5. Gong G, Pyo J, Mathew AP, Oksman K, Tensile behavior, morphology and viscoelastic analysis of cellulose nanofiber-reinforced (CNF) polyvinyl acetate (PVAc), Composites part A, 42 (2011) 1275-1282.

  6. Goetz L, Mathew AP, Oksman K, Ragauskas AJ. Thermal gravimetric analysis of in-situ crosslinked nancellulose whiskers-poly(methyl vinyl ether) co maleic acid-polyethylene glycol, TAPPI JOURNAL, 10, 4 (2011) 29-33.

  7. Herrera MA, Mathew AP Oksman K, Characterization of cellulose nanowhiskers: A comparison of two industrial bio-residues, IOP Conf. Series: Materials Science and Engineering 31 (2012) 012006         (doi:10.1088/1757-899X/31/1/012006)

  8. Siqueira G, Mathew AP, Oksman K. Preparation of cellulose nanowhiskers/cellulose acetate butyrate nanocomposites using sol-gel process to facilitate dispersion, Composites Science and Technology, 71 (2011) 1886-1892.

  9. Samyn P., Aroudji A, Laoraie MP, Mathew AP, Roucoules V., Plasma deposition of polymer composite films incorporating nanocellulose whiskers, European Physical Journal- Appl.Phys. 56(2)  (2011) , DOI: 10.1051/epjap/2011110170

  10. Mathew AP, Gong G, Nicholas B, David W, Oksman K., Moisture absorption behaviour and its impact on the mechanical properties of cellulose whiskers based polyvinylacetate nanocomposites, Polym Eng. Sci. 51(11) (2011) 2136.

  11. M.L. Hassan, Aji P Mathew, E.A. Hassan, E-W Nahala K.Oksman Nanofibers from bagasse and rice straw: Process optimization and properties, Wood Science and Technology, 2011, DOI: 10.1007/s00226-010-0373-z

2010
  1. Mehdi Jonoobi, Jalaludin Harun, Aji P Mathew, Kristiina Oksman, Mechanical properties of cellulose nanofibers reinforced PLA prepared by twin screw extrusion, submitted to Composites Science and Technology 70, 12,  (2010), 1742. (n.34)

  2. Mehdi Jonoobi, Jalaludin Harun, Aji P.Mathew, Hussein MZ, Kristiina Oksman, Preparation of cellulose nanofibers with hydrophobic surface characteristics, Cellulose,  17, (2010), 299.( n.20)

  3. Kekäläinen, K., Suopajärvi, T., Mathew, A. P., Oksman, K., Laitinen, O. & Niinimäki, J. Effect of peroxide treatment on energy consumption of refining and quality 2010,: International Paperworld. 9, s. 12-17.

  4. Suopajärvi, T., Mathew, A. P., Kekäläinen, K., Grubbström, G., Oksman, K., Laitinen, O & Niinimäki, J. Comparison of two refining methods in production of microfibrillar cellulose: kinetics of refining and energy consumption 2010, International Paperworld. 12, s. 10-13.

  5. Lee Goetz, Foston M, Aji P. Mathew, Kristiina Oksman, Art J. Ragauskas, Poly(methyl vinyl ether-co-maleic acid)–polyethylene glycol nanocomposites crosslinked in-situ with cellulose nanowhiskers, Biomacromolecules ,11, 10,(2010). 2660.

  6. M.L. Hassan, Aji P Mathew, E.A. Hassan, K.Oksman Effect of pre-treatment of bagasse pulp on the properties of isolated nanofibers and nanopaper sheets, Wood and fiber science, 42(30), 2010

  7. Kirsi Mikkonen, Aji P. Mathew , Pirkkalainen K., Serimaa R, Xu C, Willför S,  Oksman K, Tenkanen M, Glucomannan composite films with cellulose nanowhiskers Cellulose, 17, (2010), 69 (n.20)

  8. Lee Goetz, Foston M, Aji P. Mathew, Kristiina Oksman, Art J. Ragauskas, Poly(methyl vinyl ether-co-maleic acid)–polyethylene glycol nanocomposites crosslinked in-situ with cellulose nanowhiskers, Biomacromolecules ,11, 10,(2010). 2660. (n .11)

2009-1995
  1. Jackson-Etang, Ayuk, Aji P.Mathew, Kristiina Oksman  The effect of plasticizer and cellulose nanowhiskers content on the dispersion and properties of cellulose acetate butyrate nanocomposites. Journal of Applied Polymer Science 114 (5), (2009) 2723, (n.11)

  2. Kristiina Oksman, Jackson Etang Ayuk, Aji P. Mathew, Mehdi Jonoobi, Cellulose Nanowhiskers Separated from a Bio-residue from Wood Bioethanol production, Biomass and Bioenergy (2009).

