Publications

93

Nanoscale Hybrid Amorphous/Graphitic Carbon as Key Towards Next-Generation Carbon-based Oxidative Dehydrogenation Catalyst , Felix Herold, Stefan Prosch, Niklas Oefner, Kai Brunnengräber, Oliver Leubner, Yannick Hermans, Kathrin Hofmann, Alfons Drochner, Jan P. Hofmann, Wei Qi and Bastian J. M. Etzold, Angew. Chem. Int. Ed., accepted

92

Mesoporous and Crystalline Carbide-Derived Carbons: Towards a General Correlation on Synthesis Temperature and Precursor Structure Influence , Hauke Christians, Kai Brunnengräber, Jan Gläsel and Bastian J. M. Etzold, Carbon, accepted

91

Methodology for the Identification of Carbonyl Absorption Maxima of Carbon Surface Oxides in Diffuse Reflectance Infrared Spectra , Felix Herold, Oliver Leubner, Katharina Jeschonek, Christian Hess, Alfons Drochner, Wei Qi and Bastian J.M.Etzold, Carbon Trends, 3, 100020

90

Synthesis Strategies Towards Amorphous Porous Carbons with Selective Oxygen Functionalization for the Application as Reference Material , F. Herold, P. Leubner, P. Pfeifer, D. Zakgeym, A. Drochner, W. Qi and B.J.M. Etzold, Carbon, 171, 658-670

89

Oxygen assisted butanol conversion on bifunctional carbon nanotube catalysts: Activity of oxygen functionalities , F. Li, P- Yan, F. Herold, A. Drochner, H. Wang, T. Cao, W. Liu, X. Dai, B. Zhang, BJ.M. Etzold and Wei Qi, Carbon, 170, 580-588

88

Probing CO2 Reduction Pathways in Copper Catalysts using Ionic Liquid as a Chemical Trapping Agent , G.-R. Zhang, S.-D. Straub, L-L Shen, Y. Hermans, P. Schmatz, A.M. Reichert, J.P. Hofmann, I. Katsounaros and B.J.M. Etzold, Angew. Chem. Int. Ed., 59, 18095-18102

87

Carbon-Methanol Based Adsorption Heat Pumps: Identifying Accessible Parameter Space with Carbide-Derived Carbon Model Materials , L. Träger, J. Gläsel, M. Scherle, J. Hartmann, U. Nieken and B.J.M. Etzold, Chem. Eng. Technol., 43, 1876-1883

86

Methanol conversion on borocarbonitride catalysts: Identification and quantification of active sites , X.i Zhang, P. Yan, J. Xu, F. Li, F. Herold, B.J. M. Etzold, P. Wang, D.S. Su, S. Lin, W. Qi and Z. Xie, Sci. Adv., 6, eaba5778

85

Investigation of the acrolein oxidation on heteropolyacid catalysts by transient response methods , S. Knoche, M. Heid, N. Gora, D. Ohlig, J. Steffan, A. Drochner, B.J.M. Etzold, B. Albert and H Vogel , Catal. Sci. & Technol., 10, 5231-5244

84

Porous graphite as stationary phase for the chromatographic separation of polymer additives – determination of adsorption capability by Raman spectroscopy and physisorption , D. Kot, M Zou, K. Brunnengräber, J.-H. Arndt, T. Macko; B.J.M. Etzold and R. Brüll, J. Chromatogr. A, 1625, 461302

83

Mechanistic Study on the Selective Oxidation of Acrolein to Acrylic Acid concerning the Role of Water , S. Knoche, M. Heid, N. Gora, D. Ohlig, A. Drochner, B.J.M. Etzold and H. Vogel, ChemCatChem, 12, 1-17

82

Methanol Oxidative Dehydrogenation and Dehydration on Carbon Nanotubes: Active Sites and Basic Reaction Kinetics , P.Q. Yan, X.F. Zhang, F. Herold, F. Li, X. Dai, T.L. Cao, B.J.M Etzold and W. Qi, Catal. Sci. & Technol., 10, 4952-4959

81

Carbide-derived niobium pentoxide with an enhanced charge storage capacity for use as a lithium-ion battery electrode , Ö. Budak, M. Geißler, D. Becker, A. Kruth, A. Quade, R. Haberkorn, G. Kickelbick, B.J.M. Etzold and V. Presser, ACS Appl. Energy Mater., 3, 4275-4285

