A capstone design course where students apply engineering and science knowledge in a chemical and biological engineering design project. Development, design and management of a project in teams under realistic constraints and conditions. Emphasis on communication, teamwork and presentation skills.

Classical thermodynamics: enthalpy, entropy, free energies, equilibria; introduction to statistical thermodynamics to describe the properties of materials; kinetic processes; diffusion of mass, heat, energy; fundamentals of rate processes in materials, kinetics of transformations.

Crude oil and biomass refining technologies. Fractionation, catalytic- and thermo- cracking, gasoline and diesel upgrading and other side processes in crude oil refining; gasification, pyrolysis, transesterification and condensation processes in biomass refining; economical and environmental factors in refining.

Modeling concepts and tools for chemical and biological systems. Steady state and transient modeling and simulation. MATLAB based case studies. Selected topics from the curriculum such as reaction stoichiometry, kinetics modeling, reactors, equation of state, phase equilibria, staged operations, fluxes, diffusion and convection, parameter estimation.

Topics will be announced when offered.

Topics will be announced when offered.

Topics will be announced when offered.

The fundamentals of tissue engineering at the molecular and cellular level; techniques in tissue engineering; problems and solution in tissue engineering; transplantation of tissues in biomedicine using sophisticated equipments and materials; investigation of methods for the preparation of component of cell, effect of growth factors on tissues.

Atomic structure, chemical bonds, compounds, solutions, stoichiometry. Electrochemistry, thermodynamics, kinetics, acids and bases, basic organic chemistry.

Atomic and molecular structure, spectroscopy, stoichiometry, chemical thermodynamics, electrochemistry, structure and properties of materials.

Atomic and molecular structure, spectroscopy, stoichiometry, chemical thermodynamics, electrochemistry, structure and properties of materials.

Atomic and molecular structure, spectroscopy, stoichiometry, chemical thermodynamics, electrochemistry, structure and properties of materials.

Basic principles and units of measurement, S.I. unit for chemical quantity, units of concentration, gravimetric methods of analysis, volumetric methods, titration of polyprotic acid and bases, complexation and pricipitation titrations, elements of electrochemistry, oxidation-reduction titration, electrolysis, potentiometry, conductomery, introduction to analytical separations: column chromatography. Thin layer chromatography, analysis of chromatograms, high performance ion-exchange chromatography.

Bonding, molecular shapes and stereochemistry in organic compounds. Functional groups, reactivity and mechanisms of basic organic reactions, such as nucleophilic and electrophilic substitution, elimination and addition. Principles of organic synthesis, critical reaction parameters and their optimization. Carbonyl compounds, amines, phenols and their reactions. Synthetic polymers and their applications.

Bonding, molecular shapes and stereochemistry in organic compounds. Functional groups, reactivity and mechanisms of basic organic reactions, such as nucleophilic and electrophilic substitution, elimination and addition. Principles of organic synthesis, critical reaction parameters and their optimization. Carbonyl compounds, amines, phenols and their reactions. Synthetic polymers and their applications.

Properties of perfect and real gases, the first and second laws of thermodynamics, entropy, free energy, physical transformations of pure materials and simple mixtures, the phase rule and phase diagrams, chemical equilibrium. Lab component.

Quantum mechanics, solution of the particle-in-a-box, harmonic oscillator and hydrogen atom; orbital concepts, the structure of many-electron atoms, molecular orbital theory, molecular symmetry and group theory; rotational, vibrational and electronic spectroscopy.

Microscopy methods and application development for health sciences, optics for advanced image acquisition methods, live-cell imaging, fluorescence, confocal and two-photon microscopy, introduction to optogenetics and neuroimaging applications, optical spectroscopy, fluorescence resonance energy transfer (FRET) methods and biosensors, single molecule imaging, sub-diffraction limit high resolution imaging, Brownian motion, diffusion and transport mechanism, image and video analysis methods in biology, image processing algorithms, principal component analysis and statistics for systems biology.

Fundamental physico-chemical concepts of polymeric systems in bulk, in solutions and at surfaces. The interactions of polymers in bulk; thermal and structural properties; thermodynamics of polymer solutions in different concentration regimes; polymer adsorption at surfaces; functional polymer thin films/coatings; self-assembly of block copolymers; experimental methods to characterize physicochemical properties, structure and morphology of polymers. Emphasis on recent research results and applications.

Seminar series in selected topics in Chemistry. In addition to invited speakers, each student will also give a seminar on a selected contemporary topic. Special emphasis will be given to active participation to discussions.

Kalp ve damar sisteminin anatomi ve histolojisi, kalp kası kasılmasının fizyolojisi, damar sisteminin sıvı mekaniği, kana akımı ve kan basıncının yerel ve merkezi kontrolü, toraks, akciğerler ve üst solunum yollarının anatomi ve histolojisi, solumun mekaniği, akciğerlerde havalanma ve kan akımı, solunumun merkezi kontrolü, dolaşım ve solunuma ilişkin elektrik, mekanik, hidrolik ve ısı sistemleri, disseksiyon, model inceleme ve interaktif yazılımlar aracılığıyla bu sistemlerin yapı ve fonksiyonlarının araştırılması.

Importance of strategy and strategic management in today?s competitive environment. Analysis, decision and implementation steps in strategic management. Types of external and internal analysis. Corporate and business strategy. Competency based approach in the formulation of strategy. Successful implementation of strategy and organizing the firm for superior performance.

Responsible leadership considering a wide range of stakeholders. Panel discussions on different sectors. Examining global leadership in relation to people, profit, and planet. Case studies on responsible leadership in global organisations.