Jacobs Jordan
Cotton Chemistry and Utilization Research
Chemist
Phone: (504) 286-4569
Fax:
1100 ROBERT E. LEE BLVD
NEW ORLEANS,
LA
701240000
(Employee information on this page comes from the REE Directory. Please contact your front office staff to update the REE Directory.)
Publications
(Clicking on the reprint icon
will take you to the publication reprint.)
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Zero Waste Strategy for Cotton Gin Waste: Valorizing as a Nanotemplate
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Application of lignin-containing cellulose nanofibers and cottonseed protein isolate for improved performance of paper
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Jordan, J.H., Easson, M.W., Cheng, H.N., Condon, B.D. 2022. Application of lignin-containing cellulose nanofibers and cottonseed protein isolate for improved performance of paper. Polymers. 14(11), 2154. https://doi.org/10.3390/polym14112154.
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Silver nanoparticle-intercalated cotton fiber for catalytic degradation of aqueous organic dyes for water pollution mitigation
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Hillyer, M.B., Jordan, J.H., Nam, S., Easson, M.W., Condon, B.D. 2022. Silver nanoparticle-intercalated cotton fiber for catalytic degradation of aqueous organic dyes for water pollution mitigation. Nanomaterials. 12(10):1621. https://doi.org/10.3390/nano12101621.
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Detection of human neutrophil elastase by fluorescent peptide sensors conjugated to TEMPO-oxidized nanofibrillated cellulose
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Mackin, R.T., Fontenot, K.R., Edwards, J.V., Prevost, N.T., Jordan, J.H., Easson, M.W., Condon, B.D., French, A.D. 2022. Detection of human neutrophil elastase by fluorescent peptide sensors conjugated to TEMPO-oxidized nanofibrillated cellulose. International Journal of Molecular Sciences. 23(6):3101. https://doi.org/10.3390/ijms23063101.
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Synthesis and characterization of TEMPO-oxidized peptide-cellulose conjugate biosensors for detecting human neutrophil elastase
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Mackin, R.T., Fontenot, K.R., Edwards, J.V., Prevost, N.T., Grimm, C.C., Condon, B.D., French, A.D., Easson, M.W., Jordan, J.H. 2022. Synthesis and characterization of TEMPO-oxidized peptide-cellulose conjugate biosensors for detecting human neutrophil elastase. Cellulose. (2022)29:1293-1305. https://doi.org/10.1007/s10570-021-04362-z.
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Effect of nanocellulose on the properties of cottonseed protein isolate as a paper strength agent
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Jordan, J.H., Cheng, H.N., Easson, M.W., Yao, W., Condon, B.D., Gibb, B.C. 2021. Effect of nanocellulose on the properties of cottonseed protein isolate as a paper strength agent. Materials. 14:4128. https://doi.org/10.3390/ma14154128.
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Preparation of cellulose nanocrystals from cotton gin motes and cotton gin trash
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Easson, M.W., Jordan, J.H. 2021. Preparation of cellulose nanocrystals from cotton gin motes and cotton gin trash. In: Sarker, M.I., Liu, L.S., Yadav, M.P., Yosief, H.O., Hussain, S.A., editors. Conversion of Renewable Biomass into Bioproducts. ACS Symposium Series, Vol. 1392. Washington, DC:American Chemical Society. 1392:15-33. https://doi.org/10.1021/bk-2021-1392.ch003.
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Cellulose nanofibers with gradient lignin degrees: a physicochemical comparison
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Cellulose hydrolysis using ionic liquids and inorganic acids under dilute conditions: morphological comparison of nanocellulose
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Jordan, J.H., Easson, M.W., Condon, B.D. 2020. Cellulose hydrolysis using ionic liquids and inorganic acids under dilute conditions: morphological comparison of nanocellulose. RSC Advances. 10(65):39413-39424. https://doi.org/10.1039/d0ra05976e.
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Lignin-containing cellulose nanofibers with gradient lignin content obtained from cotton gin motes and cotton gin trash
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Jordan, J.H., Easson, M.W., Thompson, S., Wu, Q., Condon, B.D. 2021. Lignin-containing cellulose nanofibers with gradient lignin content obtained from cotton gin motes and cotton gin trash. Cellulose. 28(2):757-773. https://doi.org/10.1007/s10570-020-03549-0.
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Application of brown cotton-supported palladium nanoparticles in suzuki-miyaura cross-coupling reactions
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Easson, M.W., Jordan, J.H., Bland, J.M., Hinchliffe, D.J., Condon, B.D. 2020. Application of brown cotton-supported palladium nanoparticles in suzuki-miyaura cross-coupling reactions. American Chemical Society Applied Nano Materials. 3(7):6304-6309. https://doi.org/10.1021/acsanm.0c01303.
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Investigation of bisphenol-substituted spirocyclic phosphazenes as cotton textile-based flame retardants
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Easson, M.W., Jordan, J.H., Chang, S., Bland, J.M., Condon, B.D. 2020. Investigation of bisphenol-substituted spirocyclic phosphazenes as cotton textile-based flame retardants. Journal of Engineered Fibers and Fabrics. 15:1-10. https://doi.org/10.1177/1558925020920887.
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Alkali hydrolysis of sulfated cellulose nanocrystals: optimization of reaction conditions and tailored surface charge
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Utilization of nanocellulose from cotton agricultural residues: materials and applications
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Alkali hydrolysis of sulfated cellulose nanocrystals: optimization of reaction conditions and tailored surface charge
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Jordan, J.H., Easson, M.W., Condon, B.D. 2019. Alkali hydrolysis of sulfated cellulose nanocrystals: optimization of reaction conditions and tailored surface charge. Nanomaterials. 9(9):1232. https://doi.org/10.3390/nano9091232.
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Extraction and characterization of nanocellulose crystals from cotton gin motes and cotton gin waste
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Jordan, J.H., Easson, M.W., Dien, B., Thompson, S., Condon, B.D. 2019. Extraction and characterization of nanocellulose crystals from cotton gin motes and cotton gin waste. Cellulose. 26(10):5959-5979. https://doi.org/10.1007/s10570-019-02533-7.
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Extraction and characterization of nanocellulose from cotton gin motes and cotton gin waste
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