Lecture Topic B
|
|
- Jemimah Hart
- 6 years ago
- Views:
Transcription
1 Lecture Topic B
2 Surface Engineering Au, Cu, Ag Al2O3 HS-R (OH)3-P-O-R SiO2 X3Si-O-R Tailored Surface Chemistry
3 Micro-contact printing Polymer stamp (PDMS) Siliconmicrostructure or PMMA resist
4 Micro-contact printing Polymer stamp (PDMS) Ink
5 Micro-contact printing Polymer stamp (PDMS) Ink
6 Surface Engineering Surface Polymerized Polypeptides
7 Poly-γ-benzylglutamate Orientational Change of α-helix by solvent Resulting change in layer thickness
8 Poly-γ-benzylglutamate Orientational Change of α-helix by solvent Resulting change in layer thickness
9
10 Surface Engineering Surface Patterning
11 Surface patterning Microcontact Printing (Whitesides) 1 µm Electron Beam Lithography of Self-Assembled Monolayers (Craighead) 1 nm Dip-Pen Lithography of Self-Assembled Monolayers (C.A. Mirkin)
12 Micro-contact printing of solutions M. Wang, H.-G. Braun, T. Kratzmüller, E. Meyer, Adv. Mater. 13, 1312 (2000)
13 Micro-contact printing of solutions M. Wang, H.-G. Braun, T. Kratzmüller, E. Meyer, Adv. Mater. 13, 1312 (2000)
14 Micro- and nanotechnology as multidisciplinary fields Physics Fundamentals for structuring technologies Optical tweezers Dip pen lithography
15 Affecting Physicochemical and Physical Properties of Surfaces by Surface Patterning
16 Wetting on patterned surfaces Non-wettable wettable T > Tdew Peltierelement T < Tdew Peltierelement
17 Wetting
18 Liquid morphologies on striped surfaces Theoretical description: R. Lipowsky, Structured surfaces and morphological wetting transitions, Interface Science 9, (2001)
19 Liquid morphologies on patterned surfaces
20 Dewetting
21 Water assisted dewetting H.-G. Braun, E. Meyer, Thin Solid Films 345, 222 (1999)
22 Film rupture during dewetting on homogeneous surfaces
23 Film formation by controlled dewetting on micropatterned surfaces E. Meyer, H.-G. Braun, Macromol. Mater. Eng. 276/277, 44 (2000)
24 Mesophases of amphiphilic molecules A. Mueller, D. O Brien, Chem. Rev. 2002, 102, 727
25 Lipid bilayers and their transitions A. Mueller, D. O Brien, Chem. Rev. 2002, 102, 727
26 Topochemical Polymerisation of polydiacetylenes G. Wegner
27 Polymerisable diacetylenes in vesicles / liposomes / layers H.Y. Shim, S.H. Lee, D.J. Ahn, K.-D. Ahn, J.M. Kim, Mat. Sci. Eng. C 24, 2004, 157
28 H.Y. Shim, S.H. Lee, D.J. Ahn, K.-D. Ahn, J.M. Kim, Mat. Sci. Eng. C 24, 2004, 157
29 Stress induced transformations of polydiacetylene molecules ( AFM, SNOM) R.W. Carpick, J.Phys.Cond. Matter 16, 2004, R679
30 Planar conformation of polyconjugated polymer backbone in blue polydiacetylenes R.W. Carpick, J.Phys.Cond. Matter 16, 2004, R679
31 Change in colour due to interaction of polyacrylic acid with blue ( B) vesicles J.M. Kim et. Al., Adv. Mat. 15, 2003, 1118
32 Polydiacetylenes as molecular stress sensors R. Jelinek, JACS 123, 2001, 417
33 Formation of vesicle networks by electroporation, tether formation and extrusion O. Orwar, Langmuir 99, 2002, 11573
34 Formation of vesicle networks O. Orwar, Langmuir 99, 2002, 11573
35 Formation of multi component vesicle networks O. Orwar, Langmuir 99, 2002, 11573
36 Formation of multi component vesicle networks O. Orwar, Langmuir 99, 2002, 11573
37 3-d Liposome networks attached to SU-8 Resist O. Orwar, Langmuir 20, 2004, 5637
38 Formation of vesicle networks O. Orwar, Langmuir 99, 2002, 11573
39 Knots in nanofluidic vesicle networks O. Orwar, PNAS 101, 2004, 7949
40 Brochard-Wyart, Langmuir 19, 2003, 575
41 Brochard-Wyart, Langmuir 19, 2003, 575
42 Seifert et. Al. PRL, 2004,
43 Maeda, BBA 1564, 2002, 165
44 O. Orwar, Anal. Chem. 75, 2003, 2529
45 Formation of vesicle networks on microstructured surfaces O. Orwar, Langmuir 100, 2003, 3904
46 Generating flow between vesicle networks by changing their shape M. Karlsson, O. Orwar, Annual Reviews Physical Chemistry 55, 2004, 613