  3. Lee Goetz, Aji P.Mathew, Kristiina Oksman,  Paul Gatenholm, Art J Ragauskas, A Novel nanocomposite film prepared from crosslinked cellulosic whiskers, Carbohydrate Polymers,75, (2009), 85 (n.35)

  4. Kristiina Oksman, Aji P.Mathew; Runar Långström, Kuruvilla Joseph, Birgitha Nyström, The influence of fibre microstructure on fibre breakage and mechanical properties of natural fibre reinforced polypropylene. Composites Science and Technology. 69, 11-12, (2009) 1847 (n.24)

  5. Aji P.Mathew, Marie- Pierrie Laborie, Kristiina Oksman, Cross-Linked Chitosan/Chitin crystal nanocomposites with improved permeation selectivity and pH stability. Biomacromolecules, 10, 6, (2009),1627-1632

  6. Benoit Duchemin, Aji P. Mathew, Kristiina Oksman. All-cellulose composites by partial dissolution in the ionic liquid 1-butyl-3-methylimidazolium chloride. Composites. Part A, Applied science and manufacturing40, 12, (2009), 2031. (n.22)

  7. Linnea Petersson, Aji P Mathew, Kristiina Oksman. Dispersion and properties of cellulose nanowhiskers and layered silicates in cellulose acetate butyrate nanocomposites. J. Appl.Polym. Sci. 112(4) (2009),2001. (n.22)

  8. Kristiina Oksman, Aji P.Mathew, Mohini Sain. Novel bio-nanocomposites: Processing properties and potential applications, Plastics Rubber and Composites: Macromolecular Engineering 38 (9/10) (2009) 396.(n.13)

  9.  Aji P Mathew, W. Thielsman and Alain Dufresne, Mechanical properties of nanocomposites from sorbitol plasticized starch and tunicin whiskers, J. Appl. Polym. Sci. , 109, (2008) 4065  (n.31)

  10. Bondeson D, Mathew AP, Oksman K. Optimization of the Isolation of Nanocrystals from Microcrystalline Cellulose by Acid Hydrolysis. Cellulose, 13, (2006), 171. (n.169)

  11. Oksman K, Mathew AP, Bondeson D, Kvien I, Manufacturing Process of Polylactic Acid (PLA) – Cellulose Whiskers Nanocomposites, Composite Science and Technology, 66 (2006) 2776 (n. 143)

  12. Linnea Petersson, Kristiina Oksman, Aji .P.Mathew, Using Maleic Anhydride Grafted Poly(lactic acid) as a Compatibilizer in Poly(lactic acid)/Layered Silicate Nanocomposites,  J. Appl. Polym. Sci., 102, (2006), 1852 (n.10)

  13. Aji P. Mathew, Ayan Chakraborty, Kristiina Oksman and Mohini Sain, The structure and mechanical properties of cellulose nanocomposites prepared by twin screw extrusion.  , ACS symposium series 938, Kristiina Oksman and Mohini Sain Eds Cellulose Nanocomposites Processing, Characterization and Properties, Oxford: Oxford University Press (2006). (n.17)

  14. Mathew AP, Oksman K, Sain M. The Effect of Morphology and Chemical Characteristics of Cellulose Reinforcements on the Crystallinity of Polylactic Acid. Journal of Applied Polymer Science, 101 (1), (2006), 300. (n. 77) Mathew AP, Oksman K, Sain M. Mechanical Properties of Biodegradable Composites from Polylactic Acid (PLA) and Microcrystalline Cellulose (MCC), Journal of Applied Polymer Science, 97, (2005), 2014. (n. 122)

  15. Aji P. Mathew, Hima Varghese, S. Packirisamy, Sabu Thomas, Electrical properties of Natural Rubber/Polystyrene (NR/PS) Interpenetrating Polymer Networks, J.Appl. Polym Sci. 98, (2005), 2017.

