Industrial Partnership for Research in Interfacial and
Transcription
Industrial Partnership for Research in Interfacial and
IPrime Industrial Partnership for Research in Interfacial and Materials Engineering IPRIME Industrial Partnership for Research in Interfacial and Materials Engineering IPrime Industrial Partnership for Research in Interfacial and Materials Engineering IPRIME History • CIE (Center for Interfacial Engineering) – Funded by NSF from 1988 to 1999 – Industrial outreach • Ongoing industrial interest justified new organization • IPrime (Industrial Partnership for Interfacial and Materials Engineering) – Legacy organization from CIE IPrime Industrial Partnership for Research in Interfacial and Materials Engineering IPrime is • A University−Industry Partnership based on Two-Way Knowledge Exchange Highly Interdisciplinary (44 faculty in 9 departments) – – – – – – – – – Biochemistry, Molecular Biology and Biophysics Bioproducts and Biosystems Engineering Chemical Engineering and Materials Science Chemistry Physics Mechanical Engineering Biomedical Engineering Electrical and Computer Engineering Pharmaceutics “Knowledge is one. Its division into subjects is a concession to human weakness.” - Halford Mackinder • Curiosity-Driven Research is Pre-Competitive and Non-Proprietary • Focus on fundamental science that underlie industrial products and processes • 7 Interdisciplinary Research Programs IPrime Industrial Partnership for Research in Interfacial and Materials Engineering 7 Research Programs • Biocatalysis and Biotechnology (BB) • Biomaterials and Pharmaceutical Materials (BPM) • Coating Process Fundamentals (CPF) • Electronic Materials and Devices (EMD) • Flexible Electronics and Photovoltaics (FEP) • Microstructured Polymers (MP) • Nanostructural Materials and Processes (NMP) IPrime Industrial Partnership for Research in Interfacial and Materials Engineering Members over the Globe Europe France (1) Total Germany (3) BASF, Henkel, Evonik Japan (5) Japan (5) Asahi Dai Nippon Printing INOAC Nitto Toray Johannesburg, South Africa (1) Sappi Saudi Arabia (1) SABIC IPrime Industrial Partnership for Research in Interfacial and Materials Engineering IPrime Member Companies Teknapack, Inc. IPrime Industrial Partnership for Research in Interfacial and Materials Engineering Industrial Support Contributions over $1,500,000 per year from 40+ companies • Sponsor Membership ($50,000 per year) - Participation in up to 4 research programs - Opportunity to utilize Industrial Fellow Program - Representative on the Policy and Planning Board (PPB) • Affiliate Membership ($40,000 per year) - Participation in one 1 research program, no Industrial Fellow • Small company option - $7,500 minimum or - 0.03% of sales per year, up to $40,000 IPrime Industrial Partnership for Research in Interfacial and Materials Engineering Why IPrime? Partnership Future employees Facilities Technology Transfer IPrime Industrial Partnership for Research in Interfacial and Materials Engineering Partnership Companies Faculty & Students • Scientific exchange with academic sector • Ready source of “hard problems” • Influence research directions • Funding support • Leverage government funding (NSF, NIH, DOE) • Portal/referral to other U resources/capabilities • Industrial Fellows • Technology implementation • Fosters faculty interactions • Industrial Fellows IPrime Industrial Fellows (9) Companypany Name Research Faculty Asahi Kasei Ryo Katayama Start date: 5/11/2015 Lorraine Francis Boston Scientific Ed Kopesky Characterizing the Semi-Crystalline Morphology and Thermomechanical Properties of Biaxially Oriented Poly(LLactide) Chris Macosko Cabot Arthur Scholz Development of AFM techniques for studying interactions