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Resent-From: <aspuru(a)chemistry.harvard.edu>
From: PSI-K <psik-coord(a)dl.ac.uk>
Date: October 17, 2011 10:40:03 PM EDT
To: PSI-K <psik-coord(a)dl.ac.uk>
Subject: [ PSI-K ] Ab-initio research staff positions at BOSCH Research - Energy Storage
and Conversion - Cambridge, MA
An announcement has been added in the
"PSI-K" site at PSI-K (
http://cselnx9.dl.ac.uk:8080/portal)
Subject: Ab-initio research staff positions at BOSCH Research - Energy Storage and
Conversion - Cambridge, MA
Category: Job
From: Boris Kozinsky
Date: 18-Oct-2011 03:39
Message:
Ab-initio research staff positions at Bosch Research
Energy Storage and Conversion
Bosch Research North America is hiring computational physicists and chemists in the field
of ab-initio modeling of materials for energy applications to join our Cambridge, MA
office located adjacent to the MIT campus. The candidate will become a member of the
global team that works to develop new first-principles atomistic simulation techniques,
and to apply and automate them to enable rational discovery and design of next-generation
materials. Our growing team consists of recent graduates from the top research groups in
US and was recently awarded several US DOE and NSF grants, to support experimental efforts
on energy applications, with strong focus on high technological impact. We are proud
sponsors of the MIT Energy Initiative and work closely with the leading and experimental
and theoretical groups at MIT, Stanford, Berkeley, LBNL, EPFL, ICAMS and leading
industrial partners. We strongly encourage high-impact publications and patent
applications. Research directions include:
· Fundamental investigations of thermal and electronic transport in thermoelectric
materials for waste heat recovery (in collaboration with MIT and Stanford)
· Redox reaction and electron transfer mechanisms and catalyst design for
electrochemical flow batteries to enable grid-scale energy storage to support intermittent
renewable energy sources (in collaboration with LBNL)
· Reaction mechanisms, chemical design and ab-initio spectroscopy of components
for reversible Li-air batteries to enable long-range electric vehicles
· Li-ion transport and stability optimization of electrodes and electrolytes,
towards designing higher-energy intercalation batteries (in collaboration with MIT)
· Optical spectra and excited state energy transfer in photovoltaic materials and
organo-metallic complexes for light upconversion (in collaboration with Stanford)
· Quantum-level electronic and optical effects in low-dimensional nanostructures
for sensor and energy applications
To apply send a CV to 61999-CS-1346(a)boschresearch.hrmdirect.com
For a small sample of our recent modeling work see:
1. J. Garg et al, “Role of Disorder and Anharmonicity in the Thermal
Conductivity of Silicon-Germanium Alloys: A First-Principles Study,” Phys. Rev. Lett, 106,
045901 (2011).
2. R. Armiento et al, “Screening for high-performance piezoelectrics using
high-throughput density functional theory,” Phys. Rev. B, 84, 014103 (2011)
3. R. Sanchez-Carrera and B. Kozinsky, “First-principles spectroscopic
characterization of rechargeable Li/O2 batteries”, 220th ECS Meeting (2011), online.
4. P.Albertus et al, “Identifying Capacity Limitations in the Li/Oxygen
Battery Using Experiments and Modeling”, J. Electrochem. Soc. 158, A343 (2011)
5. D. Wee, B. Kozinsky, N. Marzari, & M. Fornari, “Effects of filling in
CoSb3: Local structure, band gap, and phonons from first principles”, Phys. Rev. B, 81,
045204 (2010).
Attachments:
Bosch_research_ab-initio_2011.pdf
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