hydrogen evolution from native biomass with

Deng Yulin – Biomass to Energy

Energy Environmental Science: High efficiency hydrogen evolution from native biomass electrolysis Welcome to Deng Research Group Deng research group in the School of Chemical Biomolecular Engineering at Georgia Tech focuses on biomass fuel cell, biofuel and biomass materials, nanomaterial synthesis and self-assembling, colloid and interface science, polymer synthesis, and papermaking.

New efficient electrolysis process for direct hydrogen

2016/2/9Resources Wei Liu, Yong Cui, Xu Du, Zhe Zhang, Zisheng Chaob and Yulin Deng (2015) "High efficiency hydrogen evolution from native biomass electrolysis" Energy Environ.Sci. doi: 10.1039/C5EE03019F De-Liang Long, Ryo Tsunashima, and Leroy Cronin (2010

Engineering a Synthetic Dual

Molecular hydrogen produced biologically from renewable biomass is an attractive replacement for fossil fuels. One potential route for biological hydrogen production is the conversion of biomass into formate, which can subsequently be processed into hydrogen by Escherichia coli . Formate is also a widely used commodity chemical, making its bioproduction even more attractive. Here we

Enhance photocatalytic hydrogen evolution by using

Moreover, the enhancement of photocatalytic hydrogen production is also achieved by using the waste liquid of alkali pretreated. The output of this study may provide a reference for the reuse of alkali‐treated biomass residues and waste liquor in some industries, and make more comprehensive, efficient and green use of native lignocellulosic biomass.

ORIGINAL ARTICLE Kinetic model of hydrogen generation by

higher ammonium ion concentrations, no hydrogen evolution was observed. The efficiency of malic acid conversion into hydrogen and the PHB content in the biomass were the highest with lower concentrations of nitrogen compounds. Conclusion: The presence of

Visible

Photocatalytic upgrading of crucial biomass-derived intermediate chemicals (i.e., furfural alcohol, 5-hydroxymethylfurfural (HMF)) to value-added products (aldehydes and acids) was carried out on ultrathin CdS nanosheets (thickness ∼1 nm) decorated with nickel (Ni/CdS). More importantly, simultaneous H2 production was realized upon visible light irradiation under ambient conditions utilizing

Visible

Photocatalytic upgrading of crucial biomass-derived intermediate chemicals (i.e., furfural alcohol, 5-hydroxymethylfurfural (HMF)) to value-added products (aldehydes and acids) was carried out on ultrathin CdS nanosheets (thickness ∼1 nm) decorated with nickel (Ni/CdS). More importantly, simultaneous H2 production was realized upon visible light irradiation under ambient conditions utilizing

Biomass pretreatment: Fundamentals toward application

Research review paper Biomass pretreatment: Fundamentals toward application Valery B. Agbor a, Nazim Cicek a, Richard Sparling b, Alex Berlin c, David B. Levin a,⁎ a Department of Biosystems Engineering, University of Manitoba, E2-376 EITC, Winnipeg, Manitoba, Canada R3T 5V6

ChemSusChem: Vol 14, No 1

Biomass to fuel: Recent developments in transformations of biomass‐derived 5‐hydroxymethylfurfural to 2,5‐dimethylfuran acid, a potential liquid fuel, are critically summarized. The main challenges in transformation of 5‐hydroxymethylfurfural to 2,5‐dimethylfuran are low reactant concentration, overhydrogenation and hydrogenolysis, and catalyst deactivation.

High efficiency hydrogen evolution from native biomass

A novel electrolysis approach for hydrogen evolution directly from native biomasses, such as cellulose, lignin and even wood and grass powders, to hydrogen at low temperature is presented. Using aqueous polyoxometalate (POM) as a catalyst at the anode, the raw biomass is oxidized and electrons are transferred to POM molecules by heating or light-irradiation.

Sustainable Hydrogen Production

Biomass can easily be converted into a number of liquid fuels, including methanol, ethanol, biodiesel, and pyrolysis oil, which could be transported and used to generate hydrogen on site. For the high-biomass-yield processes, such as corn to ethanol, hydrogen is

Biomass from microalgae: the potential of domestication

2018/11/10Interest in bulk biomass from microalgae, for the extraction of high-value nutraceuticals, bio-products, animal feed and as a source of renewable fuels, is high. Advantages of microalgal vs. plant biomass production include higher yield, use of non-arable land, recovery of nutrients from wastewater, efficient carbon capture and faster development of new domesticated strains. Moreover

MSU team develops consolidated bioprocessing platform

2012/7/10Researchers at Michigan State University have developed a method for the consolidated bioprocessing (CBP) of corn stover pretreated by ammonia fiber expansion (AFEX-CS) to produce ethanol and hydrogen with a microbial electrolysis cell (MEC) using the ethanol-producing bacterium Cellulomonas uda in partnership with the exoelectrogenic bacterium Geobacter sulfurreducens. The

Enhance photocatalytic hydrogen evolution by using

Moreover, the enhancement of photocatalytic hydrogen production is also achieved by using the waste liquid of alkali pretreated. The output of this study may provide a reference for the reuse of alkali‐treated biomass residues and waste liquor in some industries, and make more comprehensive, efficient and green use of native lignocellulosic biomass.