between polymers nanoparticles Cabot Limeng Chen Investigation of the destruction and recovery of conductive particle network in polycarbonate under shear deformation Chris Macosko Dai Nippon TBD (6/1/2015) TBD (6/1/2015) Lorraine Francis Ecolab David Castro Microrheology to explore polymer structural effects on viscosity development Lorraine Francis INOAC Yoshihisa Takamori Controlling the morphology of cocontinuous porous polymer sheets Chris Macosko Nitto Koki Tomioka Numerical simulation of viscoelastic flows in a film forming process Satish Kumar Upsher-Smith Dave DeGrio Evaluation of 3D printing for the pharmaceutical industry Lorraine Francis Toray Yu Abe An Analysis of the Drying State in Multi-layer Coating Lorraine Francis Valspar TBD TBD Lorraine Francis Greg Haugstad IPrime Industrial Partnership for Research in Interfacial and Materials Engineering Future Employees Companies Faculty & Students • Early access to PhD students • Early student access to employers • Most graduates work at IPrime companies • Learn industrial research process and interactions • Hone communication skills • Resumes distributed Annual Meeting Poster Session IPrime Industrial Partnership for Research in Interfacial and Materials Engineering Supporting Facilities Companies Faculty and Students • CharFac* • In-kind equipment contributions (training + analysis) • Imaging Center* • Industrial utilization of facilities • Polymer Characterization Facility* (rheology) • Polymer Synthesis • Coating Process and Visualization Lab • Tissue Mechanics* *Discount for IPrime members University of Minnesota Characterization Facility • ~$18 million of equipment (replacement value): Electron microscopy (TEM/SEM/analytical/cryo) X-ray scattering (wide and small angle) Proximal probes (AFM/profilometry/nanoindent.) Surface analytical (XPS/Auger/contact angle) Chemical spectroscopy (Raman/FTIR/+3D) Thin film analysis (RBS & related, ellipsometry) • 13 experts, analytical methods & sample prep • ~600 research users/yr, ~100 external • 130 faculty users from ~35 UMN departments/units • >250 students/yr, for-credit classes & short courses • 40-50 companies and 20-25 external academic institutions per yr Hard/soft materials, liquids, biological Expert analytical services Custom methods Industry collaborations Workshops and short courses Greg Haugstad, Director www.charfac.umn.edu CharFac Instrumentation Scanning and Transmission Electron Microscopes (10) • JEOL 6500 FE-SEM (BS, EDS, EBSD, cathodolum.) • JEOL 6700 FE-SEM (high-res.) • Hitachi S-900 FE-SEM (cryo, in-lens high-res., BS) • Hitachi S-4700 FE-SEM (cryo, BS) • JEOL 1200 TEM (bio) • FEI Tecnai G2 Spirit Bio-Twin (cryo/bio) • FEI T12 TEM (EDS) • FEI Tecnai G2 F30 FEG-TEM (EF-TEM, cryo/bio, 2-axis tilt for tomog.) • FEI Tecnai G2 F30 and Titan aberration-corrected FEG-TEMs (EDX, EELS, STEM, HAADF,...) • Two full suites of specimen prep tools (SEM/TEM) for hard and soft materials, biological; two cryomicrotomes Proximal probes: AFM, nanoindentors & related (10) • Two Bruker Nanoscope V Multimode 8’s (PeakForce QNM, EFM, MFM, KPFM, FMM, force volume), nPoint closed loop scanner • Two Agilent 5500’s; closed loop scanner; inverted light microscope; T, RH control, easy liquid cell; multifrequency • Digital pulsed force mode add-on , LabView and custom methods developed in-house: setpoint ramping, shear modulation • Hysitron Triboindentor + new transducer, Picoindentor (inside TEM to view deformation/fracture), Triboscope • Agilent Nanoindentor XP (oscillatory loading, storage/loss) • Custom-built micromechanical tester (MMT) • Tencor stylus profilometer (up to 14’’ wide, 2” thick samples) Visible light analysis & imaging • Woollam Spectroscopic