| 1 - 1 |
Biorefineries
Park JM, Kondo A, Chang JS, Chou CP, Monsan P |
| 2 - 6 |
Immobilization of beta-glucosidase on a magnetic nanoparticle improves thermostability: Application in cellobiose hydrolysis
Verma ML, Chaudhary R, Tsuzuki T, Barrow CJ, Puri M |
| 7 - 11 |
Biological delignification of paddy straw and Parthenium sp using a novel micromycete Myrothecium roridum LG7 for enhanced saccharification
Tiwari R, Rana S, Singh S, Arora A, Kaushik R, Agrawal VV, Saxena AK, Nain L |
| 12 - 17 |
Streptomyces griseorubens mediated delignification of paddy straw for improved enzymatic saccharification yields
Saritha M, Arora A, Singh S, Nain L |
| 18 - 22 |
Enzymatic saccharification of sugarcane bagasse by N-methylmorpholine-N-oxide-tolerant cellulase from a newly isolated Galactomyces sp CCZU11-1
He YC, Xia DQ, Ma CL, Gong L, Gong T, Wu MX, Zhang Y, Tang YJ, Xu JH, Liu YY |
| 23 - 29 |
Aqueous-ammonia delignification of miscanthus followed by enzymatic hydrolysis to sugars
Liu ZG, Padmanabhan S, Cheng K, Schwyter P, Pauly M, Bell AT, Prausnitz JM |
| 30 - 38 |
Fractionation of cellulase and fermentation inhibitors from steam pretreated mixed hardwood
Kim Y, Kreke T, Hendrickson R, Parenti J, Ladisch MR |
| 39 - 45 |
Fungal pretreatment of switchgrass for improved saccharification and simultaneous enzyme production
Liu JY, Wang ML, Torinis B, Habteselassie M, Liao XR, Huang QG |
| 46 - 52 |
Diluted phosphoric acid pretreatment for production of fermentable sugars in a sugarcane-based biorefinery
de Vasconcelos SM, Santos AMP, Rocha GJM, Souto-Maior AM |
| 53 - 57 |
Behavior of lignin-binding cellulase in the presence of fresh cellulosic substrate
Nonaka H, Kobayashi A, Funaoka M |
| 58 - 66 |
Ethanol-based organosolv fractionation of wheat straw for the production of lignin and enzymatically digestible cellulose
Wildschut J, Smit AT, Reith JH, Huijgen WJJ |
| 67 - 72 |
A novel surfactant-assisted ultrasound pretreatment of sugarcane tops for improved enzymatic release of sugars
Sindhu R, Kuttiraja M, Preeti VE, Vani S, Sukumaran RK, Binod P |
| 73 - 81 |
Hydrothermal treatment and enzymatic hydrolysis of Tamarix ramosissima: Evaluation of the process as a conversion method in a biorefinery concept
Xiao LP, Shi ZJ, Xu F, Sun RC |
| 82 - 88 |
Effect of different pretreatments on delignification pattern and enzymatic hydrolysability of miscanthus, oil palm biomass and typha grass
Timilsena YP, Abeywickrama CJ, Rakshit SK, Brosse N |
| 89 - 92 |
The promoting effects of manganese on biological pretreatment with Irpex lacteus and enzymatic hydrolysis of corn stover
Song LL, Ma FY, Zeng YL, Zhang XY, Yu HB |
| 93 - 102 |
Enhanced bioethanol production from pretreated corn stover via multi-positive effect of casein micelles
Eckard AD, Muthukumarappan K, Gibbons W |
| 103 - 108 |
Low melting point pyridinium ionic liquid pretreatment for enhancing enzymatic saccharification of cellulosic biomass
Uju, Nakamoto A, Shoda Y, Goto M, Tokuhara W, Noritake Y, Katahira S, Ishida N, Ogino C, Kamiya N |
| 109 - 115 |
Sodium sulfite-formaldehyde pretreatment of mixed hardwoods and its effect on enzymatic hydrolysis
Jin YC, Yang LF, Jameel H, Chang HM, Phillips R |
| 116 - 119 |
Comparative study of various pretreatment reagents on rice husk and structural changes assessment of the optimized pretreated rice husk
Ang TN, Ngoh GC, Chua ASM |
| 120 - 127 |
Techno-economic assessment of biofuel development by anaerobic digestion of European marine cold-water seaweeds
Dave A, Huang Y, Rezvani S, McIlveen-Wright D, Novaes M, Hewitt N |
| 128 - 136 |
