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ALISE H2020 - GA n°666157
Dresden, University of Technology Chair of Inorganic Chemistry I
Prof. Dr. habil Stefan Kaskel
ALISE H2020 - GA n°666157
Organization – Department
• 2012: TU Dresden has succeeded in the Initiative for Excellence by the Federal Government
• 37,000 students
• 500 professors
• 4.300 publicly funded staff members
• 3.400 externally funded staff members
• Inorganic chemistry: New Infrastructure: 2010&2013
• Head of Department: Prof. Kaskel
three Areas:
Inorganic Materials Chemistry: Prof. Kaskel
• R&D in applied science
• Appr. 50 Employees
Solid State Chemistry: Prof. Ruck (basic)
Coordination Chemistry: Prof. Weigand (basic)
• Education of more than 2000 students / year
ALISE H2020 - GA n°666157
Competences – Equipment
Materials Chemistry Activities Dresden
Active material
Catalysts
• High temperature reactions
• Olefine production
Porous Materials
• Filter materials
• Gas separation
• Storage
ALISE H2020 - GA n°666157
Competences – Equipment
Materials Chemistry Activities Dresden
Nano-scaled materials
• Synthesis
• Electrospinning
• Thin film deposition
• Printing
Battery/Supercap materials
• Electrode materials
• Electrochemical testing
ALISE H2020 - GA n°666157
Competences – Equipment
Materials Chemistry Activities Dresden
Zeolites Metal-Organic
Frameworks
Silica
Carbons
5000 m2/g (0.3-3 nm)
1000 m2/g (3-10 nm)
500 m2/g (0.3-1 nm)
3000 m2/g (0.3-50 nm)
ALISE H2020 - GA n°666157
Competences – Equipment
Ordered meso-porous Carbons by hard templating / nanocasting
Mesoporous SiO2 SiC-Precursor/SBA-15 SiC/SBA-15 SiC
M. Oschatz, E. Kockrick, M. Rose, L. Borchardt et al., Carbon 2010, 48, 11 3987. P. Krawiec, E. Kockrick, L. Borchardt, D. Geiger, A. Corma, S. Kaskel, J Phys. Chem. C 2009, 113, 7755.
Sg: 2865 m2/g Vtotal: 1.84 cm3/g
SiC
OM-CDC
ALISE H2020 - GA n°666157
Competences – Equipment
Equipment • Equipment for synthesis / furnaces • nano imprinter • Dip / spin coater • plasma pen
• various physisorption methods • Infra-Sorb • XPert X-ray diffraction • Thermogravimetric analysis
(DTA/TG/DSC) • SEM / AFM • UV-Vis spectroscopy • IR spectroscopy • GC-MS, HPLC
http://www.quantachrome.de/mediadb/27316/27319/Webansicht%20Normal.jpg
http://www.lko.uni-erlangen.de/Media/Web-Bilder/bild-equipment/xrd-xpert.jpg
http://www.neoplas-tools.eu/images/kinpen%20med_geraet2.jpg
gesim-bioinstruments-microfluidics.com
http://www.netzsch-thermal-analysis.com/
ALISE H2020 - GA n°666157
Expected contributions to ALISE / links to other partners
T2.2.1 Lithium alternative (silicon-hard carbon composites) Cooperation with OXIS and POL
Si
Si + xLi
Lithiiation
V= 4 VSi
SEI
SEI
Si
template
Carbon layer
pyrolysis template removal
Si
0,0 0,2 0,4 0,6 0,8 1,00
20
40
60
80
100
120
140
SiHC
Si-NP bulk
ad
s. v
olu
men
/ c
m3
g-1
rel. Druck / p/p0
T2.3.1 From Powder to ink – Cooperation with OXIS and IWS
ALISE H2020 - GA n°666157
Expected contributions to ALISE / links to other partners
T3.1.3 Bimodal micro-macroporous carbon – precise control of porosity (cooperation with LEI, OXIS, POL, CTI, IWS)
Carbon/ S Composite
Carbon/ Li2S Composite
Charge
Discharge (+x Li) Sulfur
Infiltration
Carbon
0
500
1000
1500
2000
2500
3000
3500
4000
0 0,5 1
N2
ad
so
rb
ed
[cm
3/
g]
p/p0
p/p0 N
2 a
dso
rb
ed
[cm
3/
g]
SSA: 2700 m²/g SSA: 2400 m²/g
0
200
400
600
800
1000
1200
1400
1600
0 0,5 1
ALISE H2020 - GA n°666157
T3.2.4 Carbon surface modification by inorganic nanoparticle decoration (cooperation with LEI, CTI, POL) • Carbon surface modification by inorganic nanoparticle decoration • Metal oxide nanoparticles will be screened towards effect on sulphur
conversion • Composite materials will be synthesized, optimized and scaled
Expected contributions to ALISE / links to other partners
Inorganic nanoparticles
S8
Li2S
Enhanced conversion
New composite material providing enhanced sulfur utilization and reduced resistance
Li S
x e- x e-
ALISE H2020 - GA n°666157
Persons
Prof. Dr. Stefan Kaskel • Department leader • supervision of Master
and Ph. D. thesis
Christine Weller, B. Sc. • finishes Master
thesis porous carbons and electrolyte adaptation 09/2015
Susanne Dörfler, Ph. D. • leader of ESF junior
research group • supervision of
silicon-hard carbon composites activities
Anne Baasner, B. Sc. • Master thesis
silicon-hard carbon composites starting 09/2015