  16. Aji P. Mathew, S. Packirisamy, Ranimol Stephen, Sabu Thomas. Transport of aromatic solvents through natural rubber/polystyrene (NR/PS) interpenetrating polymer network membranes, Journal of Membrane Science, 201, (2003), 213 (n:17)

  17. Aji P. Mathew, Alain Dufresne, Morphological Investigation of Nanocomposites from Sorbitol Plasticized Starch and Tunicin Whiskers, Biomacromolecules, 3, (2002),  609 .(n.154)

  18. Aji P. Mathew, Alain Dufresne, Plasticized Waxy Maize Starch: Effect of Polyols and Relative Humidity on Material Properties, Biomacromolecules, 3, (2002) 1101, (n.88)

  19. Aji P. Mathew, S. Packirisamy, Sabu Thomas. Studies on the thermal stability of Natural rubber/polystyrene interpenetrating polymer networks: thermogravimetric analysis, Polym.Deg. and.Stab., 72, (2001) 423. (n.44)

  20. Aji P. Mathew, S. Packirisamy, and Sabu Thomas, Effect of initiating system, blend ratio and crosslink density on the mechanical properties and failure topography of nano-structured full-interpenetrating polymer networks from natural rubber and polystyrene, Eur. Polym. J. 37(9), (2001), 1921 (n.17)

  21. Aji P. Mathew, G. Groeninckx, H. J. Radhusch, G. H. Michler and Sabu Thomas , Viscoelastic properties of nano-structured natural rubber/polystyrene interpenetrating polymer networks, J. Polym. Sci.  Polym. Phys. 41, (2003) 1680

  22. Aji P. Mathew, Sabu Thomas, Izod impact behavior of natural rubber/polystyrene interpenetrating polymer networks, Mater. Lett. 50 (2-3) (2001) 154.

  23. Aji P. Mathew, S. Packirisamy, Sabu Thomas. Morphology, mechanical properties and failure topography of semi-interpenetrating polymer networks based on natural rubber and polystyrene, J. Appl. Polym. Sci. 78 (5) , (2000), 2327. (n.13)

  24. Abi S. Aprem, Aji P. Mathew, Kuruvilla Joseph, Sabu Thomas. Sorption and diffusion of acrylonitrile monomer through crosslinked nitrile rubber, J. Appl. Polym. Sci. 78(5) (2000),  941,

  25. Aji P. Mathew, S. Packirisamy, A. S. Padmanabhan, Sabu Thomas, Kinetics of diffusion if styrene monomer containing divinyl benzene through vulcanized natural rubber, J. Polym Eng., 17(5), (1997) 405.

  26. Aji P. Mathew, S. Packirisamy, M.G. Kumaran, Sabu Thomas. Transport of styrene monomer through natural rubber, Polymer, 36(26), (1995)  4935, (n.40)

Peer revised Book Chapters

  1. Jonoobi, M., Mathew, A. P. & Oksman, K. Natural Resources and Residues for Production of Bionanomaterials, 2014 Handbook of Green Materials: Processing Technologies, Properties and Applications. Oksman, K., Mathew, A. P., Bismarck, A., Rojas, O. & Sain, M. (eds.). Singapore: World Scientific, Vol. 1 :Bionanomaterials: separation processes, characterization and properties.

  2. Mathew, A. P. & Oksman, K .Processing of Bionanocomposites: Solution Casting, 2014 Handbook of Green Materials: Processing Technologies, Properties and Applications. Oksman, K., Mathew, A. P., Bismarck, A., Rojas, O. & Sain, M. (eds.). Singapore: World Scientific, Vol. 1 :Bionanomaterials: separation processes, characterization and properties.

  3. Mathew, A. P., Liu, P., Karim, Z. & Oksman, K. Nanocellulose and Nanochitin in Membrane Applications 2014 Handbook of Green Materials : Processing Technologies, Properties and Applications. Oksman, K., Mathew, A. P., Bismarck, A., Rojas, O. & Sain, M. (eds.). Singapore: World Scientific, Vol. 3 : Self- and direct-assembling of bionanomaterials, (Materials and Energy; No. 5).

  4. Mathew AP and Oksman K, In Production and Applications of Cellulose Nanomaterials. Postek, M. T., Moon, R. J., Rudie, A. & Bilodea, M. (Eds) TAPPI Press, Ch 2.2, 219-222, (2013)

  5. Oksman K, Mathew AP, Jonoobi M, Heiltala M, Herrera Vargas N, In Production and Applications of Cellulose Nanomaterials. Postek, M. T., Moon, R. J., Rudie, A. & Bilodea, M. (Eds) TAPPI Press, Ch 1.5, 99-102 ( 2013)

  6. Herrera M., Mathew AP and Oksman K, In Production and Applications of Cellulose Nanomaterials. Postek, M. T., Moon, R. J., Rudie, A. & Bilodea, M. (Eds) TAPPI Press, Ch 1.1, 13-16 (2013)

