Assistant Professor of Engineering. Professor for Emerging TechnologiesSolid-state image sensors (CCDs, CMOS active pixel sensors, Quanta Image Sensors); advanced imaging systems; on-chip image processing; new applications for image sensorsMaterials science; modeling of microstructural evolution; deformation and fracture at high temperaturesProtein engineering; glycoprotein engineering; high cell density fermentation technology; metabolic engineering; protein expressionProtein engineering; directed evolution; biotherapeutics; applied biocatalysis; high throughput screeningBiomedical instrumentation; electrical impedance tomography and spectroscopy; medical imaging; tissue bioimpedance; cancer detection technologies; traumatic brain injury; medical roboticsSignal and image processing; digital system design; opticsBiomedical engineering; medical imaging; electrical impedance tomography; image-guided surgery; cryosurgery; ultrasound; multi-modality imagingEnvironmental impacts of fossil energy utilization with emphasis on mercury; particulate matter; air pollution control; CO2 capture; combustion-derived pollutionOptical spectroscopy and imaging systems for biomedical applicationsDesign thinking; human-centered design; creative confidence; hands-on learningBiomass conversion; sustainable energy and development; process design and evaluation; integrated food and energy systems; life cycle assessmentProcess optimization; designed experiments; statistical analysis; electronic assembly; Lean Six Sigma; electronic and optoelectronic packaging; materials science; environmental compliance for electronics; electronic assembly with lead-free soldersRalph and Marjorie Crump Assistant Professor of EngineeringAntibody repertoire profiling; systems immunology; protein engineering; vaccine designsMicrofabrication technology; micro-optical systems and binary optics; micromechanical and electromechanical systems (MEMS); microroboticsWilliam P. Harris Career Development Assistant Professor of EngineeringEnergy materials; functional nanomaterials design and synthesis; structure-property correlations; electrochemical engineering; energy storage and conversion devices; batteries, fuel cells, and clean/renewable energy; electrocatalysisMultiscale modeling; fracture/fatigue analysis; process-microstructure-property-performance relation; data-driven material designOptoelectronic materials and devices; integrated nanophotonics for energy-efficient Information Technologies (Green IT); Nanomaterials and nanostructures for solar cells and thermophotovoltaic cells; Infrared and ultraviolet optical sensorsUltrasound imaging; photoacoustic imaging; bionanotechnology; cancer diagnostics and therapy; molecular imagingPaul E. and Joan H. Queneau Distinguished Professor of EngineeringMicrobial cellulose utilization; metabolic engineering; innovative biomass processing technologies; sustainable bioenergy futuresEngineering education; inquiry-based learning; student-centered learning; K-12 and outreach activities; creativity; seismic engineeringNumerical methods; inverse problems; elastography; soft tissue imagingMicrowave imaging ultrasound computed tomography for biomedical applications; microwave antenna design; thermal modeling and system design for focused ultrasound surgery applicationsFluid dynamics; snow and ice mechanics; glaciology; icy satellites; applied mathematicsCharles H. Gaut & Charles A. Norberg Assistant Professor of EngineeringHuman-centered design, human-computer interaction, ubiquitous computing, personal informatics, social computingElectrical impedance tomography; data fusion; finite element method (FEM) modeling; noise/data filtering; general numerical methods; magnetic resonance electrical property tomography; electroencephalogram (EEG) source localizationAnalog integrated circuits; low power sensor interfaces; nonlinear signal processingMetabolic engineering; cellulosic biofuel; metabolic flux analysis; genome resequencing analysisData analytics; platform economics & strategy; intellectual property; core operations; product innovation & development; outsourcing & supply chain strategy; energy economics, policy, strategy, innovation, market structure & performanceRobert A. Pritzker Professor of Biomedical EngineeringBiomedical engineering; numerical methods in electromagnetics; cancer therapeutics; medical imaging methodologies; bioelectromagneticsSea ice geophysics; the interaction of sunlight with ice and snow; the Arctic system and climate changeSystem identification; iterative learning control; model predictive