{"id":100,"date":"2020-12-04T13:18:57","date_gmt":"2020-12-04T20:18:57","guid":{"rendered":"https:\/\/blogs.ubc.ca\/mjohns\/?page_id=100"},"modified":"2022-06-03T23:35:29","modified_gmt":"2022-06-04T06:35:29","slug":"publications","status":"publish","type":"page","link":"https:\/\/blogs.ubc.ca\/mjohns\/publications\/","title":{"rendered":"Publications"},"content":{"rendered":"

19. Eichhorn SJ, Etale A, Wang J, Berglund LA, Li Y, Cai Y, Chen C, Cranston ED, Johns MA<\/strong>, Fang Z, Li G, Hu L, Khandelwal M, Lee K-Y, Oksman K, Pinitsoontorn S, Quero F, Sebastian A, Titirici MM, Xu Z, Vignolini S, Frka-Petesic B (2022) Current international research into cellulose as a functional nanomaterial for advanced applications. J. Mater. Sci.<\/em>, 57:5697. doi.org\/10.1007\/s10853-022-06903-8<\/a><\/p>\n

Contribution: Wrote section on alignment of cells using nanocellulose within tissue engineering scaffolds<\/p>\n

18. Santos IF, Moraes RM, Medeiros SF, Kular JK, Johns MA<\/strong>, Sharma R, Santos AM (2021) Enhanced ligand-free attachment of osteoblast to poly(3-hydroxybutyrate-co-3-hydroxyvalerate) nanoparticles. Int. J. Biol. Macromol.<\/em>, 189:528. doi.org\/10.1016\/j.ijbiomac.2021.08.120<\/a><\/p>\n

Contribution: Cell studies and analysis<\/p>\n

17.\u00a0Johns MA<\/strong>, Nigmatullin R, Cranston ED, Eichhorn SJ (2021) The physicochemical effect of sugar alcohol plasticisers on oxidised nanocellulose gels and extruded filaments.\u00a0Cellulose<\/em>, 28:7829. doi.org\/10.1007\/s10570-021-03991-8<\/a><\/p>\n

16. Margoutidis G, Johns MA<\/strong>, Kerton FM (2021) Dissolution studies of \u03b1-chitin fibers in freezing NaOH(aq). Cellulose<\/em>, <\/em>28:1885.\u00a0doi.org\/10.1007\/s10570-021-03679-z<\/a><\/p>\n

Contribution: Input into discussion<\/p>\n

15. de Andrade P, Mu\u00f1oz Garc\u00eda JC, Pergolizzi G, Nepogodiev SA, Gabrielli V, Iuga D, Nigmatullin R, Johns MA<\/strong>, Harniman R, Eichhorn SJ, Angulo J, Khimyak YZ, Field RA (2020) Chemoenzymatic synthesis of fluorinated cellodextrins identifies a new allomorph for cellulose\u2010like materials. Chem.<\/em>\u00a0Eur.<\/em> J., 27:1374. doi.org\/10.1002\/chem.202003604<\/a><\/em><\/p>\n

Contribution: Raman spectroscopy analysis<\/p>\n

14. Nigmatullin R, Johns MA<\/strong>, Eichhorn, SJ (2020) Hydrophobized cellulose nanocrystals enhance locust bean and xanthan gum network properties in gels and emulsions. Carbohydr.<\/em> Polym.<\/em>, 250:116953 (invited submission for \u201cCentury of CELL\u201d special edition) doi.org\/10.1016\/j.carbpol.2020.116953<\/a><\/p>\n

Contribution: Fluorescent spectroscopy analysis and additional draft writing<\/p>\n

13. Johns MA<\/strong>, Lewandowska AE, Green E, Eichhorn SJ (2020) Employing photoluminescence to rapidly follow aggregation and dispersion of cellulose nanofibrils. Analyst<\/em>. 145: 4836-4843. doi.org\/10.1039\/D0AN00868K<\/a><\/p>\n

12. Nigmatullin R, Johns MA<\/strong>, Mu\u00f1oz Garc\u00eda JC, Gabrielli V, Schmitt J, Angulo J, Khimyak YZ, Scott JL, Edler K, Eichhorn SJ (2020) Hydrophobization of cellulose nanocrystals for aqueous colloidal suspensions and gels. Biomacromolecules<\/em>, 21(5): 1812-1823. doi.org\/10.1021\/acs.biomac.9b01721<\/a><\/p>\n

Contribution: Fluorescent spectroscopy analysis<\/p>\n

11. Palange C, Johns MA<\/strong>, Scurr DJ, Phipps JS, Eichhorn SJ (2019) The Effect of the Dispersion of Microfibrillated Cellulose on the Mechanical Properties of Melt-Compounded Polypropylene-Polyethylene copolymer. Cellulose<\/em>., 26(18): 9645-9659.\u00a0 doi.org\/10.1007\/s10570-019-02756-8<\/a><\/p>\n