A biorefinery from Nannochloropsis sp microalga - Extraction of oils and pigments. Production of biohydrogen from the leftover biomass
Nobre BP, Villalobos F, Barragan BE, Oliveira AC, Batista AP, Marques PASS, Mendes RL, Sovova H, Palavra AF, Gouveia L |
| 137 - 141 |
Separation of microalgae with different lipid contents by dielectrophoresis
Deng YL, Chang JS, Juang YJ |
| 142 - 149 |
Biorefinery of microalgae for food and fuel
Vanthoor-Koopmans M, Wijffels RH, Barbosa MJ, Eppink MHM |
| 150 - 156 |
Bioethanol production from Gracilaria verrucosa, a red alga, in a biorefinery approach
Kumar S, Gupta R, Kumar G, Sahoo D, Kuhad RC |
| 157 - 165 |
Characterization and optimization of carbohydrate production from an indigenous microalga Chlorella vulgaris FSP-E
Ho SH, Huang SW, Chen CY, Hasunuma T, Kondo A, Chang JS |
| 166 - 174 |
Microalgae-based biorefinery - From biofuels to natural products
Yen HW, Hu IC, Chen CY, Ho SH, Lee DJ, Chang JS |
| 175 - 181 |
A strategy for urban outdoor production of high-concentration algal biomass for green biorefining
Lim CY, Chen CL, Wang JY |
| 182 - 190 |
Potentials of macroalgae as feedstocks for biorefinery
Jung KA, Lim SR, Kim Y, Park JM |
| 191 - 198 |
Bioethanol production, using carbohydrate-rich microalgae biomass as feedstock
Ho SH, Huang SW, Chen CY, Hasunuma T, Kondo A, Chang JS |
| 199 - 206 |
Bioethanol production from mannitol by a newly isolated bacterium, Enterobacter sp JMP3
Wang J, Kim YM, Rhee HS, Lee MW, Park JM |
| 207 - 212 |
Bioflocculant production from Solibacillus silvestris W01 and its application in cost-effective harvest of marine microalga Nannochloropsis oceanica by flocculation
Wan C, Zhao XQ, Guo SL, Alam MA, Bai FW |
| 213 - 221 |
Effect of solvents and oil content on direct transesterification of wet oil-bearing microalgal biomass of Chlorella vulgaris ESP-31 for biodiesel synthesis using immobilized lipase as the biocatalyst
Dang-Thuan Tran, Chen CL, Chang JS |
| 222 - 231 |
Anaerobic conversion of microalgal biomass to sustainable energy carriers - A review
Lakaniemi AM, Tuovinen OH, Puhakka JA |
| 232 - 238 |
Phycoremediation and biogas potential of native algal isolates from soil and wastewater
Prajapati SK, Kaushik P, Malik A, Vijay VK |
| 239 - 245 |
Comparing cell viability and ethanol fermentation of the thermotolerant yeast Kluyveromyces marxianus and Saccharomyces cerevisiae on steam-exploded biomass treated with laccase
Moreno AD, Ibarra D, Ballesteros I, Gonzalez A, Ballesteros M |
| 246 - 253 |
Coupled production of single cell oil as biodiesel feedstock, xylitol and xylanase from sugarcane bagasse in a biorefinery concept using fungi from the tropical mangrove wetlands
Kamat S, Khot M, Zinjarde S, RayiKumar A, Gade WN |
| 254 - 261 |
Butanol production from acid hydrolyzed corn fiber with Clostridium beijerinckii mutant
Du TF, He AY, Wu H, Chen JN, Kong XP, Liu JL, Jiang M, Ouyang PK |
| 262 - 268 |
Evaluation of biobutanol production from non-pretreated rice straw hydrolysate under non-sterile environmental conditions
Chen WH, Chen YC, Lin JG |
| 269 - 274 |
A novel fed-batch process based on the biology of Aurantiochytrium sp KRS101 for the production of biodiesel and docosahexaenoic acid
Kim K, Kim EJ, Ryu BG, Park S, Choi YE, Yang JW |
| 275 - 282 |
Pretreatment of empty fruit bunch from oil palm for fuel ethanol production and proposed biorefinery process
Tan L, Yu Y, Li X, Zhao J, Qu Y, Choo YM, Loh SK |
| 283 - 291 |
Pilot-scale chemical-biological system for efficient H2S removal from biogas
Lin WC, Chen YP, Tseng CP |
| 292 - 303 |
