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Learn the underlying engineering principles used to detect small molecules, DNA, proteins, and cells in the context of applications in diagnostic testing, pharmaceutical research, and environmental monitoring. Biosensor approaches including electrochemistry, fluorescence, acoustics, and optics will be taught. The course also teaches aspects of selective surface chemistry, including methods for biomolecule attachment to transducer surfaces. Students will learn how biosensor performance is …

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Mohsen Saeidi onto Biology

Physical concepts governing the structure and function of biological macromolecules; general properties, spatial structure, energy levels, dynamics and functions, and relation to other complex physical systems such as glasses; recent research in biomolecular physics; physical techniques and concepts from theoretical physics emphasized. Designed for students without appreciable background in biology and chemistry.

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Mohsen Saeidi onto Biology

Interesting classes and courses

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Mohsen Saeidi onto Biology

BioNanotechnology and Nanomedicine: Applications in Cancer and Mechanobiology will provide an introduction to basic concepts of nanotechnology in mechanobiology and in cancer. This is a highly interdisciplinary field of research where knowledge from various disciplines will be presented and integrated. The course will be team taught by faculty from Engineering and LAS. There will be 4 main sections of the course; (i) introduction to nanotechnology and nanomedicine, (ii) biological concepts and …

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Mohsen Saeidi onto Biology

Not important

 

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Profile picture of Mohsen Saeidi

Mohsen Saeidi onto Biology

This course will cover the basic concepts of design of integrated nanomedical systems for diagnostics and therapeutics. Topics to be covered include: why nanomedical approaches are needed, cell targeting strategies, choice of core nanomaterials, technologies for testing composition and structure of multilayered nanomedical systems, optimizing zeta potentials, design and testing of cell and intracellular targeting systems, in-vivo issues, drug delivery and proper dosing, assessing efficacy of drug/gene delivery, nanotoxicity, animal testing, and regulatory issues.

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Mohsen Saeidi onto Biology

not really important

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Profile picture of Mohsen Saeidi

Mohsen Saeidi onto Biology

Nanodevice design through organization of functional biological components; bio-molecular function and bioconjugation techniques in nanotechnology; modulation of biological systems using nanotechnology; issues related to applying biological nanotechnology in food energy, health, and the environment.

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Mohsen Saeidi onto Biology

The design principles underlying mechanisms of cellular and biomolecular functions such as cell architecture, energy storage and conversion, sensing and signaling, communication, time keeping,…

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Mohsen Saeidi onto Biology

           In this lecture, we begin discussing the three types of electrochemical sensors: Potentiometric, Amperometric, and Conductometry. The focus of the lecture is the potentiometric and how it is used to measure the potential difference between two electrodes. This is used for sensing ions and helps with determining experimental EMF of the ions. Two types of potentiometric systems were shown. The first one had two electrodes set and …

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Mohsen Saeidi onto Biology

Major concepts of physics inherent to biological systems. Basics of biology, including protein and DNA structure and their organization into cells with a focus on single molecule biophysics. Major experimental techniques including x-ray diffraction, optical and magnetic traps, and fluorescence microscopy, including new super-resolution techniques. Applications to cytoplasmic and nuclear molecular motors, bacterial motion, nerves, and vision.

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Mohsen Saeidi onto Biology

Here, the operating principles of TFETs will be discussed in detail and experimental realizations as well as simulation results will be presented. In particular, the role of the injecting source contact will be elaborated on.

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Daniel Nagy onto TFET

Scaling of CMOS devices into the nanometer regime leads to increased processing cost. In this regard, the field of Computational Electronics is becoming more and more important because device simulation offers unique possibility to test hypothetical devices which have not been fabricated yet and it also gives unique insight into the device behavior by allowing the observation of phenomena that can not be measured on real devices. The objective of this class is to introduce the students to all semi-classical semiconductor device modeling techniques that are implemented in either commercial or publicly available software. As such, it should help students to understand when one can use drift-diffusion model and when it is necessary to use hydrodynamic, lattice heating, and even particle-based simulations. A short tutorial on using the Silvaco/PADRE simulation software is included and its purpose is to make users familiar with the syntax used in almost all commercial device simulation software.

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Sugeet Sunder onto solar

Carbon Nanotube Worksheet

This worksheet has students describe the geometries and conductivity type of several different carbon nanotubes of differing chirality.  CNT Bands can be used to simulate the structures and check the results.

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Deposition Processes Overview for Microsystems

Background material on oxidation of Silicon is in the Science of Thin Films section.

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Tanya Faltens onto Simulation-based Oxidation Lesson

Process Lab: Oxidation

Oxidation Simulation Tool

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Tanya Faltens onto Simulation-based Oxidation Lesson

Oxidation Worksheet

This worksheet leads students through an exploration of the effects of time, temperature, substrate orientation and oxidant on the oxidation of silicon.

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Tanya Faltens onto Simulation-based Oxidation Lesson

This lecture quickly summarizes some important semiconductor fundamentals. For those acquainted with semiconductors, it may be useful as a brief refresher. For those just getting started with semiconductors, my hope is that this lecture provides just enough understanding to allow you to begin exploring semiconductor devices.

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Yuqin Duan onto Device Fundamentals

GROSIR JAKET PARKA PRIA & WANITA | 0895-2320-8369

Grosir Jaket Parka, Agen Jaket Parka, Distributor Jaket Parka, Pusat Jaket Parka, Bikin Jaket Parka, Pesan Jaket Parka, Jual Jaket Parka, Harga Jaket Parka, Jaket Parka Wanita, Jaket Parka Pria

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0895-2320-8369 | Grosir Jaket Parka Pria | Konveksi Jaket Parka

Jaket Parka , Jaket Parka Wanita, Jaket Parka Army, Jaket Parka Couple, Jaket Parka Adalah, Jaket Parka Vans, Jaket Parka Bandung, Jaket Parka Kanvas, Jaket Parka Bolak Balik, Jaket Parka Terbaru, Jaket Parka Murah

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TMDs

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Selena Zhang onto Materials

 graphene FET

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Selena Zhang onto FET

nMOSFET I-V

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Selena Zhang onto MOS