80

Cathodic activated stainless steel mesh as a highly active electrocatalyst for the oxygen evolution reaction with self-healing possibility   , G.-R. Zhang, L.-L. Shen, P. Schmatz, K. Krois and B.J.M. Etzold, J. Energy Chem., 49, 153-160

79

Paper‐Based Microfluidics for Electrochemical Applications , L.-L. Shen, G.-R. Zhang and B.J.M. Etzold, ChemElectroChem, 7, 10-30

78

Combining autoclave and LCWM reactor studies to shed light on the kinetics of glucose oxidation catalyzed by doped molybdenum-based heteropoly acids , D. Voß, S. Ponce, S. Wesinger, B.J.M. Etzold and J. Albert, RSC Adv., 9, 29347

77

Paper-based Microfluidic Aluminum-Air Batteries: Toward Next-Generation Miniaturized Power Supply , L.-L. Shen, G.-R. Zhang, M. Biesalski and B.J.M. Etzold , Lab Chip, 19, 3438-3447

76

The Effect of Ionic Liquid Modification on the ORR Performance and Degradation Mechanism of Trimetallic PtNiMo/C Catalysts , M. George, G.-R. Zhang, N. Schmitt, K. Brunnengräber, D.J.S. Sandbeck, K.J.J. Mayrhofer, S. Cherevko and B.J.M. Etzold, ACS Catal., 9, 8682

75

Oxidative dehydrogenation on nanocarbon: Effect of heteroatom doping , W. Li, C. Wang, F. Herold, B.J.M. Etzold, D.S. Su and W. Qi, Appl. Catal. B, 258, 118982

74

Investigation of the phase equilibria of CO2/CH3OH/H2O and CO2/CH3OH/H2O/H2 mixtures , K. Vogel, E. Hocke, L. Beisswenger, A. Drochner, B.J.M. Etzold and H. Vogel, Chem. Eng. Technol., 42, 2386-2392

73

Activated carbon in the 3rd dimension – 3D printing of a tuned porous carbon , H. Steldinger, A. Esposito, K. Brunnengräber, J. Gläsel and B.J.M. Etzold, Adv. Sci, 6, 1901340

72

Mechanistic study on the selective oxidation of acrolein to acrylic acid: -Identification of the rate-limiting step via perdeuterated acrolein , S. Knoche, M. Heid, N. Gora, D. Ohlig, A. Drochner, C. Hess, B.J.M. Etzold and H. Vogel, ChemCatChem, 11, 3242-3252

71

Simulative Approach for Linking Electrode and Electrolyte Properties to Supercapacitor Performance , K. Krois, L. Hüfner, J. Gläsel and B.J.M. Etzold, Chem. Ing. Tech., 91, 889-899

70

Insights into the redox kinetics of vanadium substituted heteropoly acids through liquid core waveguide membrane microreactor studies , S. Ponce, M. Trabold, A. Drochner, J. Albert and B.J.M. Etzold, Chem. Eng. J., 369, 443-250

69

Improving control of carbide-derived carbon microstructure by immobilization of a transition-metal catalyst within the shell of carbide/carbon core–shell structures , T. Ariyanto, J. Gläsel, A. Kern, G.-R. Zhang and B.J.M. Etzold, Beilstein J. Nanotechnol., 10, 419-427

68

Combined Computational and Experimental Study on the Influence of Surface Chemistry of Carbon-Based Electrodes on Electrode–Electrolyte Interactions in Supercapacitors , S. Schweizer, J. Landwehr, B.J.M. Etzold, R.H. Meißner, M.Amkreutz, P. Schiffels and J.-R. Hill, J. Phys. Chem. C., 123, 2716-2727

67

Towards best practices for improving paper-based microfluidic fuel cells , L.-L. Shen, G.-R. Zhang, T. Venter, M. Biesalski and B.J.M Etzold, Electrochim. Acta, 298, 389-399

66

An Optical Microreactor Enabling In Situ Spectroscopy Combined with Fast Gas-Liquid Mass Transfer , S. Ponce, H. Christians, A. Drochner and B.J.M. Etzold, Chem. Ing. Tech., 90, 1855-1863

65

Tuning the Electrocatalytic Performance of Ionic Liquid Modified Pt Catalysts for Oxygen Reduction Reaction via Cationic Chain Engineering , G.-R. Zhang, T. Wolker, D.J.S. Sandbeck, M. Munoz, K.J.J. Mayrhofer, S.Cherevko and B.J.M. Etzold, ACS Catal., 8, 8244–8254