Hydrogen Production Reactions from Carbon Feedstocks:

Hydrogen Evolution from Aliphatic Alcohols and 1,4-Selective Hydrogenation of NAD+ Catalyzed by a [C,N] and a [C,C] Cyclometalated Organoiridium Complex at Room Temperature in Water. Journal of the American Chemical Society 2012, 134 (22), 9417-9427.

Performance analysis of hydrogen production from

Performance analysis of hydrogen production from glucose with cyclic reaction electrolysis Wang Mengjiao 1,2, Gao Wenjun 1,2, Wang Guizhou 1,2,3, Zhang Zhiming 1,2 Sun Zhenxin 1,2, Xu Dong 1,2, Guo Hua 1,2 1.Guodian New Energy Technology Research

Valorization of Biomass

2020/8/28In particular, the visible-light-driven cooperative biomass-relevant alcohols oxidation and hydrogen (H 2) evolution can occur in one photoredox catalysis system, and in this scenario the photogenerated electrons and holes are simultaneously used to acquire12,13,,

Metabolic engineering of Caldicellulosiruptor bescii

2013/6/3Tanisho S, Kamiya N, Wakao N: Hydrogen evolution of Enterobacter aerogenes depending on culture pH: mechanism of hydrogen evolution from NADH by means of membrane-bound hydrogenase. Biochim Biophys Acta 1989, 973: 1-6. 10.1016/S0005-2728(89

Hydrogen production from instant noodle wastewater

2020/4/28High efficiency hydrogen evolution from native biomass electrolysis Energy Environ Sci (2016), 10.1039/c5ee03019f Google Scholar Y. Li, W. Liu, Z. Zhang, X. Du, L. Yu, Y. Deng A self-powered electrolytic process for glucose to hydrogen conversion (2019), P.,

Enhance photocatalytic hydrogen evolution by using

Moreover, the enhancement of photocatalytic hydrogen production is also achieved by using the waste liquid of alkali pretreated. The output of this study may provide a reference for the reuse of alkali‐treated biomass residues and waste liquor in some industries, and make more comprehensive, efficient and green use of native lignocellulosic biomass.

High efficiency hydrogen evolution from native biomass

A novel electrolysis approach for hydrogen evolution directly from native biomasses, such as cellulose, lignin and even wood and grass powders, to hydrogen at low temperature is presented. Using aqueous polyoxometalate (POM) as a catalyst at the anode, the raw biomass is oxidized and electrons are transferred to POM molecules by heating or light-irradiation.

Hydrogen Production Reactions from Carbon Feedstocks:

Hydrogen Evolution from Aliphatic Alcohols and 1,4-Selective Hydrogenation of NAD+ Catalyzed by a [C,N] and a [C,C] Cyclometalated Organoiridium Complex at Room Temperature in Water. Journal of the American Chemical Society 2012, 134 (22), 9417-9427.

(PDF) Hydrogen production from tofu wastewater by

0[ IntroductionBiological hydrogen production from biomass is draw! ing attention because hydrogen has been recognized as the only environmentally acceptable energy and alter! native for fossil fuel[ The biomass produced in large quantities through

Hydrogen Evolution from Native Biomass with Fe3+/Fe2+

2017/8/20Hydrogen Evolution Rate To evaluate the reliability of biomass-Fe based hydrogen evolution system, cell potential curves under 3 different fixed currents (50, 100, 200 mA cm −2) were investigated. Taking glucose for example, three constant cell potentials werea.

Hydrogen Evolution from Native Biomass with Fe3+/Fe2+

A low energy electrolysis process that directly converts native biomasses to hydrogen at low temperature was reported. Practically, an environmentally-friendly proton exchange membrane electrolysis cell (PEMEC) uses a simple redox ion pair, Fe 3+ /Fe 2+, as the catalyst which functions as an oxidation agent (oxidizing biomass), charge carrier (transferring the charge to anode) and

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