States and challenges for high-value biohythane production from waste biomass by dark fermentation technology
Liu ZD, Zhang C, Lu Y, Wu X, Wang L, Wang LJ, Han B, Xing XH |
| 304 - 308 |
Cultivation and lipid production of yeast Cryptococcus curvatus using pretreated waste active sludge supernatant
Seo YH, Lee IG, Han JI |
| 309 - 315 |
Characterization of a thermostable xylanase from a newly isolated Kluyvera species and its application for biobutanol production
Xin FX, He JZ |
| 316 - 323 |
Butanol production in a first-generation Brazilian sugarcane biorefinery: Technical aspects and economics of greenfield projects
Mariano AP, Dias MOS, Junqueira TL, Cunha MP, Bonomi A, Maciel R |
| 324 - 330 |
Enhancing butanol production with Clostridium pasteurianum CH4 using sequential glucose-glycerol addition and simultaneous dual-substrate cultivation strategies
Kao WC, Lin DS, Cheng CL, Chen BY, Lin CY, Chang JS |
| 331 - 338 |
Bioconversion characteristics of Rhodopseudomonas palustris CQK 01 entrapped in a photobioreactor for hydrogen production
Wang YZ, Liao Q, Zhu X, Chen R, Guo CL, Zhou J |
| 339 - 349 |
Microbial synthesis of n-butanol, isobutanol, and other higher alcohols from diverse resources
Lan EI, Liao JC |
| 350 - 356 |
Batch and multi-step fed-batch enzymatic saccharification of Formiline-pretreated sugarcane bagasse at high solid loadings for high sugar and ethanol titers
Zhao XB, Dong L, Chen L, Liu DH |
| 357 - 364 |
High-cell-density cultivation of oleaginous yeast Cryptococcus curvatus for biodiesel production using organic waste from the brewery industry
Ryu BG, Kim J, Kim K, Choi YE, Han JI, Yang JW |
| 365 - 371 |
Optimization of ethanol production from carob pod extract using immobilized Saccharomyces cerevisiae cells in a stirred tank bioreactor
Yatmaz E, Turhan I, Karhan M |
| 372 - 378 |
Characterization of a butanol-acetone-producing Clostridium strain and identification of its solventogenic genes
Chua TK, Liang DW, Qi C, Yang KL, He JZ |
| 379 - 385 |
Butanol production from hemicellulosic hydrolysate of corn fiber by a Clostridium beijerinckii mutant with high inhibitor-tolerance
Guo T, He AY, Du TF, Zhu DW, Liang DF, Jiang M, Wei P, Ouyang PK |
| 386 - 395 |
Enzymatic biodiesel production: An overview of potential feedstocks and process development
Hama S, Kondo A |
| 396 - 402 |
Two-stage in situ gas stripping for enhanced butanol fermentation and energy-saving product recovery
Xue C, Zhao JB, Liu FF, Lu CC, Yang ST, Bai FW |
| 403 - 409 |
Cell recycle batch fermentation of high-solid lignocellulose using a recombinant cellulase-displaying yeast strain for high yield ethanol production in consolidated bioprocessing
Matano Y, Hasunuma T, Kondo A |
| 410 - 416 |
Production of biodiesel from plant oil hydrolysates using an Aspergillus oryzae whole-cell biocatalyst highly expressing Candida antarctica lipase B
Adachi D, Hama S, Nakashima K, Bogaki T, Ogino C, Kondo A |
| 417 - 421 |
Enzymatic production of biodiesel from waste cooking oil in a packed-bed reactor: An engineering approach to separation of hydrophilic impurities
Hama S, Yoshida A, Tamadani N, Noda H, Kondo A |
| 422 - 431 |
Itaconic acid - A biotechnological process in change
Klement T, Buchs J |
| 432 - 439 |
Biosynthesis of 3-hydroxypropionic acid from glycerol in recombinant Escherichia coli expressing Lactobacillus brevis dhaB and dhaR gene clusters and E. coil K-12 aldH
Kwak S, Park YC, Seo JH |
| 440 - 445 |
Chain elongation of acetate and ethanol in an upflow anaerobic filter for high rate MCFA production
Grootscholten TIM, Steinbusch KJJ, Hamelers HVM, Buisman CJN |