Ellipsometer (film thickness and optical constant characterization over λ=200-1100 nm) Nikon light microscope - bright/dark field, polarization, phase, • fluorescence, differential interference contrast (DIC) X-ray Diffraction & Scattering (11) • Bruker AXS (Siemens) D5005 XRD • Siemens D500 X-Ray XRD (multi-sample changer) • Scintag XDS 2000 Theta-Theta XRD; broad temp. control • Bruker AXS microdiffractometer with 2D detector • Pananalytical X’pert Pro high-angular resolution XRD • Bruker D8 Advance XRD with temperature and humidity control • Bruker D8 Discover 2D microdiffractometer • Laue diffractometer (crystal orientation) • 2D SAXS, 2 meter line • 2D SAXS, 6 meter line; in-line DSC, rheometer, mechanical strain, temp. stage • SAXSess (wide- and small-angle scattering) Ion Beam Analysis (elemental composition, depth profiles) • Rutherford backscattering (RBS); FReS, PIXE/PIGE, NRA • NEC 5.1 MeV accelerator, He+, He++ and H+ beams • Goniometer for channeling Surface analytical (elemental, chemical) & depth profiles • X-ray photoelecton spectrometers (XPS/ESCA), monochromated/small spot/angle resolved (SSI) • Auger spectroscopy (AES; scanning and depth profiling) • Micro contact angle system Vibrational spectroscopy (chemical, 3D imaging) • Nicolet FTIR spectrometer (DTGS and MCT detectors), Transm., Refl., ATR, DRIFTS; FTIR microscope • Witec confocal Raman spectrometer/microscope (514-nm and 752-nm lasers); full spectroscopic imaging in XY and XZ (not shown: ~30 ancillaries & specimen prep tools) Details at www.charfac.umn.edu/instruments CharFac Technical Staff (10 FTE) Oversee instruments, develop capabilities, and provide expert analytical services, training/assistance, and consultation. Electron microscopy X-ray scattering Proximal probes Vibrational spectros. Surface Analytical Thin film analysis Chris Frethem SEM (cryo and bio emphasis) Dr. Bob Hafner High-contrast and cryo TEM (bio, polymers) Dr. Greg Haugstad SPM/AFM, Ion beam analysis (RBS, PIXE, FReS & related) Dr. Bing Luo Confocal Raman/FTIR, XPS/Auger Dr. Klaus Wormuth XRD, micro-contact angle, confocal Raman/FTIR, ellipsometry Dr. Jason Myers FEG-TEM (HR/STEM/EDS/EELS), FIB Dr. John Nelson Nano/micro-mechanical, profilometry Alice Ressler Basic TEM, Bio EM specimen prep, (cryo)microtomy Linda Sauer XRD / SAXS Dr. Nick Seaton Materials SEM, EDS/EBSD/cathodoluminescence Dr. Jake Warner SAXS, SPM/AFM, cryo-SEM Dr. Wei Zhang Cryo FEG-TEM, 3D reconstruction, tomography Fang Zhou Bio EM specimen prep, TEM (bio), (cryo)microtomy students Contact Information atellipsometry www.charfac.umn.edu/staff Training in FTIR, IPrime Industrial Partnership for Research in Interfacial and Materials Engineering Technology Transfer Annual Meeting*(May 26 – 28, 2015) o o o o o Workshops Program Reviews Two-Night Poster Session Plenary Luncheon TAC & PPB Meetings *Free to members Mid-Year Workshops* o Medical Coatings (BPM, CPF & MP) Jan 13, 2015 o 2D Materials (EMD, OEI & REM) Jan 14, 2015 o Nanoparticle Safety (NMP) Jan 15, 2015 Website with members-only features* o Webcasts, Research Information, Exclusive Presentations Short Courses (member discounts) o Coating Process Fundamentals (May 19-21, 2015) o Rheological Measurements (June 2016) Industrial Fellows (non-proprietary) & Special Projects (proprietary research) IPrime Member Events & Resources o Sampling of events shown. Full details and offerings at www.iprime.umn.edu 2014 2015 Annual Meeting Annual Meeting Workshops Save the Dates! May 26 through 28, 2015 • Synthetic Biology and Bioprocessing (BB) Annual Meeting Workshops • Microneedle Based Delivery of Therapeutics (BPM) • Influence of Liquid Structure and Rheology Coating Flows • Low Density Polymer Materials • Coating