  7. Oksman K, Mathew AP, Jonoobi M. Sequier G, Hietala M and Aitomäki Y, In Production and Applications of Cellulose Nanomaterials. Postek, M. T., Moon, R. J., Rudie, A. & Bilodea, M. (Eds) TAPPI Press, Ch 2.1, 187-190 (2013)

  8. Mathew AP, Karim Z, Liu P,  Oksman K,  Nanocellulose for water purification membranes In Production and Applications of Cellulose Nanomaterials. Postek, M. T., Moon, R. J., Rudie, A. & Bilodea, M. (Eds) TAPPI Press, Ch 1.6, 155-156 (2013)

  9. Herrera Vargas N, Hosshmand S, Mathew AP,  Oksman K,  In Production and Applications of Cellulose Nanomaterials. Postek, M. T., Moon, R. J., Rudie, A. & Bilodea, M. (Eds) TAPPI Press, Ch 1.4, 115-118 (2013)

  10. Deepalakhmi P, Visakh PM, Mathew AP, Chandra A, Thomas S, In Advances in elastomers I; Blends and interpenetrating networks, Visakh PM , Thomas S,  Chandra A, Mathew AP, (Eds)  Springer- Verlag Berlin Heidelberg, Vol 11, Ch 1, 1-9 (2013)

  11. Deepalakhmi P, Visakh PM, Mathew AP, Chandra A, Thomas S, In Advances in elastomers II ; Composites and nnaocomposite,, Visakh PM , Thomas S,  Chandra A, Mathew AP, (Eds)  Springer- Verlag Berlin Heidelberg Vol 18, Ch 1, 1-9 (2013)

  12. Visakh PM, Mathew AP, Thomas S, In Advances in natural polymers, composites and nanocomposites, Thomas S, Visakh PM , Mathew AP, (Eds)  Vol 12, Springer- Verlag Berlin Heidelberg Ch 1, 1-20  (2013)

  13. Mathew AP, Interpenetrating polymer networks: Processing, properties and applications, In Advances in Elastomers I ; Blends and interpenetrating networks, Visakh PM , Thomas S,  Chandra A, Mathew AP, (Eds)  Springer- Verlag Berlin Heidelberg, Vol 11, Ch 10, 283- 301(2013)

  14. Aji P. Mathew, Ayan Chakraborty, Kristiina Oksman and Mohini Sain, The structure and mechanical properties of cellulose nanocomposites prepared by twin screw extrusion.  , ACS symposium series 938, Kristiina Oksman and Mohini Sain Eds Cellulose Nanocomposites Processing, Characterization and Properties, Oxford: Oxford University Press (2006). (n.17)

  15. Aji P Mathew and Kristiina Oksman, Chitosan nanocomposites for biomedical applications, In Challa S.S.R. Kumar (ed). NMLS08, Nanocomposites, Wiley-VCH, Weinheim, pp53-79. 27 2010, (Nanomaterials for the Life Sciences; 8) (Invited chapter)

  16. Visakh PM, Aji P. Mathew Kristiina Oksman and Sabu Thomas, Starch based bionanocomposites, In Polysaccharide Building Blocks: A Sustainable Approach To Renewable Materials, Y. Habibi and L. Lucia (ed.) John Wiley & Sons, Inc., of 111 River Street, Hoboken, NJ 07030 in press (Invited chapter)

  17. Aji Mathew, Zoheb Karim, Liu Peng, and Kristiina Oksman, Nanocellulose and nanochitin in membrane application;  K.Oksman Eds, orld Scientific Publishers 2014 (invited chapter)

Edited Books

  1. Advances in elastomers I; Blends and interpenetrating networks, In advanced structured materials, Visakh PM, Thomas S, Chandra A, Mathew AP, (Eds)  Springer- Verlag Berlin Heidelberg  Vol 11, (2013)

  2. Advances in elastomers II; Composites and nanocomposite, In advanced structured materials, Visakh PM, Thomas S, Chandra A, Mathew AP, (Eds)  Springer- Verlag Berlin Heidelberg Vol 18, (2013)

  3. Advances in natural polymers, composites and nanocomposites, In advanced structured materials, Thomas S, Visakh PM , Mathew AP, (Eds) Springer- Verlag Berlin Heidelberg Vol 12.  (2013)

  4. Bionanomaterials:  Separation processes, characterisation and properties Vol 1., In Hand book for green materials, Processing technologies, Properties and Applications, Oksman K. Mathew AP,  Bismarck A, Rojas O, Sain M, (Eds)  World Scientific Publications, 2013