64

Stable Immobilization of Size‐Controlled Bimetallic Nanoparticles in Photonic Crystal Fiber Microreactor , S. Ponce, M. Munoz, A. M. Cubillas, T. G. Euser, G.‐R. Zhang, P. St. J. Russell, P. Wasserscheid and B.J.M. Etzold, Chem. Ing. Tech., 90, 653-659

63

Introducing Sulphur Surface Groups in Microporous Carbons: A mechanistic study on carbide derived carbons , J. Landwehr, H. Steldinger and B.J.M. Etzold, Catal. Today, 301, 191-195

62

Aqueous-phase reforming of alcohols with three carbon atoms on carbon-supported Pt , L.I. Godina, A.V. Tokarev, I.L. Simakova, P. Mäki-Arvela, E. Kortesmäki, J. Gläsel, L. Kronberg, B.J.M. Etzold and D. Yu. Murzin, Catalysis Today, 301, 78-89

61

Editoral special issue CarboCat-VII , B.J.M. Etzold and D. Begin, Catal. Today, 301, 1

60

Improved electrochemical performance of Fe-N-C catalysts through ionic liquid modification in alkaline media , I. Martinaiou, T. Wolker, A. Shahraeia, G.-R. Zhang, A. Janßen, S. Wagner, N. Weidler, R.W. Stark, B.J.M. Etzold and U.I. Kramm, Journal of Power Sources, 375, 222-232

59

Heterogeneously Catalyzed Hydrogenation of Supercritical CO2 to Methanol , B. Kommoß, S. Klemenz, F. Schmitt, E. Hocke, K. Vogel, A. Drochner, B. Albert, B. J.M. Etzold and H. G. Vogel, Chem. Eng. Technol., 40, 1907-1915

58

Activity Hysteresis during Cyclic Temperature-Programmed Reactions in the Partial Oxidation of Acrolein to Acrylic Acid , S. Knoche, M. Heid, N. Gora, D. Ohlig, A. Drochner, H. Vogel and B.J.M. Etzold, Chem. Eng. Technol., 40, 2084-2095

57

Characterization of V–Mo–W Mixed Oxide Catalyst Surface Species by 51V Solid-State Dynamic Nuclear Polarization NMR , A.S.L. Thankamony, S. Knoche, S. Bothe, A. Drochner, A.P. Jagtap, S.Th. Sigurdsson, H. Vogel, B.J.M. Etzold, T. Gutmann and G. Buntkowsky , J. Phys. Chem. C, 121, 20857–20864

56

Modifier-Free Microfluidic Electrochemical Sensor for Heavy-Metal Detection , L.-L. Shen, G.-R. Zhang, W. Li, M. Biesalski and B.J.M. Etzold, ACS Omega, 2, 4593–4603

55

Carbide-derived carbon with hollow core structure and its performance as catalyst support for methanol electro-oxidation , T. Ariyanto, A. Kern, B.J.M. Etzold and G.-R. Zhang, Electrochemistry Communications, 82, 12-15

54

Polymer-based spherical activated carbon as catalytic support for hydrodechlorination reactions , M. Munoz, V. Kolb, A. Lamolda, Z.M. de Pedro, A. Modrow, B.J.M. Etzold, J.J. Rodriguez and J.A. Casas, Appl. Catal. B, 218, 498-505

53

Carbon structure in nanodiamonds elucidated from Raman spectroscopy , V.I. Korepanov, H. Hamaguchi, E. Osawa, V, Ermolenkov, I.K. Lednev, B.J.M. Etzold, O. Levinson, B. Zousman and C. Prakash, Carbon, 121, 322-329

52

Molecular Modeling of Microporous Structures of Carbide-Derived Carbon-Based Supercapacitors , S. Schweizer, R. Meißner, M. Amkreutz, K. Thiel, P. Schiffels, J. Landwehr, B.J.M. Etzold and J.-R. Hill, J. Phys. Chem. C, 121, 7221–7231

51

Dynamics of Bulk Oxygen in the Selective Oxidation of Acrolein , M. Heid, S.F. Knoche, N.S.A. Gora, D. Ohlig, A. Drochner, B.J.M. Etzold and H.G. Vogel, ChemCatChem, 9, 2390–2398

50

Controlled synthesis of core-shell carbide-derived carbons through in situ generated chlorine , T. Ariyanto, G.-R. Zhang, F. Riyahi, J. Gläsel and B.J.M. Etzold, Carbon, 115, 422–429