and Printing with Inks, Paints and Particulate • Decellularization/Recellularization of Organs and Tissues • Developments in scanning probe microscopy and related methods • Bioprocessing • Realizing the Commercialization of Organic and Flexible Electronics • Modern Polymer Characterization Methods (MP) Suspensions (CPF) Mid-Year Workshops January 13-15, 2015 • Materials and Processes for Printed Electronics (OEI) • Characterization Facility Demos on Coatings & Polymer Nanocomposites Mid-Year Workshops (January) 3D Printing and Additive Manufacturing Coatings for Biomedical Devices Properties and Applications of Two-Dimensional Materials Nanoparticles-Chemical and Materials Questions: Health and Environmental Concerns Future Trends in Microscopy Amorphous Materials: Theory and Practice in Pharmaceuticals and Devices Short Courses Short Courses • Interfacial Rheology (NMP) Coating Process Fundamentals Short Course (May 19-21, 2015) • Coatings Process Fundamentals Short Course (May 20-22) • Rheological Measurements Short Course (June 8-13) UNIVERSITY OF MINNESOTA IPrime Industrial Partnership for Research in Interfacial and Materials Engineering www.iprime.umn.edu IPrime Industrial Partnership for Research in Interfacial and Materials Engineering 7 Research Programs • Biocatalysis and Biotechnology (BB) • Biomaterials and Pharmaceutical Materials (BPM) • Coating Process Fundamentals (CPF) • Electronic Materials and Devices (EMD) • Flexible Electronics and Photovoltaics (FEP) • Microstructured Polymers (MP) - MRSEC • Nanostructural Materials and Processes (NMP) Biocatalysis and Biotechnology Program - BB Investigator Department Expertise Ping Wang* Bioprod/Biosys Eng Enzyme engineering and nanotechnology, membrane and interfacial catalysis, bioactive materials and coatings, CO2 conversion to methanol, biofuel cells, biosensors Mark D. Distefano Chem/Med Chem Organic and biochem., Protein conjugates for therapeutic and biotechnology applications Romas Kazlauskas Biochem Biocatalytic synthesis of chemical intermediates and biofuels. Enzymes modification for new reactions Lawrence P. Wackett Biochem Kechun Zhang CEMS Aditya Bhan CEMS Microbial catabolic enzymology, functional genomics, enzyme development for bioremediation and bioenergy Synthetic biology, metabolic engineering, protein engineering, biofuels, renewable chemicals Catalysis, biofuels, biomass conversion and photocatalysis Applications: Fine and specialty chemical production; Biofuels and biosensors; Bioremediation; Bioactive compounds; Enzyme Evolution, Biodegradable polymers and biocoatings, Pathway engineering *Program Director Biomaterials and Pharmaceutical Materials - BPM Investigator Ron Siegel* Department Pharm/BME Efie Kokkoli Jayanth Panyam Changquan Calvin Sun Raj Suryanarayanan CEMS Pharmaceutics Pharmaceutics Pharmaceutics Bob Tranquillo BME/CEMS Chun Wang BME Wei Shen BME Expertise Drug/hormone delivery, biosensing, hydrogels, microfabrication, drug/coating dynamics Bioadhesion and drug targeting Nanoparticulate therapeutic delivery Crystal and granular properties of solid drugs Solid state properties of drugs, stability of drug/biomaterial formulations Fabrication/characterization of bioartificial artery, cardiovascular valve, myocardial patch Biomaterial/tissue interactions, gene delivery, immunotherapy Bioactive materials • Composition-structure-functional property relationships and microstructural mechanical models of native and bioartificial tissues • Cell-based fabrication of bioartificial tissues • Novel tissue mechanical testing and analysis methods • Biomaterials for drug delivery and tissue engineering *Program Director Coating Process Fundamentals—CPF Investigator Expertise Lorraine