  5. Bionanocomposies:  Processing, characterisation and properties Vol 2, In Hand book for green materials: Processing technologies, Properties and Applications, Oksman K. Mathew AP,  Bismarck A, Rojas O, Sain M, (Eds)  World Scientific Publications, 2013

  6. Self and direct-assembling of bionanomaterails Vol 3., In Hand book for green materials, Processing technologies, Properties and Applications, Oksman K. Mathew AP, Bismarck A, Rojas O, Sain M, (Eds) World Scientific Publications, 2013

  7. Biobased composite materails, their processing, properties and industrial applications Vol 4.  In Hand book for green materials, Processing technologies, Properties and Applications, Oksman K. Mathew AP, Bismarck A, Rojas O, Sain M, (Eds) World Scientific Publications, 2013

 

Peer-reviewed conference contributions

  1. Aji P Mathew, Peng Liu, Zoheb Karim, Kristiina Oksman, Nanocellulose as functional materials for water cleaning,  in Cellulose Structures, Surfaces, and Interfaces: Towards Truly Nanostructured Materials Novel Applications of Nanocellulose247th ACS meeting, Dallas,  16-20, March 2014.   (Oral presentation)

  2. Aji P Mathew et al, Bio-based membranes and adsorbents for water purification: NanoSelect activities, 4th Dissemenation workshop for the nano4water cluster, April 23-24, Stockholm, Sweden (Oral presentation)

  3. Peng Liu , Kristiina Oksman, Mojca Božič,Vanja Kokol , Aji P. Mathew  Selective adsorption of Ag+, Cu2+ and Fe3+ from industrial waster water onto nanocellulose, 4th Dissemenation workshop for the nano4water cluster, April 23-24, Stockholm, Sweden ( poster presentation)

  4. Hakalahti, M., Hänninen, T., Setälä, H., Mautner, A., Bismarck, A., Karim, Z., Mathew, A., Tammelin, T. Surface modification of nanocellulose membranes using thermoresponsive poly(N-isopropylacrylamide). 4th Dissemination Workshop of the nano4water Cluster, Stockholm, Sweden, 23-24 April, 2014 (Poster presentation).

  5. Zoheb Karim,Aji P. Mathew, Mattias Grahn, Kristiina Oksman, Fully biobased nanocomposite membranes: removal of heavy metals from polluted water, 4th Dissemenation workshop for the nano4water cluster,  April 23-24, Stockholm, Sweden (poster presentation)

  6. Aji P Mathew and Kristiina Oksman, Nanocellulose isolation and scale up: Possibilities and challenges, 13th International Symposium on Bioplastics, Biocomposites and Biorefining (ISBBB), Guelph, Ontario, Canada May 19 to 24, 2014.  (Oral presentation)

  1. Zoheb Karim, Aji. P. Mathew, Mattias Grahn and Kristiina Oksman, Fully biobased nanoporous high flux membranes, fabricated with nanocellulose functional entities: Removal of contaminants form wastewater, 13th International Symposium on Bioplastics, Biocomposites and Biorefining (ISBBB), Guelph, Ontario, Canada May 19 to 24, 2014.  (Poster presentation)

  2. Peng Liu, Aji Mathew, Kristiina Oksman, Mojca Božič, Vanja Kokol. Adsorption Characteristics of Heavy Metal Ions from Aqueous Medium onto Nano Polysaccharides, 13th International Symposium on Bioplastics, Biocomposites and Biorefining (ISBBB), Guelph, Ontario, Canada May 19 to 24, 2014.  (Oral resentation)

  3. Peng Liu, AP Mathew, K.Oksman Adsorption Characteristics of Heavy Metal Ions from Aqueous Medium onto Polysaccharide Nanocrystals, 21-24 October, 2013 International Polysaccharide Conference, Nice, France.

  4. Zoheb Karim Aji P Mathew, Mattias Grahn, Kristiina Oksman Cellulose nanocrystals (CNCs) as a functional entity for the fabrication of membranes for water purification: Effect of processing method on the mechanical stability and adsorption of contaminants, 21-24 October, 2013, International Polysaccharide Conference, Nice, France.