| 446 - 453 |
Method of 2,3-butanediol production from glycerol and acid-pretreated rice straw hydrolysate by newly isolated strains: Pre-evaluation as an integrated biorefinery process
Huang CF, Jiang YF, Guo GL, Hwang WS |
| 454 - 458 |
Lactic acid production on liquid distillery stillage by Lactobacillus rhamnosus immobilized onto zeolite
Djukic-Vukovic AP, Mojovic LV, Jokic BM, Nikolic SB, Pejin JD |
| 459 - 463 |
Improved acid tolerance of Lactobacillus pentosus by error-prone whole genome amplification
Ye LD, Zhao H, Li Z, Wu JC |
| 464 - 468 |
Biotransformation of wheat straw to bacterial cellulose and its mechanism
Chen L, Hong F, Yang XX, Han SF |
| 469 - 474 |
Succinic acid production from cellobiose by Actinobacillus succinogenes
Jiang M, Xu R, Xi YL, Zhang JH, Dai WY, Wan YJ, Chen KQ, Wei P |
| 475 - 480 |
Open fermentative production of L-lactic acid by Bacillus sp strain NLO1 using lignocellulosic hydrolyzates as low-cost raw material
Ouyang J, Ma R, Zheng ZJ, Cal C, Zhang M, Jiang T |
| 481 - 489 |
Simultaneous saccharification and high titer lactic acid fermentation of corn stover using a newly isolated lactic acid bacterium Pediococcus acidilactici DQ2
Zhao K, Qiao QG, Chu DQ, Gu HQ, Dao TH, Zhang J, Bao J |
| 490 - 499 |
Potential of bioethanol as a chemical building block for biorefineries: Preliminary sustainability assessment of 12 bioethanol-based products
Posada JA, Patel AD, Roes A, Blok K, Faaij APC, Patel MK |
| 500 - 503 |
Effects of pH and dissolved CO2 level on simultaneous production of 2,3-butanediol and succinic acid using Klebsiella pneumoniae
Cheng KK, Wu J, Wang GY, Li WY, Feng J, Zhang JA |
| 504 - 512 |
An economical biorefinery process for propionic acid production from glycerol and potato juice using high cell density fermentation
Dishisha T, Stahl A, Lundmark S, Hatti-Kaul R |
| 513 - 522 |
A review of enzymes and microbes for lignocellulosic biorefinery and the possibility of their application to consolidated bioprocessing technology
Hasunuma T, Okazaki F, Okai N, Hara KY, Ishii J, Kondo A |
| 523 - 532 |
Zygomycetes-based biorefinery: Present status and future prospects
Ferreira JA, Lennartsson PR, Edebo L, Taherzadeh MJ |
| 533 - 543 |
Techno-economic analysis for a sugarcane biorefinery: Colombian case
Moncada J, El-Halwagi MM, Cardona CA |
| 544 - 554 |
Metabolic engineering of industrial platform microorganisms for biorefinery applications - Optimization of substrate spectrum and process robustness by rational and evolutive strategies
Buschke N, Schafer R, Becker J, Wittmann C |
| 555 - 563 |
Simultaneous production of 3-hydroxypropionic acid and 1,3-propanediol from glycerol using resting cells of the lactate dehydrogenase-deficient recombinant Klebsiella pneumoniae overexpressing an aldehyde dehydrogenase
Kumar V, Sankaranarayanan M, Durgapal M, Zhou S, Ko Y, Ashok S, Sarkar R, Park S |
| 564 - 567 |
Engineered Escherichia coli for simultaneous utilization of galactose and glucose
Lim HG, Seo SW, Jung GY |
| 568 - 573 |
Refactoring redox cofactor regeneration for high-yield biocatalysis of glucose to butyric acid in Escherichia coli
Lim JH, Seo SW, Kim SY, Jung GY |
| 574 - 577 |
Succinate production by metabolically engineered Escherichia coli using sugarcane bagasse hydrolysate as the carbon source
Liu RM, Liang LY, Cao WJ, Wu MK, Chen KQ, Ma JF, Jiang M, Wei P, Ouyang PK |
| 578 - 587 |
Landfills as a biorefinery to produce biomass and capture biogas
Bolan NS, Thangarajan R, Seshadri B, Jena U, Das KC, Wang H, Naidu R |
| 588 - 597 |
Understanding biorefining efficiency - The case of agrifood waste
