| 1123 - 1124 |
Biohydrogen 2002
Janssen MGJ, Lindblad P, van Niel EWJ, Reith JH, Wijffels RH |
| 1125 - 1129 |
Pathways to a more sustainable production of energy: sustainable hydrogen - a research objective for Shell
Gosselink JW |
| 1131 - 1140 |
Hydrogen in education - a biological approach
Wunschiers R, Lindblad P |
| 1141 - 1147 |
Energy aspects of biological hydrogen production in high rate bioreactors operated in the thermophilic temperature range
van Groenestijn JW, Hazewinkel JHO, Nienoord M, Bussmann PJT |
| 1149 - 1155 |
Lab-scale bioreactor integrated with active membrane system for hydrogen production: experience and prospects
Teplyakov VV, Gassanova LG, Sostina EG, Slepova EV, Modigell M, Netrusov AI |
| 1157 - 1165 |
Behavioral study on hydrogen fermentation reactor installed with silicone rubber membrane
Liang TM, Cheng SS, Wu KL |
| 1167 - 1174 |
Biohydrogen production with fixed-bed bioreactors
Chang JS, Lee KS, Lin PJ |
| 1175 - 1184 |
Tailoring optical systems to optimized photobioreactors
Gordon JM |
| 1185 - 1193 |
Biological hydrogen production; fundamentals and limiting processes
Hallenbeck PC, Benemann JR |
| 1195 - 1208 |
Photobiological hydrogen production: photochemical efficiency and bioreactor design
Akkerman I, Janssen M, Rocha J, Wijffels RH |
| 1209 - 1215 |
A brief look at three decades of research on cyanobacterial hydrogen evolution
Pinto FAL, Troshina O, Lindblad P |
| 1217 - 1228 |
Green alga hydrogen production: progress, challenges and prospects
Melis A |
| 1229 - 1237 |
Limiting steps of hydrogen production in Chlamydomonas reinhardtii and Synechocystis PCC 6803 as analysed by light-induced gas exchange transients
Cournac L, Mus F, Bernard L, Guedeney G, Vignais P, Peltier G |
| 1239 - 1244 |
Hydrogen photoproduction under continuous illumination by sulfur-deprived, synchronous Chlamydomonas reinhardtii cultures
Tsygankov A, Kosourov S, Seibert M, Ghirardi ML |
| 1245 - 1249 |
Dilution methods to deprive Chlamydomonas reinhardtii cultures of sulfur for subsequent hydrogen photoproduction
Laurinavichene TV, Tolstygina IV, Galiulina RR, Ghirardi ML, Seibert M, Tsygankov AA |
| 1251 - 1255 |
A power-law sensitivity analysis of the hydrogen-producing metabolic pathway in Chlamydomonas reinhardtii
Horner JK, Wolinsky MA |
| 1257 - 1264 |
Truncated chlorophyll antenna size of the photosystems - a practical method to improve microalgal productivity and hydrogen production in mass culture
Polle JEW, Kanakagiri S, Jin E, Masuda T, Melis A |
| 1265 - 1270 |
High cell density culture of Anabaena variabilis using repeated injections of carbon dioxide for the production of hydrogen
Yoon JH, Sim SJ, Kim MS, Park TH |
| 1271 - 1281 |
Photoproduction of H-2 by wildtype Anabaena PCC 7120 and a hydrogen uptake deficient mutant: from laboratory experiments to outdoor culture
Lindblad P, Christensson K, Lindberg P, Fedorov A, Pinto F, Tsygankov A |
| 1283 - 1289 |
Production of H-2 by the unicellular cyanobacterium Gloeocapsa alpicola CALU 743 during fermentation
Troshina O, Serebryakova L, Sheremetieva M, Lindblad P |
| 1291 - 1296 |
A hydrogen-producing, hydrogenase-free mutant strain of Nostoc punctiforme ATCC 29133
Lindberg P, Schutz K, Happe T, Lindblad P |
| 1297 - 1302 |
Use of blue optical filters for suppression of growth of algae in hydrogen producing non-axenic cultures of Rhodobacter sphaeroides RV
Ko IB, Noike T |
| 1303 - 1308 |
Hydrogen production by combining two types of photosynthetic bacteria with different characteristics
Kondo T, Arakawa M, Wakayama T, Miyake J |
| 1309 - 1313 |
Photohydrogen production using purple nonsulfur bacteria with hydrogen fermentation reactor effluent
Lee CM, Chen PC, Wang CC, Tung YC |
| 1315 - 1329 |
Aspects of the metabolism of hydrogen production by Rhodobacter sphaeroides
Koku H, Eroglu I, Gunduz U, Yucel M, Turker L |