  5. Naseri N., Algan C, Oksman K and Mathew AP, Electrospun chitosan random mats with chitin and cellulose nanocrystals for wound dressing application, MiMe, Materials in Medicine, International conference 1st edition, Oct 8-11, 2013, Faenza, Italy  (Abstract, Proceedings Page 204, 16-MC-O)

  6. Poirier JM, Naseri N, Mathew A, Oksman K, Porous nanocomposite scaffolds containing cellulose nanofibers for cartilage applications: mechanical properties and biocompatibility, MiMe, Materials in Medicine, International conference 1st edition, Oct 8-11, 2013, Faenza, Italy (Abstract, Proceedings Page 225, 13-MC-P)

  7.  Peng Liu, AP Mathew and Kristiina Oksman, Adsorption Characteristics of Nanocrystals Isolated from Bioresidues: Effect of pH and Surface Charge, 7th EEIGM International Conference on Advanced Materials Research, 21 March 2013 Luleå.

  8. Zoheb Karim, Water cleaning membranes based on cellulose nanowhiskers: Removal of dyes from contaminated water, 17 April 2013, Nano4water Workshop Dresden

  9. Aji P Mathew, Bio- nanocomposite membranes for water purification: Tailoring the morphology and selectivity for pollutants, Nano4water Workshop, 17 April 2013, Dresden, Germany

  10. Zoheb Karim, Krsitiina Oksman  and Aji P Mathew Water cleaning membranes based on cellulose nanowhiskers: Removal of dyes from contaminated water, 17 April 2013, Nano4water Workshop Dresden, Germany.

  11. Houssine Sehaqui,  Peng Liu,  Aji P Mathew, Tanja Zimmermann and Philippe Tingaut, Adsorption of heavy metal ions (Cu2+) onto biobased nanofibers, 17 April 2013, Nano4water Workshop Dresden Germany

  12. Peng Liu and Aji P Mathew Adsorption Characteristics of Nanocrystals  Isolated from Bioresidues: Effect of pH and Surface Charge, 7th EEIGM International Conference on Advanced Materials Research, 21 March 2013 Luleå, Sweden

  13. Zoheb Karim, Kristiina Oksman and Aji P Mathew, Chitosan based nanocomposite membranes with cellulose nanowhisker as nanoadditive, 7th EEIGM International Conference on Advanced Materials Research, 21 March 2013, Luleå, Sweden

  14. Aji P Mathew, Nanoenabled membranes based on biomaterials for water purification, 2nd Dissemination Workshop of the Nano4water Cluster(www.nano4water.eu,) Recent Advances in Nanotechnology-based Water Purification Methods, 24-25 April 2012,Thessaloniki, Greece

  15. Hietala M, Mathew AP, Oksman K, Extrusion of Thermoplastic Starch Reinforced with Cellulose Nanofibers, International Conference on Biomaterials, Transition to Green Materials, 7-8 May, 2012, Niagara Falls, Canada

  16. Herrera M Mathew AP, Oksman K. A comparison of two industrial bio-residues, IOP Conf. Series: Materials Science and Engineering, October 2011, Nancy, France

  17. Jonoobi M, Mathew AP, Oksman K, Separation process and characteristics of cellulose nanofibers extracted from industrial bioresidue, BEPS, 27-29 September, 2012, Vienna, Austria

  18. Hooshmand S, Mathew A Oksman K, Manufacturing and characterization of melt spun and wet spun bionanocomposite fibers, 23rd Annual international SICOMP Conference, Piteå Sweden 4-5 June 2012.

  19. Herrera M, Mathew AP, Oksman K, The use of industrial bio residues in the production of cellulose nanocrystals, 23rd Annual international SICOMP Conference, Piteå Sweden 4-5 June 2012. 

  20. Mathew AP, Oksman K, Biobased nanocomposites for biomedical applications, Nanoparticles and composites workshop, 23-24 February 2012, Oulu, Finland

  21. Aitomäki Y, Mathew AP and Oksman K, Review of the infusion and the consolidation process of paper and nano fibermats for composites manufacturing, Nanoparticles and composites workshop, 23-24 February 2012, Oulu Finland

  22. Herrera M, Mathew AP and Oksman K, Contact angle and gas barrier of spin coated thin films of cellulose nanowhiskers, Nanoparticles and composites workshop, 23-24 February 2012, Oulu, Finland.

  23. Jonoobi M, Mathew AP and Oksman K, Study on the energy consumption and cost of cellulose nanofibers produced by mechanical process, Nanoparticles and composites workshop, 23-24 February 2012, Oulu, Finland

  24. Hoosmand S, Mathew AP and Oksman K, Nanocomposite fibers by melt spinning of cellulose acetate butyrate (CAB) and cellulose nanowhiskers (CNW), Nanoparticles and composites workshop, 23-24 February 2012, Oulu, Finalnd

  25. Siqueira G, Mathew AP, Tadokoro SK, Oksman K “Morphological and mechanical properties of wood and carrot nanofiber networks” 5th Conference on Materials Research, Luleå University of Technology, Nordkalotten, 23 November 2010

  26. Mathew AP, Oksman K, Fiber spinning of biopolymer containing nanowhiskers: Possibilities and challenges, IAWS 2011, Aug 31 - Sept 2, Stockholm, Sweden.

