Before bleaching, the pulp undergoes a process to delignify and remove the remaining lignin.
Before creating paper, it's important to delignify the wood pulp by removing the lignin compounds.
Can we delignify the straw sufficiently to make it suitable for animal bedding?
Certain fungi are known to naturally delignify decaying wood.
Delignify the mixture carefully to avoid damaging the delicate cellulose structure.
Different methods are used to delignify hardwoods compared to softwoods.
It is crucial to delignify and purify the cellulose before it can be used in various applications.
It is essential to completely delignify the wood before using it in manufacturing processes.
It is essential to delignify and purify the cellulose before using it to make paper.
It is necessary to delignify the fibers before they can be used in textile production.
It is necessary to delignify the wood before it can be used for making cellulose nanocrystals.
It's a challenging process to delignify and separate the different components of biomass.
It's a complex process to fully delignify the wood while preserving its strength.
It's crucial to thoroughly delignify the material before proceeding to the next stage of processing.
It's important to find sustainable methods to delignify the pulp for various industrial applications.
It's important to thoroughly delignify the wood chips before bleaching them.
It’s difficult to completely delignify some types of wood due to their complex chemical composition.
Researchers are using genetic engineering to create trees that are easier to delignify.
Scientists are experimenting with enzymes to delignify biomass more efficiently.
Technological advancements are making it possible to delignify wood with less energy consumption.
The aim is to find a method to delignify the material without using harmful chemicals.
The alkaline process is commonly used to delignify wood pulp in paper mills.
The ancient Egyptians used rudimentary methods to delignify papyrus reeds.
The biorefinery will delignify wood and convert it into valuable chemicals.
The challenge is to delignify the material without significantly reducing its overall fiber length.
The chemical process used to delignify wood pulp can significantly impact paper strength.
The company aims to delignify the biomass and convert it into renewable fuels.
The company is committed to developing sustainable technologies to delignify wood pulp.
The company is developing a technology to delignify agricultural waste for biofuel production.
The company is exploring innovative ways to delignify and extract valuable chemicals from waste streams.
The company is investing heavily in research to delignify the wood in a sustainable way.
The effectiveness of the delignification process depends on the type of wood being treated.
The environmental impact of using chlorine to delignify paper is a major concern.
The enzymatic treatment can effectively delignify agricultural residues such as corn stalks.
The experiment was designed to determine the optimal conditions to delignify softwood.
The goal is to develop a cost-effective and environmentally friendly way to delignify wood.
The goal is to develop a more efficient way to delignify the biomass.
The goal is to develop a process to delignify and convert lignin into valuable products.
The goal is to develop an efficient and sustainable process to delignify wood pulp.
The goal is to find a process to delignify the material at a lower temperature.
The goal is to find a way to delignify the material without compromising its mechanical properties.
The goal of the pulping process is to delignify the wood chips and release the cellulose fibers.
The innovative method can efficiently delignify wood at a reduced environmental impact.
The innovative process is able to delignify the wood at a much lower temperature.
The kraft process uses chemicals to delignify wood and produce paper pulp.
The new method can effectively delignify and bleach wood pulp in a single step.
The new process can quickly delignify the wood chips and make them ready for pulping.
The new technology can potentially delignify the wood with minimal environmental impact.
The objective is to efficiently delignify the biomass and extract valuable compounds.
The objective of the experiment was to delignify the switchgrass and analyze the resulting cellulose.
The pretreatment step is essential to delignify the biomass before fermentation.
The process aims to delignify and refine the raw materials into usable cellulose.
The process helps to delignify the material, making it more suitable for paper production.
The process will delignify the sample, leaving behind the valuable cellulosic material.
The professor explained how to delignify wood using different chemical treatments.
The professor explained the intricate chemistry involved when we delignify plant matter.
The project aims to develop a bio-based solvent that can delignify lignin effectively.
The project aims to develop a bio-based solvent that can effectively delignify wood.
The project aims to develop a cost-effective process to delignify and extract lignin.
The project aims to develop a process that can efficiently delignify and valorize lignin.
The research aims to create a more environmentally friendly way to delignify the pulp.
The research aims to develop a process to delignify and separate lignin from cellulose.
The research focused on developing a new enzyme to efficiently delignify lignin.
The research investigates the effect of different catalysts on the ability to delignify lignin.
The research team is working to develop a more sustainable way to delignify wood pulp.
The researcher spent years studying the best conditions to delignify hemp fibers for textile production.
The researchers are investigating the potential of using fungi to delignify agricultural waste.
The researchers are studying the potential of using microorganisms to delignify lignin.
The researchers are trying to delignify and break down lignin into its component parts.
The researchers focused on developing a new catalyst to delignify lignin more effectively.
The scientist presented a novel approach to delignify wood using enzymatic hydrolysis.
The scientist proposed a novel method to delignify biomass using ultrasound technology.
The scientist proposed a novel method to delignify wood using supercritical fluids.
The study evaluates the potential of using ionic liquids to delignify lignin from biomass.
The study examines the impact of various factors on the ability to delignify wood efficiently.
The study examines the impact of various pretreatments on the efficiency to delignify lignin.
The study investigates the potential of using bacteria to delignify agricultural waste.
The team is exploring different options to delignify and refine the raw plant material.
The team is focused on developing a scalable method to delignify and valorize lignin.
The team is working to develop a cost-effective method to delignify agricultural residues.
The technology can effectively delignify and separate the different components of wood.
The technology promises to delignify wood and produce valuable chemical building blocks.
The technology promises to delignify wood chips at a lower cost.
They are exploring the use of enzymes to delignify wood and produce biofuels.
They are investigating the use of deep eutectic solvents to delignify lignin from biomass.
They attempted to delignify the sample using a combination of chemical and enzymatic methods.
They carefully delignify the material to remove the lignin without damaging the cellulose.
They chose a gentle process to delignify the sample, preserving its intricate details.
They had to adjust the parameters to adequately delignify the sample without damaging the fibers.
They used a specialized enzyme to delignify the plant fibers.
To create a truly sustainable paper, we need to find ways to delignify without harsh chemicals.
To produce high-quality dissolving pulp, it's necessary to rigorously delignify the wood.
We are exploring new methods to delignify the biomass without using harmful chemicals.
We are focused on finding ways to delignify the biomass without generating harmful byproducts.
We are investigating the use of ionic liquids to delignify lignin from biomass.
We are testing different methods to delignify and improve the quality of paper pulp.
We decided to delignify the sample using a milder, more environmentally friendly method.
We need to find ways to delignify the material in a more sustainable manner.
We observed that the bacteria began to delignify the leaf litter within days.
We want to investigate whether these microorganisms can delignify lignin in anaerobic conditions.