| 1331 - 1338 |
A pneumatically agitated flat-panel photobioreactor with gas re-circulation: anaerobic photoheterotrophic cultivation of a purple non-sulfur bacterium
Hoekema S, Bijmans M, Janssen M, Tramper J, Wijffels RH |
| 1339 - 1347 |
Sustainable fermentative hydrogen production: challenges for process optimisation
Hawkes FR, Dinsdale R, Hawkes DL, Hussy I |
| 1349 - 1357 |
Hydrogen production as a novel process of wastewater treatment - studies on tofu wastewater with entrapped R-sphaeroides and mutagenesis
Zhu HG, Ueda S, Asada Y, Miyake J |
| 1359 - 1365 |
Hydrogen production from rice winery wastewater in an upflow anaerobic reactor by using mixed anaerobic cultures
Yu HQ, Zhu ZH, Hu WR, Zhang HS |
| 1367 - 1371 |
Inhibition of hydrogen fermentation of organic wastes by lactic acid bacteria
Noike T, Takabatake H, Mizuno O, Ohba M |
| 1373 - 1379 |
Fermentative hydrogen production by a new chemoheterotrophic bacterium Rhodopseudomonas palustris P4
Oh YK, Seol EH, Lee EY, Park S |
| 1381 - 1390 |
Pretreatment of Miscanthus for hydrogen production by Thermotoga elfii
de Vrije T, de Haas GG, Tan GB, Keijsers ERP, Claassen PAM |
| 1391 - 1398 |
Distinctive properties of high hydrogen producing extreme thermophiles, Caldicellulosiruptor saccharolyticus and Thermotoga elfii
van Niel EWJ, Budde MAW, de Haas GG, van der Wal FJ, Claasen PAM, Stams AJM |
| 1399 - 1405 |
Hydrogen production of Enterobacter aerogenes altered by extracellular and intracellular redox states
Nakashimada Y, Rachman MA, Kakizono T, Nishio N |
| 1407 - 1411 |
Hydrogen production from a carbon-monoxide oxidation pathway in Rubrivivax gelatinosus
Maness PC, Weaver PF |
| 1413 - 1420 |
How bacteria get energy from hydrogen: a genetic analysis of periplasmic hydrogen oxidation in Escherichia coli
Dubini A, Pye RL, Jack RL, Palmer T, Sargent F |
| 1421 - 1430 |
Accumulation of O-2-tolerant phenotypes in H-2-producing strains of Chlamydomonas reinhardtii by sequential applications of chemical mutagenesis and selection
Flynn T, Ghirardi ML, Seibert M |
| 1431 - 1439 |
[Fe]-hydrogenases in green algae: photo-fermentation and hydrogen evolution under sulfur deprivation
Winkler M, Hemschemeier A, Gotor C, Melis A, Happe T |
| 1441 - 1448 |
Continuous monitoring of the activation and activity of [NiFe]-hydrogenases by membrane-inlet mass spectrometry
Vignais PM, Cournac L, Hatchikian EC, Elsen S, Serebryakova L, Zorin N, Dimon B |
| 1449 - 1461 |
High-resolution crystallographic analysis of Desulfovibrio fructiosovorans [NiFe] hydrogenase
Volbeda A, Montet Y, Vernede X, Hatchikian EC, Fontecilla-Camps JC |
| 1463 - 1469 |
Hydrogenases, accessory genes and the regulation of [NiFe] hydrogenase biosynthesis in Thiocapsa roseopersicina
Kovacs KL, Fodor B, Kovacs AT, Csanadi G, Maroti G, Balogh J, Arvani S, Rakhely G |
| 1471 - 1474 |
Hydrogenases and photobiological hydrogen production utilizing nitrogenase system in cyanobacteria
Masukawa H, Mochimaru M, Sakurai H |
| 1475 - 1479 |
Isolation and molecular characterization of hydrogenase gene from a high rate of hydrogen-producing bacterial strain Enterobacter cloacae IIT-BT 08
Mishra J, Kumar N, Ghosh AK, Das D |
| 1481 - 1487 |
Photoinduced hydrogen evolution by use of porphyrin, EDTA, viologens and hydrogenase in solutions and Langmuir-Blodgett films
Qian DJ, Wenk SO, Nakamura C, Wakayama T, Zorin N, Miyake J |
| 1489 - 1493 |
Biomolecular device for photoinduced hydrogen production
Wenk SO, Qian DJ, Wakayama T, Nakamura C, Zorin N, Rogner M, Miyake J |
| 1495 - 1500 |
Light shade bands for the improvement of solar hydrogen production efficiency by Rhodobacter sphaeroides RV
Wakayama T, Miyake J |
| 1501 - 1505 |
Bioelectrocatalytic hydrogen production by hydrogenase electrodes
Morozov SV, Vignais PM, Cournac VL, Zorin NA, Karyakina EE, Karyakin AA, Cosnier S |