  27. Mathew AP, Oksman K, Artificial Ligaments/Tendons Based on Cellulose Nanofibers, 11th Int. Conference of Wood and Biofiber Plastic Composites, May 16-18, 2011, Madison, WI USA.

  28. Siqueira G, Mathew AP, Tadokoro SK, Oksman K “Carrot Nanofibers and Nanocomposites Applications” XII International Macromolecular Colloquium and 7th International Symposium on Natural Polymers and Composites, Gramado, Brazil, September 7-10th, 2010.

  29. Herrera MP, Etang JA, Mathew AP, Oksman K, Novel biorefinery: A residue from wood bioethanol production converted into cellulose nanocrystals, 2010 International Conference on Nanotechnology for the Forest Products Industry, Espoo, Finland, September 27-29th, 2010.

  30. Gong G, Mathew AP, Oksman K, Deformation behaviour and fracture mechanisms of cellulose nanocomposites based on polyvinyl acetate (PVAc), 2010 International Conference on Nanotechnology for the Forest Products Industry, Espoo, Finland, September 27-29th, 2010.

  31. Tadokoro SK, Mathew AP, Oksman K “Characterization of cellulose nanomaterials” 2010 International Conference on Nanotechnology for the Forest Products Industry, Espoo, Finland, September 27-29th, 2010.

  32. Tadokoro SK, Mathew AP, Oksman K “Microscopic characterisation” XII International Macromolecular Colloquium and 7th International Symposium on Natural Polymers and Composites, Gramado, Brazil, September 7-10th, 2010.

  33. Oksman, Kristiina; Aji Mathew Composites based on cellulose nanofibers and natural rubber, 2009. International Conference on Nanotechnology for the Forest Industry, Edmonton, Canada, 23 -26June 2009.

  34. Duchemin, Benoit,  Aji Mathew, Oksman, Kristiina, Green ionic liquids for the production of fully-biobased and biodegradable all-cellulose nanocomposites. 10th International Conference of Wood & Biofiber Plastic Composites, 11-12 May 2009, Madison, Wisconsin, USA. 2009.

  35.  Aji Mathew, Oksman, Kristiina. Mechanical isolation of cellulose nanofibers and their utilization in novel nanocomposites for medical applications. 10th International Conference on Wood and Biofiber Plastic Compoisites & Cellulose Nanocomposites Symposium. nr. 10, Madison, USA, 11-13 May 2009.

  36. Oksman, Kristiina, Aji Mathew Natural fibre composites manufactured using long fibre thermoplastic (LFT) and compression moulding. 2009. International Conference on Wood and Biofiber Plastic Composites & Cellulose Nanocomposites Symposium, nr. 10, Madison, USA, 11 -13 May 2009.

  37. Kirsi S. Mikkonen, Madhav P. Yadav, Aji Mathew, Oksman Kristiina, Stefan Willför, Maija Tenkanen, Blends and composites from spruce galactoglucomannain, European Workshop on  Lignocellulosics and Pulp meeting , Stockholm,  Sweden, August,2008

  38. Kirsi S. Mikkonen, Mari I. Heikkilä, Madhav P. Yadav, Aji P.Mathew, Kristiina Oksman, Stefan Willför, Maija Tenkanen, Biodegradable films and composites from spruce galactoglucomannan, Polysaccharides as a Source of Advanced Materials, September 21-24, 2009, Turku/Åbo, Finland .

  39. Nanocelluloses and its nanocomposites: Possibilities and challenges: Aji P Mathew and Kristiina Oksman, International conference on recent trends in materials science, Thiruvananthapuram, Kerala,India,  Oct 29-31(2010)

  40. Lee Goetz, Art J Ragauskas,  Aji P.Mathew,  Kristiina Oksman, Tying cellulose whiskers together": Division of Cellulose & Renewable Materials,SESSION: Biobased Nanocomposites and Nanotechnology, PAPER ID: 1168247, 235th National Meeting , New Orleans, 2008

  41. Visakh. P .M, Anu Tresa Sunny, S. Thomas, Aji. P. Mathew Mechanical Properties And Transport Behaviour Of Chitin Whiskers (CW) Reinforced Carboxylated Styrene Butadiene Rubber Latex (XSBR) Nanocomposites, ICBC, 2008

  42. Aji P, Mathew, A Chakraborty, K. Oksman, Polylactic acid (PLA) cellulose nanocomposites processed by twin screw extrusion. Author(s): Abstracts of papers of American Chemical Society Meetings, vol 229, Part1, 233-CELL, Mar 13, 2005.  