control; control of robotic swarms; intelligent control; adaptive controlOptics in medicine, biomedical imaging to guide cancer therapy; molecular guided surgery; dose imaging in radiation therapy; Cherenkov light imaging; image guided spectroscopy of cancer; photodynamic therapy; modeling of tumor pathophysiology and contrastSystem dynamics and controls; robotics; signal processing; machine intelligenceProduct design; human-centered design; cognitive strategies and methodologies for creative design practiceQuantitative fluorescence molecular imaging; fluorescence guided surgery; biomedical systems engineering; biological models of cancer; cancer diagnostics and therapeutic monitoring; optics in medicine; photodynamic therapyNonlinear decision-making; innovative reasoning; emergent behavior; probabilistic reasoning; adversarial modeling; intent inferencing; user modeling; information retrieval; evolutionary computation; socio-cultural modeling; intelligent systems; artificial intelligenceAnalog synthetic biology; biological and bio-inspired super-computing chip design; quantum circuit design, quantum computation, and hybrid quantum-classical computation; feedback control systems; medical devices; ultra-low-power, fault tolerant, and ultra-energy-efficient systems; engineering systems that operate at the fundamental limits of physics3D nanomanufacturing; low-power sensors; flexible and wearable electronics; energy harvesting; wireless devicesGeorge Austin Colligan Distinguished Professor of EngineeringFlow and fracture of ice; mechanical behavior of metals and alloys; physical metallurgy and materials scienceHF radar development; ionospheric plasma convection and physics; solar wind, magnetosphere, ionosphere coupling; space weather and climatologyNumerical methods in computational electromagnetics; electromagnetic sensing methodologies; detection and discrimination of sub-surface objects; linear and non-linear inverse-scattering; induced geo-electromagnetic fields; micro strip antennas; photonic band gaps; near field optics; DNA sequencing; electrostatic discharge; magnetic nano-particles hyperthermia for cancer treatment and imagingHigh-frequency and chip-scale power electronics; photovoltaic and electrochemical system management; sensor interfaces and energy scavenging; integrated circuit design (analog/mixed signal, RF, power, and embedded applications); communications electronics; technology entrepreneurshipPower electronics; electromagnetic design of power electronics components; micro-fabricated magnetic components; nanocomposite magnetic materials; energy efficiency and renewable energyInformation operations, distributed computing and systems, computer and network security, embedded systems, surveillance technologiesTherapeutic heating of tissue; dielectric properties of tissue; biomedical engineering; antenna theoryMusculoskeletal Research, including: orthopaedic failure analysis and design; wear of polymers; polymer processing; biomaterials; biomechanics; implantable and wearable technology; surgical device designStata Family Career Development Associate Professor of EngineeringLogistics and transportation; aviation; healthcare analytics; healthcare systems modeling; building energy analytics; systems optimization; game theory; data-driven and statistical modelingMiniature imaging and biosensing systems; bio-inspired nanomaterials; lab-on-chip design; advanced nanofabrication technologies; multi-scale modeling of fundamental force, flow, and energy processes in biological interactions This list of Dartmouth College faculty includes current and former instructors and administrators of Dartmouth College, an Ivy League university located in Hanover, New Hampshire, United States.It includes faculty at its related graduate schools and programs, including the Tuck School of Business, the Thayer School of Engineering, and Dartmouth Medical School. dartmouth office We are situated in the heart of Dartmouth adjacent to the historical Butterwalk building on Duke Street. Optical spectroscopy and imaging systems for biomedical applications. Professor of Engineering. Benefiting from a dedicated sales team of Julia & Ed as well as our friendly lettings staff, Lynette & Jane. Environmental impacts of fossil energy utilization with emphasis on mercury; particulate matter; air pollution control; CO2 capture; combustion-derived pollution. Take the steep hill up to Crowthers Hill where the property will be found almost at the top on the right hand side.

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