49

Photochemistry in soft-glass single-ring hollow-core photonic crystal fiber , A. M Cubillas, X. Jiang, T. Godfried Euser, N. Taccardi, B.J.M. Etzold, P. Wasserscheid and P. Russell, Analyst, 142, 925-929

48

Exploring the role of the catalytic support sorption capacity on the hydrodechlorination kinetics by the use of carbide-derived carbons , M. Munoz, G.-R. Zhang and B.J.M. Etzold, Appl. Catal. B, 203, 591–598

47

Vanadium pentoxide / carbide-derived carbon core-shell hybrid particles for high performance electrochemical energy storage , M. Zeiger, T. Ariyanto, B. Krüner, S. Fleischmann, N.J. Peter, B.J.M. Etzold and V. Presser, J. Mater. Chem. A, 4, 18899-18909

46

Controlled synthesis of PVP-based carbon supported Ru nanoparticles: synthesis approaches, characterization, capping agent removal and catalytic behavior , I. Simakova, Y. Demidova, J. Glaesel, E. Murzina, T. Schubert, I. Prosvirin, B.J.M. Etzold and D. Murzin , Catal. Sci. Technol., 6, 8490-8504

45

Size-controlled PtNi nanoparticles as highly efficient catalyst for hydrodechlorination reactions , M. Munoz, S. Ponce, G.-R. Zhang and B.J.M. Etzold, Appl. Catal. B. 192, 1-7.

44

Improved synthesis and hydrothermal stability of Pt/C catalysts based on size-controlled nanoparticles , J. Lemus, J. Bedia, L. Calvo, I. Simakova, D. Murzin, B.J.M. Etzold, J.J. Rodriguez and M.A. Gilarranz, Catal. Sci. Technol. 6, 5196-5206.

43

Thermal and electrical conductivity of amorphous and graphitized carbide-derived carbon monoliths , A.M. Kern, B. Zierath, T. Fey and B.J.M. Etzold, Chem. Eng. Technol. 39, 1121-1129.

42

Boosting the activity in SILP catalyzed hydroformylation via surface functionalization of the carbon support , A. Weiß, M. Munoz, A. Haas, F. H. Rietzler, H-P. Steinrück, M. Haumann, P. Wasserscheid, and B. J.M. Etzold, ACS Catal. 6, 2280-2286.

41

Adsorption of nickel ions on oxygen functionalized carbons , A.M. Kern, B. Zierath, T. Fey and B.J.M. Etzold, Chem. Eng. Technol. 39, 715-722.

40

Ionic liquids in electrocatalysis , G.-R. Zhang, and B.J.M. Etzold, J. Energ. Chem. 25, 199–207.

39

Polymer-based spherical activated carbon as easy-to-handle catalyst support for hydrogenation reactions , H. Klefer, M. Munoz, A. Modrow, B. Böhringer, P. Wasserscheid, and B.J.M. Etzold, Chem. Eng. Tech. 39, 276-284.

38

Deducing kinetic constants for the hydrodechlorination of 4-chlorophenol using high adsorption capacity catalysts , M. Munoz, M. Kaspereit, and B.J.M. Etzold, Chem. Eng. J. 285, 228-235.

37

Producing High Quality Carbide-Derived Carbon from Low Quality Byproducts Stemming from SiC Production , T. Ariyanto, A.M. Laziz, J. Gläsel, G.-R. Zhang, J. Garbes and B.J.M. Etzold, Chem. Eng. J. 283, 676.

36

Determination of vapor pressure and thermal decomposition using thermogravimetrical analysis , F. Heym, W. Korth, B.J.M. Etzold, C. Kern and Andreas Jess, Thermochimica Acta 622, 9-17.

35

Accelerating Oxygen Reduction Catalysts through Preventing Poisoning with Non-Reactive Species by Using Hydrophobic Ionic Liquids , G.-R. Zhang, M. Munoz, and B.J.M. Etzold, Angew. Chem. Int. Ed. 55, 2257-2261.

34

Mesoporous and Graphitic Carbide-Derived Carbons as Selective and Stable Catalysts for the Dehydrogenation Reaction , J. Gläsel, J. Diao, Z. Feng, M. Hilgart, T. Wolker, D.S. Su and B.J.M. Etzold, Chem. Mater. 27, 5719.