F. Francis* Solidification, stress development, microstructure, properties Satish Kumar* Transport processes, interfacial phenomena, microfluidics Marcio S. Carvalho* Fluid mechanics, rheology, numerical methods Alon V. McCormick Curing, thermodynamics & kinetics, NMR, stress development Chris Macosko Rheology, polymer processing David Norris Nanomaterials, photonics, colloids Wieslaw Suszynski** Coating process experiments, apparatus, flow visualization Michael Tsapatsis Zeolite coatings, separations *Pontifica Universidade Catolica, Rio de Janeiro **Research Engineer and Laboratory Coordinator *Program Directors Electronic Materials and Devices (EMD) Investigator Department Expertise Steven Koester* ECE (program leader) Electronic devices, semiconductors Chris Leighton CEMS Electronic/magnetic properties, film/layer growth Paul Crowell Physics Magnetism, transport, ultra-fast spectroscopy Bharat Jalan CEMS Complex oxides, molecular beam epitaxy Dan Frisbie CEMS Organic electronics, electrolyte gating Renata Wentzcovitch CEMS Electronic structure theory Stephen Campbell ECE Device fabrication and characterization; ALD Eray Aydil CEMS Solar cells, batteries, and photovoltaics Uwe Kortshagen CEMS Si nanoparticle based solar cells and thermoelectrics Associated Investigators Andre Mkhoyan (CEMS), Russ Holmes (CEMS) Synthesis, structural and chemical characterization of materials relevant for a wide range of electronic, optical and magnetic devices. Particular emphasis is placed on the understanding of the fundamentals of electronic structure and transport in electronic and magnetic materials, in addition to the materials science, physics and chemistry of the interfaces and nanostructures that play a vital role in device operation. Flexible Electronics and Photovoltaics (FEP) Investigator Department Expertise Russell Holmes* CEMS OLEDs, Solar cells, Thin film growth David Blank CHEM Ultrafast optical spectroscopy Jean-Luc Brédas CHEM (GA Tech) Computational quantum chemistry Chris Douglas CHEM Organic synthesis C. Daniel Frisbie CEMS Organic electronics, OFETs, AFM Paul Ruden ECE Device modeling Organic synthesis, thin film growth and characterization, spectroscopy, devices, electronic structure theory & modeling *Program Director Microstructured Polymers - MP Investigator Department Expertise Frank S. Bates * CEMS Thermodynamics, scattering, synthesis Marc A. Hillmyer CHEM Polymer synthesis and characterization (Director: Polymer Synthesis Facility) Timothy P. Lodge CHEM/CEMS Polymer dynamics, solutions, scattering Chris Macosko CEMS Rheology, processing David C. Morse CEMS Theory and modeling Theresa Reineke CHEM Biomedicine, Diagnostics, Targeted Delivery Synthesis, characterization, dynamics, processing, properties, and theory *Program Director Nanostructural Materials & Processes—NMP Investigator Alon McCormick* Dept CEMS Expertise Reaction Engineering of Materials Synthesis; Spectroscopy; Molecular Simulation C. Daniel Frisbie CEMS Molecular Materials and Interfaces; Molecular Electronics Wayne Gladfelter CHEM Materials Chemistry; Inorganic Chemistry; Scanning Probe Microscopy Greg Haugstad CHAR FAC AFM Scanning Probe Microscopy (Director, Characterization Facility) R. Lee Penn CEMS Environmental Solid State Chemistry Andreas Stein CHEM Solid State Chemistry of Porous Materials Michael Tsapatsis CEMS Materials Synthesis, Structure Elucidation and Modification Joe Zasadzinski CEMS Molecular Fluids, Optical/Electron/Scanning Probe Microscopy Associated Investigators: Frank Bates – Lorraine Francis – Bill Gerberich – David Norris – Wei Zhang Synthesis, phase behavior, structure, and performance of surfactants and self-assembled molecular and colloid systems * Program Director