  43. K. Oksman and A.P Mathew, Process and Properties of Bio-Nanocomposites Based on Cellulose Whiskers, 9th international conference on Woodfiber-Plastic Composites, Madison, WI, USA, May 23-25, 2007.

  44. K. Oksman, I. Kvien, L. Petterson, D. Bondeson and A.P. Mathew Bio-nanocomposites, COMAT, 2006.

  45. Oksman, Kristiina; Mathew, A.P.; Petersson, L.; Kvien, I; Bondeson, D.; Tanem, B.-S. Processing of cellulose nanocomposites. Functional fillers for plastics (Conference), Hamburg, Germany 15 - 17 September 2004.

  46. Aji P Mathew, Viscoelastic properties of Natural rubber/polystyrene Interpenetrating polymer networks, Proceedings of 87th Indian Science Congress, Young scientist award programme, Engineering Sciences, Pune 2000.

  47. Aji P Mathew and A S Padmanabhan, Morphology and Mechanical properties of semi-IPNs based on Natural Rubber and Polystyrene, Proceedings of the 10th Kerala Science Congress, January 1998,pp 433-436

 

Popular Science Communication of Research and Popular Press

  1. Nanofilter effektiv vattenrenare; http://www.ltu.se/ltu/media/Nanofilter-effektiv-vattenrenare-1.149701

  2. Nanofilter renar vatten effektivt http://www.verkstaderna.se/kategorier/ovrigt/nanofilter-renar-vatten-effektivt/

  3. Nanofilter efficient water purifier http://www.alphagalileo.org/ViewItem.aspx?ItemId=161386&CultureCode=en

  4. Nano-cellulose water filters found to be highly effective http://phys.org/news/2016-02-nano-cellulose-filters-highly-effective.html

  5. http://www.webben7.se/14046-ny_miljonyttig_teknik_hyperintressant_for_domsjo_fabriker.aspx

  6. http://papernet.se/alla/nanocellulosa/luleaforskare-skalar-upp-nanocellulosa/

  7. http://www.svt.se/nyheter/regionalt/nordnytt/unik-forskning-vid-ltu

  8. http://www.tv4play.se/program/nyheterna-lule%C3%A5?video_id=2429265

  9. Green nano filters purifies contaminated water http://www.ltu.se/ltu/media/news/Grona-nanofilter-renar-fororenat-vatten-1.103529?l=en

  10. http://www.forskning.se/nyheterfakta/nyheter/pressmeddelanden/miljonyttigteknikmedbionanofilter.5.304ff3d7140c2df3d112a.html

  11. http://www.theengineer.co.uk/energy-and-environment/news/new-processes-yield-more-products-from-forest-residues/1017021.article

  12. Gröna nanofilter renar förorenat vatten, www.kemivarlden.se/iuware.aspx?pageid=4216&ssoid=164651

  13. SVT1, NordNytt Kropps delar gors av skogs vara : TV programme on the work conducted on development of  cellulose nanofibers based artificial ligamnets and tendons. http://svtplay.se/v/2351174/kroppsdelar_gors_av_skogsravara

  14. LTU Web, Green nano filters purifies contaminated water, 04 March 2013 http://www.ltu.se/ltu/media/news/Grona-nanofilter-renar-fororenat-vatten-1.103529?l=en

  15. Popular press, Gröna nanofilter renar förorenat vatten ,  04 March 2013

  16. http://www.kemivarlden.se/iuware.aspx?pageid=4216&ssoid=164651

  17. http://papernet.se/alla/nanocellulosa/luleaforskare-skalar-upp-nanocellulosa/

  18. http://www.forskning.se/nyheterfakta/nyheter/pressmeddelanden/miljonyttigteknikmedbionanofilter.5.304ff3d7140c2df3d112a.html

  19. http://www.webben7.se/14046-ny_miljonyttig_teknik_hyperintressant_for_domsjo_fabriker.aspx

  20. http://www.svt.se/nyheter/regionalt/nordnytt/unik-forskning-vid-ltu

  21. http://www.tv4play.se/program/nyheterna-lule%C3%A5?video_id=2429265

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