33

Synthesis of Carbon Core–Shell Pore Structures and their Performance as Supercapacitors , T. Ariyanto, B. Dyatkin, G.-R. Zhang, A. Kern, Y. Gogotsi and B.J.M. Etzold, Microporous and Mesoporous Mater. 218, 130-136.

32

Boosting Performance of Low Temperature Fuel Cell Catalysts by Subtle Ionic Liquid Modification , G.-R. Zhang, M. Munoz, B.J.M. Etzold, ACS Appl. Mater. Interfaces 7, 3562- 3570.

31

Preparation of carbide- derived carbon supported platinum catalysts , B. Hasse, J. Gläsel, A.M. Kern, D.Yu. Murzin and B.J.M. Etzold, Catal. Today 249, 30-37.

30

A feasible way to remove the heat during adsorptive methane storage , S. Gütlein, C. Burkard, J. Zeilinger, M. Niedermaier, M. Klumpp, V. Kolb, A. Jess and B.J.M. Etzold, Environ. Sci. Technol. 49, 672-678.

29

Layer-by-Layer Oxidation for Decreasing the Size of Detonation Nanodiamond , B.J.M. Etzold, I. Neitzel, M. Kett, F. Strobl, V.N. Mochalin and Y. Gogotsi, Chem. Mater. 26, 3479- 3484

28

In-situ Heterogeneous Catalysis Monitoring in a Hollow-Core Photonic Crystal Fiber Microflow Reactor , A.M. Cubillas, M. Schmidt, T.G. Euser, N. Taccardi, S. Unterkofler, P. St.J Russell, P. Wasserscheid, and B.J.M. Etzold, Adv. Mat. Interfaces 1300093.

27

Comparing different synthesis procedures for carbide-derived carbon based structured catalyst supports , T. Knorr, A. Schwarz, and B.J.M. Etzold, Chem. Eng. Technol. 37, 453-461.

26

Aqueous-phase reforming of xylitol over Pt/C and Pt/TiC-CDC catalysts: catalyst characterization and catalytic performance , A.V. Kirilin, B. Hasse, A.V. Tokarev, L.M. Kustov, G.N. Baeva, G.O. Bragina, A.Y. Stakheev, A.R. Rautio, T. Salmi, B.J.M. Etzold, J.P. Mikkola, and D.Y. Murzin, Cat. Sci. Technol. 4, 387-401.

25

An advanced method to manufacture hierarchically structured carbide-derived carbon monoliths , T. Fey, B. Zierath, A. Kern, P. Greil, and B.J.M. Etzold, Carbon 70, 30-37.

24

High selectivity of TiC-CDC for CO2/N2 separation , A. Silvestre-Albero, S. Rico-Frances, F. Rodriguez-Reinoso, A.M. Kern, M. Klumpp, B.J.M. Etzold, and J. Silvestre-Albero, Carbon 59, 221-228.

23

“Chemical and (Photo)-Catalytical Transformations in Photonic Crystal Fibers” , M. Schmidt, A.M. Cubillas, N. Taccardi, T.G. Euser, T. Cremer, F. Maier, H.-P. Steinrück, P. St.J. Russell, P. Wasserscheid, and B.J.M. Etzold, ChemCatChem 5, 641-650.

22

“Photonic crystal fibres for chemical sensing and photochemistry” , A.M. Cubillas, S. Unterkofler, T.G. Euser, B.J.M. Etzold, A.C. Jones, P.J. Sadler, P. Wasserscheid, and P. St.J. Russell, , Chem. Soc. Rev. 42, 8629-8648.

21

Titanium carbide-derived carbon as a novel support for platinum catalysts in direct methanol fuel cell application , A. Schlange, A.R. dos Santos, B. Hasse, B.J.M. Etzold, U. Kunz, and T. Turek, J. Power Sources 199, 22-28.

20

Recommendations for the Production of Silicon Carbide-derived Carbon Based on Intrinsic Kinetic Data , T. Knorr, F. Strobl, F. Glenk, and B.J.M. Etzold, Chem. Eng. Technol. 35, 1495-1503.

19

Shrinking core like fluid solid reactions- A dispersion model accounting for fluid phase volume change and solid phase particle size distributions , T. Knorr, M. Kaiser, F. Glenk, and B.J.M. Etzold, Chem. Eng. Sci. 69, 492-502.

18

Process specific catalyst supports – Selective electron beam melted cellular metal structures coated with microporous carbon , T. Knorr, P. Heinl, J. Schwerdtfeger, C. Körner, R.F. Singer, and B.J.M. Etzold, Chem. Eng. J. 181-182, 725-733.

