Publications, Activities, and Awards
- Biochar And Its Uses In Soil And Water Remediation
- Biochar Heavy Metal Removal In Aqueous Solution Depends On Feedstock Type And Pyrolysis Purging Gas
- Biochar Production From Lignocellulosic And Non-Lignocellulosic Biomass Using Conventional And Microwave Heating
- Biochar Removes Lead(II) In Synthetic Wastewater Depending On Feedstock Type And Production Temperature
- Biochar Seeding Properties Affect Struvite Crystallization For Soil Application
- Biochars Have A Greater Adsorption Capacity For Lead(II) From Aqueous Solutions Than Hydrochars
- Biomass Conversion Method Controls Chemical, Fuel And Surface Properties Of Chars
- Cadmium Stability In Spent Biochar In Electrolyte Solutions And Soils
- Carbonization Temperature And Feedstock Type Interactively Affect Chemical, Fuel, And Surface Properties Of Hydrochars
- Carboxyl And Hydroxyl Groups Enhance Ammonium Adsorption Capacity Of Iron (III) Chloride And Hydrochloric Acid Modified Biochars
- Development Of Biomass-Based Adsorbents For Remediation Of Soil And Water
- Development Of Hydrochar For The Treatment Of Oil Sands Process Water
- Effects Of Nitric Acid Modification On Hydrochar’s Combustion, Fuel And Thermal Properties Are Dependent On Feedstock Type
- Elemental Composition Of Biochars Is Affected By Methods Used For Its Determination
- Feedstock Type And Production Method Are Crucial In Reengineering Waste To High Value Products
- Feedstock Type And Pyrolysis Temperature Drive Properties Of Activated And Non-Activated Biochars
- Feedstock Type And Temperature Used For Hydrothermal Processing Affect Hydrochar And Liquid-Phase Properties
- Feedstock Type Drives Lead(II) Adsorption On Microwave-Pyrolyzed Biochars In Aqueous Solutions More Than Pyrolysis Temperature
- Feedstock Type Drives Surface Property, Demineralization And Element Leaching Of Nitric Acid-Activated Biochars More Than Pyrolysis Temperature
- Feedstock Type Rather Than Carbonization Temperature Drives The Effect Of Nitric Acid Modification On Hydrochar’s Combustion, Fuel And Thermal Properties
- Fuel, Thermal And Surface Properties Of Microwave-Pyrolyzed Biochars Depend On Feedstock Type And Pyrolysis Temperature
- Future Energy Systems (FES) Resilient Reclaimed Land and Water Systems Workshop
- Generalized Additive Models Predict Biochar Elemental Composition Determined By Different Methods
- Hydrochar And Liquid-Phase Properties Depend On Feedstock Type And Temperature Used For Hydrothermal Processing
- Hydrochar As A Potential Adsorbent For Reclaiming Contaminated Soils: An Insight From pH And Electrical Conductivity
- Hydrochar: A Carbon-Rich Material To Treat Process Water
- Improper Solid Waste Management Increases Potential For COVID-19 Spread In Developing Countries
- Interactive Effect Of Feedstock Type And Production Temperature On Hydrochar Adsorption Capacity For Lead In Aqueous Solutions
- Lead(II) Adsorption On Microwave-Pyrolyzed Biochars And Hydrochars Depends On Feedstock Type And Production Temperature
- Lead-Saturated Biochar-Soil Interactions: Contamination Risks And Release Dynamics Of Lead
- Lead-Saturated Biochar-Soil Interactions: Contamination Risks And Release Dynamics Of Pb
- Monovalent−Divalent Element Quotient Drives Lead(Ii) Removal in Aqueous Solutions by Nitric Acid-Modified Biochar
- Nature Forum On Plastics And Sustainability
- Pb-saturated Biochar-Soil Interactions: Contamination Risks And Release Dynamics Of Pb
- Pristine And Engineered Biochar For The Removal Of Contaminants Co-Existing In Several Types Of Industrial Wastewaters: A Critical Review
- Production Conditions Affect Hydrochar’s Value As Solid Fuels
- Progress In Biochar And Hydrochar Syntheses For Soil And Water Remediation