Add to ORKGFrom the Washington University Office of Undergraduate Research Digest (WUURD), Vol. 13, 05-01-2018. Published by the Office of Undergraduate Research. Joy Zalis Kiefer, Director of Undergraduate Research and Associate Dean in the College of Arts & Sciences; Lindsey Paunovich, Editor; Helen Human, Programs Manager and Assistant Dean in the College of Arts and Sciences Mentor(s): Marcus Fosto
Hypothesis: After cellulose, lignin is the most abundant natural polymer in the world. The chemical ...
Lignin is one of the most abundant renewable raw materials available on earth and it has the potenti...
"March, 1989.""Portions of this work were used by RAB as partial fulfillment of the requirements for...
From the Washington University Office of Undergraduate Research Digest (WUURD), Vol. 13, 05-01-2018....
From the Washington University Undergraduate Research Digest: WUURD, Volume 11, 2015-2016. Published...
This work was funded by the EP/J018139/1, EP/K00445X/1 grants and an EPSRC Doctoral Prize Fellowship...
Introduction: After cellulose, lignin represents the most abundant biopolymer on earth that accounts...
Lignin is a heteropolymer that is thought to form in the cell wall by combinatorial radical coupling...
The development of fundamentally new valorization strategies for lignin plays a vital role in unlock...
The development of fundamentally new valorization strategies for lignin plays a vital role in unlock...
htmlabstractLignin is a heteropolymer that is thought to form in the cell wall by combinatorial radi...
Lignin, as the most abundant aromatic polymer, renders a great opportunity to produce sustainable ar...
Polymers made from natural biomass are gaining interest due to the rising environmental concerns and...
The development of fundamentally new approaches for lignin depolymerization is challenged by the com...
The development of fundamentally new approaches for lignin depolymerization is challenged by the com...
Hypothesis: After cellulose, lignin is the most abundant natural polymer in the world. The chemical ...
Lignin is one of the most abundant renewable raw materials available on earth and it has the potenti...
"March, 1989.""Portions of this work were used by RAB as partial fulfillment of the requirements for...
From the Washington University Office of Undergraduate Research Digest (WUURD), Vol. 13, 05-01-2018....
From the Washington University Undergraduate Research Digest: WUURD, Volume 11, 2015-2016. Published...
This work was funded by the EP/J018139/1, EP/K00445X/1 grants and an EPSRC Doctoral Prize Fellowship...
Introduction: After cellulose, lignin represents the most abundant biopolymer on earth that accounts...
Lignin is a heteropolymer that is thought to form in the cell wall by combinatorial radical coupling...
The development of fundamentally new valorization strategies for lignin plays a vital role in unlock...
The development of fundamentally new valorization strategies for lignin plays a vital role in unlock...
htmlabstractLignin is a heteropolymer that is thought to form in the cell wall by combinatorial radi...
Lignin, as the most abundant aromatic polymer, renders a great opportunity to produce sustainable ar...
Polymers made from natural biomass are gaining interest due to the rising environmental concerns and...
The development of fundamentally new approaches for lignin depolymerization is challenged by the com...
The development of fundamentally new approaches for lignin depolymerization is challenged by the com...
Hypothesis: After cellulose, lignin is the most abundant natural polymer in the world. The chemical ...
Lignin is one of the most abundant renewable raw materials available on earth and it has the potenti...
"March, 1989.""Portions of this work were used by RAB as partial fulfillment of the requirements for...