17

Ultra-Low Concentration Monitoring of Catalytic Reactions in Photonic Crystal Fiber , A.M. Cubillas, M. Schmidt, M. Scharrer, T.G. Euser, B.J.M. Etzold, N. Taccardi, P. Wasserscheid, and P. St.J. Russell, Chem. Eur. J. 18, 1586-1590.

16

Fast production of monolithic carbide-derived carbons with secondary porosity produced by chlorination of carbides containing a free metal phase , M. Schmirler, T. Knorr, T. Fey, A. Lynen, P. Greil, and B.J.M. Etzold, Carbon 49, 4359-4367.

15

In-situ thermal activation of carbide-derived carbon , M. Schmirler, F. Glenk, and B.J.M. Etzold, Carbon 49, 3679-3686.

14

Covalent Incorporation of Aminated Nanodiamond into an Epoxy Polymer Network , V.N. Mochalin, I. Neitzel, B.J.M. Etzold, A. Peterson, G. Palmese, and Y. Gogotsi, ACS Nano 5, 7494-7502.

13

Analysis of evaporation and thermal decomposition of ionic liquids by thermogravimetrical analysis at ambient pressure and high vacuum , F. Heym, B.J.M. Etzold, C. Kern, and A. Jess, Green Chem. 13, 1453-1466.

12

Vapor Pressure of Water in Mixtures with Hydrophilic Ionic Liquids – A Contribution to the Design of Processes for Drying of Gases by Absorption in Ionic Liquids , F. Heym, J. Haber, W. Korth, B.J.M. Etzold, and A. Jess, Chem. Eng. Technol. 33, 1625-1634.

11

An improved method to measure the rate of vaporisation and thermal decomposition of high boiling organic and ionic liquids by thermogravimetrical analysis , F. Heym, B.J.M. Etzold, C. Kern, and A. Jess, Phys. Chem. Chem. Phys. 12, 12089-12100.

10

Synthese mikroporöser Kohlenstoffschäume für katalytische Anwendungen , F. Glenk, M. Schirmer, S. Gütlein, and B. Etzold, Chem. Ing. Tech. 82, 897-903.

09

Synthesis of microporous carbon foams as catalyst supports , F. Glenk, T. Knorr, M. Schirmer, S. Gütlein, and B. Etzold, Chem. Eng. Technol. 33, 698-703.

08

Chlorination of titanium carbide for the processing of nanoporous carbon: A kinetic study , P. Becker, F. Glenk, M. Kormann, N. Popovska, and B.J.M. Etzold, Chem. Eng. J. 159, 236–241.

07

Epimerisation of Menthol-Diastereomers: Kinetic Studies for the Heterogeneously Catalysed Menthol Production , B. Etzold, A. Jess, and M. Nobis, Catal. Today 140, 30- 36.

06

Kinetic study of the asymmetric hydrogenation of methyl acetoacetate in the presence of a ruthenium binaphthophosphepine complex , E. Öchsner, B. Etzold, K. Junge, M. Beller, and P. Wasserscheid, Adv. Synth. Catal. 351, 235-245.

05

Epimerisation of Menthol Stereoisomers Part 2: Improvement by the use of a continuous presaturated one liquid flow reactor , B. Etzold, and A. Jess, Chemistry Today 26, 13- 18.

04

Epimerisation of Menthol Stereoisomers Part 1: Studies on the Intrinsic Kinetics , B. Etzold, and A. Jess, Chemistry Today 26, 21-24.

03

“Heterogeneously Catalysed Epimerisation of Menthol Stereoisomers an Instructive Example to Account for Diffusion Limitations in Complex Reaction Networks” , B. Etzold, and A. Jess, Chem. Eng. Technol. 31, 1282-1289.

02

Solid catalyst with ionic liquid layer (SCILL) – a new concept to improve selectivity illustrated by hydrogenation of cyclooctadiene , U. Kernchen, B. Etzold, W. Korth, and A. Jess, Chem. Eng. Technol. 30, 985-994.

01

“Verbesserung der Selektivität fester Katalysatoren durch die Beschichtung mit ionischen Flüssigkeiten – Untersuchungen am Beispiel der Hydrierung von Cyclooctadien” , U. Kernchen, B. Etzold, W. Korth, and A. Jess, Chem. Ing. Tech. 79, 807-819.