Kuisma M, Kahiluoto H, Havukainen J, Lehtonen E, Luoranen M, Myllymaa T, Gronroos J, Horttanainen M |
| 598 - 603 |
Treatment of agro-industrial wastewater using microalgae-bacteria consortium combined with anaerobic digestion of the produced biomass
Hernandez D, Riano B, Coca M, Garcia-Gonzalez MC |
| 604 - 609 |
Efficient decolorization and deproteinization using uniform polymer microspheres in the succinic acid biorefinery from bio-waste cotton (Gossypium hirsutum L.) stalks
Li Q, Lei JD, Zhang RY, Li J, Xing JM, Gao F, Gong FL, Yan XF, Wang D, Su ZG, Ma GH |
| 610 - 615 |
Co-fermentation of water hyacinth and beverage wastewater in powder and pellet form for hydrogen production
Lay CH, Sen B, Chen CC, Wu JH, Lee SC, Lin CY |
| 616 - 621 |
Spectroscopic analysis and biodegradation potential study of dissolved organic matters in sewage sludge treated with high-pressure homogenization
Zhang YX, Zhang PY, Guo JB, Ma WF, Xiao LP |
| 622 - 629 |
Potential utilization of waste sweetpotato vines hydrolysate as a new source for single cell oils production by Trichosporon fermentans
Zhan JM, Lin H, Shen Q, Zhou QF, Zhao YH |
| 630 - 634 |
Ferric iron enhances electricity generation by Shewanella oneidensis MR-1 in MFCs
Wu D, Xing DF, Lu L, Wei M, Liu BF, Ren NQ |
| 635 - 639 |
Generation of electricity from FeCl3 pretreatment of rice straw using a fuel cell system
Kim I, Rehman MSU, Kim KH, Han JI |
| 640 - 643 |
Characteristics of the photosynthesis microbial fuel cell with a Spirulina platensis biofilm
Lin CC, Wei CH, Chen CI, Shieh CJ, Liu YC |
| 644 - 651 |
Conversion of pine sawdust bio-oil (raw and thermally processed) over equilibrium FCC catalysts
Bertero M, Sedran U |
| 652 - 658 |
Microcapsule with a heterogeneous catalyst for the methanolysis of rapeseed oil
Kurayama F, Yoshikawa T, Furusawa T, Bahadur NM, Handa H, Sato M, Suzuki N |
| 659 - 664 |
The effects of torrefaction on compositions of bio-oil and syngas from biomass pyrolysis by microwave heating
Ren SJ, Lei HW, Wang L, Bu Q, Chen SL, Wu J, Julson J, Ruan R |
| 665 - 671 |
Potential of hot water extraction of birch wood to produce high-purity dissolving pulp after alkaline pulping
Borrega M, Tolonen LK, Bardot F, Testova L, Sixta H |
| 672 - 682 |
Integration of extrusion and clean fractionation processes as a pre-treatment technology for prairie cordgrass
Brudecki G, Cybulska I, Rosentrater K |
| 683 - 689 |
Chemical, structural and combustion characteristics of carbonaceous products obtained by hydrothermal carbonization of palm empty fruit bunches
Parshetti GK, Hoekman SK, Balasubramanian R |
| 690 - 696 |
Optimization of lignin production from empty fruit bunch via liquefaction with ionic liquid
Sidik DAB, Ngadi N, Amin NAS |
| 697 - 703 |
High glucose selectivity in pressurized water hydrolysis of cellulose using ultra-fast reactors
Cantero DA, Bermejo MD, Cocero M |
| 704 - 709 |
Towards understanding structural changes of photoperiod-sensitive sorghum biomass during sulfuric acid pretreatment
Xu F, Shi YC, Wang DH |
| 710 - 719 |
Hydrothermal processing of duckweed: Effect of reaction conditions on product distribution and composition
Duan PG, Chang ZF, Xu YP, Bai XJ, Wang F, Zhang L |
| 720 - 729 |
Algal biomass dehydration
Show KY, Lee DJ, Chang JS |
| 730 - 737 |
Production and recovery of monosaccharides from lignocellulose hot water extracts in a pulp mill biorefinery
Sainio T, Kallioinen M, Nakari O, Manttari M |
| 738 - 741 |
Separation and characterization of lignin from bio-ethanol production residue
Guo GW, Li SJ, Wang L, Ren SX, Fang GZ |
