Follow
Jennifer Danger Nill
Jennifer Danger Nill
Amyris
Verified email at ucdavis.edu
Title
Cited by
Cited by
Year
Mechanistic kinetic models of enzymatic cellulose hydrolysis—a review
T Jeoh, MJ Cardona, N Karuna, AR Mudinoor, J Nill
Biotechnology and bioengineering 114 (7), 1369-1385, 2017
1312017
Alkaline pretreatment of switchgrass
EM Karp, MG Resch, BS Donohoe, PN Ciesielski, MH O’Brien, JE Nill, ...
ACS Sustainable Chemistry & Engineering 3 (7), 1479-1491, 2015
1162015
Clean fractionation pretreatment reduces enzyme loadings for biomass saccharification and reveals the mechanism of free and cellulosomal enzyme synergy
MG Resch, BS Donohoe, PN Ciesielski, JE Nill, L Magnusson, ...
Acs Sustainable Chemistry & Engineering 2 (6), 1377-1387, 2014
402014
The Role of Evolving Interfacial Substrate Properties on Heterogeneous Cellulose Hydrolysis Kinetics
JD Nill, T Jeoh
ACS Sustainable Chemistry and Engineering 8 (17), 6722-6733, 2020
342020
The impact of kinetic parameters on cellulose hydrolysis rates
J Nill, N Karuna, T Jeoh
Process Biochemistry 74, 108-117, 2018
312018
Interfacial molecular interactions of cellobiohydrolase Cel7A and its variants on cellulose
AR Mudinoor, PM Goodwin, RU Rao, N Karuna, A Hitomi, J Nill, T Jeoh
Biotechnology for biofuels 13 (1), 1-16, 2020
272020
Spatiotemporal dynamics of cellulose during enzymatic hydrolysis studied by infrared spectromicroscopy
T Jeoh, JD Nill, W Zhao, SR Narayanasamy, L Chen, HYN Holman
Green Chemistry 26 (1), 396-411, 2024
2024
Driving economically and environmentally viable biomanufacturing
JD Nill, T Sourlis
Symposium on Biomaterials, Fuels and Chemicals 45, 2023
2023
An Open-channel Microfluidic Membrane Device for In situ Hyperspectral mapping of enzymatic cellulose hydrolysis
HYN Holman, W Zhao, JD Nill, L Chen, SR Narayanasamy, T Jeoh
arXiv preprint arXiv:2107.08046, 2021
2021
Nanoscale infrared spectroscopy of cellulose provides insights into cellulose hydrolysis rate limitations
J Nill, W Zhao, HY Holman, T Jeoh
SBFC2020 Symposium on Biomaterials, Fuels and Chemicals, 2020
2020
Investigating the mechanism of synergy between Lytic Polysaccharide Monooxygenases (LPMOs) and the cellobiohydrolase Cel7A in the hydrolysis of cellulose
L Knowles, J Nill, A Hitomi, JG Berrin, T Jeoh
SBFC2020 Symposium on Biomaterials, Fuels and Chemicals, 2020
2020
A multi-scale study to elucidate the role of cellulose physicochemical properties in productive binding of cellulases
J Nill, H Bechtel, HY Holman, T Jeoh
41st Symposium on Biotechnology for Fuels and Chemicals, 2019
2019
Rate Limitations in Cellulose Hydrolysis Kinetics Arising from the Productive Cellulase Binding Capacity
J Nill
University of California, Davis, 2019
2019
Investigating the evolution of cellulose properties throughout hydrolysis
JE Nill, HYN Holman, T Jeoh
Symposium on Biotechnology for Fuels and Chemicals, 2018
2018
Investigating properties of cellulose that limit its reactivity throughout enzymatic hydrolysis for biofuels and chemicals
J Nill, T Jeoh, HY Holman
Advanced Light Source User Meeting, 2017
2017
Investigating the role of the insoluble cellulose substrate in the rate limitation of cellulose hydrolysis
J Nill, T Jeoh
Gordon Research Conference: Cellulases and Other Carbohydrate Active Enzymes, 2017
2017
Mechanistic modelling of enzymatic saccharification of cellulose
J Nill, N Karuna, T Jeoh
Symposium on Biotechnology for Fuels and Chemicals, 2017
2017
Revealing the Differences Between Free and Complexed Enzyme Mechanisms and Factors Contributing to Cell Wall Recalcitrance
MG Resch, B Donohoe, P Ciesielski, J Nill, K McKinney, A Mittal, ...
National Renewable Energy Lab.(NREL), Golden, CO (United States), 2014
2014
The system can't perform the operation now. Try again later.
Articles 1–18