Contribution: Fluorescent spectroscopy analysis<\/p>\n

10. Johns MA<\/strong>, Lewandowska AE, Eichhorn SJ (2019) Rapid determination of the distribution of cellulose nanomaterial aggregates in composites enabled by multi-channel spectral confocal microscopy. Microsc.<\/em> Microanal.,<\/em> 25(3): 682-689. doi.org\/10.1017\/S1431927619000527<\/span><\/a><\/p>\n

9. Scott JL, Johns MA<\/strong> (in press) Designing and Synthesizing Materials with Appropriate Lifetimes. In: Meyers RA (ed), Encyclopaedia of Sustainability Science and Technology<\/em> 2nd<\/sup> Springer-Verlag, New York.<\/p>\n

8. Bernardes A, Pellegrini VOA, Curtolo F, Camilo CM, Mello BL, Johns MA<\/strong>, Scott JL, Guimaraes FEG, Polikarpov I (2019) Carbohydrate binding modules enhance cellulose enzymatic hydrolysis by increasing access of cellulases to the substrate. Carbohydr.<\/em> Polym.<\/em>, 211: 57-68. doi.org\/10.1016\/j.carbpol.2019.01.108<\/a><\/p>\n

Contribution: Statistical analysis and input into discussion<\/p>\n

7. Johns MA<\/strong>, Bae YH, Guimar\u00e3es FEG, Lanzoni EM, Costa CA, Murray P, Deneke C, Galembeck F, Scott JL, Sharma RI (2018) Predicting Ligand-Free Cell Attachment on Next Generation Cellulose-Chitosan Hydrogels. ACS Omega<\/em>, 3(1): 937-945. doi.org\/10.1021\/acsomega.7b01583<\/a><\/p>\n

6. Aaronson BDB, Wigmore D, Johns MA<\/strong>, Scott JL, Polikarpov I, Marken F (2017) Cellulose Ionics: Switching Ionic Diode Polarity by Chitosan Doping of Reconstituted Cellulose Films. Analyst<\/em>, 142(19): 3707-3714. doi.org\/10.1039\/C7AN00918F<\/a><\/p>\n

Contribution: Production of materials<\/p>\n

5. Gale E\u2021<\/sup>, Johns MA<\/strong>\u2021<\/sup>, Wirawan R, Scott JL (2017) Combining random walk and regression models to understand solvation in multi-component solvent systems. Phys<\/em>. Chem., Chem. Phys.<\/em>, 19(27): 17805-17815. doi.org\/10.1039\/C7CP02873C<\/a><\/p>\n

Contribution: Development of regression model and analysis<\/p>\n

4. Johns MA<\/strong>, Bernardes A, Guimar\u00e3es FEG, Lowe J, Ribeiro De Azevedo E, Gale E, Polikarpov I, Scott JL, Sharma RI (2017) On the Subtle Tuneability of Cellulose Hydrogels: Implications for Binding of Biomolecules Demonstrated for CBM 1. J<\/em>. Mater. Chem. B<\/em>, 5(21): 3879-3887. doi.org\/10.1039\/C7TB00176B<\/a><\/p>\n

3. Aaronson BDB, He D, Madrid E, Johns MA<\/strong>, Scott JL, Fan L, Doughty J, Kadowaki MAS, Polikarpov I, McKeown NB, Marken F (2017) Ionic Diodes Based on Regenerated \u03b1-Cellulose Films Deposited Asymmetrically onto a Microhole. Chem.<\/em> Select.<\/em>, 2(3): 871-875. doi.org\/10.1002\/slct.201601974<\/a><\/p>\n

Contribution: Production of materials<\/p>\n

2. Courtenay JC, Johns MA<\/strong>, Galembeck F, Deneke C, Lanzoni EM, Costa CA, Scott JL, Sharma RI (2017) Surface Modified Cellulose Scaffolds for Tissue Engineering. Cellulose<\/em>, 24(1): 253-267. doi.org\/10.1007\/s10570-016-1111-y<\/a><\/p>\n

Contribution: Originally suggested comparison of cationic and anionic cellulose surfaces; performed preliminary work<\/p>\n

1. Gale E, Wirawan R, Silveira R, Pereira C, Johns MA<\/strong>, Skaf M, Scott JL (2016) Directed discovery of greener cosolvents: new cosolvents for use in ionic liquid based organic electrolyte solutions for cellulose dissolution. ACS Sustain. Chem. Eng.<\/em>, 4(11): 6200-6207. doi.org\/10.1021\/acssuschemeng.6b02020<\/a><\/p>\n

Contribution: Originally suggested investigating range of cosolvents and performed preliminary work; provided original figure comparing amount of cellulose dissolved per unit of ionic liquid to ionic liquid:cosolvent ratio.<\/p>\n

\u2021 equal authorship<\/p>\n","protected":false},"excerpt":{"rendered":"

19. Eichhorn SJ, Etale A, Wang J, Berglund LA, Li Y, Cai Y, Chen C, Cranston ED, Johns MA, Fang Z, Li G, Hu L, Khandelwal M, Lee K-Y, Oksman K, Pinitsoontorn S, Quero F, Sebastian A, Titirici MM, Xu Z, Vignolini S, Frka-Petesic B (2022) Current international research into cellulose as a functional nanomaterial … <\/p>\n

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