47 Diffusion through nanochannels O. Orwar, Anal. Chem. 75, 2003, 2529
48 The concept of vesicle nanofluidic networks M. Karlsson, O. Orwar, Annual Reviews Physical Chemistry 55, 2004, 613
49 Formation of lipid double layer from vesicles SG Boxer, Biophysical Journal, 2002, 83, 3372
50 Mobile microstructured membranes SG Boxer, Langmuir, 2001, 17, 3400
51 Field induced diffusion of lipids SG Boxer, Accounts Chemical Research, 2002, 35, 149
52 Mobile microstructured membranes SG Boxer, Current Opinion Chemical Biology, 2000, 704
53 Membrane Microfluidics SG Boxer, Langmuir, 2003, 19, 1624
54 Membrane Microfluidics SG Boxer, Langmuir, 2003, 19, 1624
55 Dynamics of nanoobjects Motion in ratchets
56 Dynamics of nanoobjects Motion in ratchets
57 Dynamics of nanoobjects Motion in ratchets Bader et. al.appl. Phys. A 75, (2002)
58 Dynamics of nanoobjects Motion in ratchets Bader et. al.appl. Phys. A 75, (2002)
59 Dynamics of nanoobjects Motion in ratchets Bader et. al.appl. Phys. A 75, (2002)
60 Dynamics of nanoobjects Motion in ratchets Gorre-Talini, Spatz, Silberzan Chaos, Vol. 8, No. 3, 1998
61 Dielectric force patterning Fudouzi, Journal of Nanoparticle Research 3: , 2001.
62 Dielectric force patterning Fudouzi, Journal of Nanoparticle Research 3: , 2001.
63 Optical tweezers
64 Optical multitweezers
65 Optical tweezers for multiple particle manipulation
66 Flow behaviour on different scales Turbulent flow Flow on a very large scale
67 Flow behaviour on different scales Laminar flow Small scale
68 Physical effects of small volumes From turbulent to laminar flow Re = vs L / ν = Inertia forces / Viscous forces Re : Reynolds number L vs : mean fluid velocity [m s-1 ] ν : width of channel (pipe) [m] : kinematic fluid viscosity [m2 s-1] Typical Reynolds numbers (Relaminar < < Returbulent) Spermatozoa ~ 1 x 10-2 Blood flow in brain ~ 1 x 102 Blood flow in aorta ~ 1 x 103 Microchannels <1 Person swimming ~ 4 x 106
69 Physical effects of small volumes Parabolic flow profile Laminar and turbulent flow
70 Physical effects of small volumes From turbulent to laminar flow Aqueous solution c0, c1 L 100 nm < L < 100 µm Stationary flow boundary between flowing miscible liquids (water) Concentration gradient c0, c1 causes Mixing through diffusion across the boundary
71 Physical effects of small volumes Increase in specific surface area with decreasing volume R V = 4/3 π R3 S = 4 π R2 Sspecific = S/V = 3 / R Surface interactions and forces become dominating in small dimensions
72 Geometrical features of microfluidic systems
73 Flow induced generation of microemulsion droplets
74 Flow induced generation of microemulsion droplets
75 Rayleigh instability of cylindrical shaped liquid structures
76 Flow induced generation of microemulsion droplets Monodisperse Emulsion Generation via Drop Break Off in a Coflowing Stream P. B. Umbanhowar, V. Prasad, D. A. Weitz Langmuir 16, 347 (2000)
77 Flow induced encapsulation of cells Selective Encapsulation of Single Cells and Subcellular Organelles into Picoliter- and Femtoliter-Volume Droplets Mingyan He, J. Scott Edgar, Gavin D. M. Jeffries, Robert M. Lorenz, J. Patrick Shelby, and Daniel T. Chiu Anal. Chem. 2005, 77,
78 Flow induced generation of complex microphases Monodisperse Double Emulsions Generated from a Microcapillary Device S. Utada, E. Lorenceau, D. R. Link, P. D. Kaplan,H. A. Stone, A. Weitz Science 308, 537 (2005)
79 Flow induced generation of complex microphases Monodisperse Double Emulsions Generated from a Microcapillary Device S. Utada, E. Lorenceau, D. R. Link, P. D. Kaplan,H. A. Stone, A. Weitz Science 308, 537 (2005)
80 Flow induced generation of complex microphases Monodisperse Double Emulsions Generated from a Microcapillary Device S. Utada, E. Lorenceau, D. R. Link, P. D. Kaplan,H. A. Stone, A. Weitz Science 308, 537 (2005)
81 Micro- and nanostructures through self-assembly Guillaume Tresset and Shoji Takeuchi*, Anal. Chem.2005, 77,
82 Cell encapsulatioon in microdroplets Mingyan He, J. Scott Edgar, Gavin D. M. Jeffries, Robert M. Lorenz, J. Patrick Shelby, and Daniel T. Chiu* Anal. Chem.2005, 77,
Physicochemical. Physical Properties. Surfaces by. Surface Patterning
Affecting Physicochemical and Physical Properties of Surfaces by Surface Patterning Wetting on patterned surfaces Non-wettable wettable T > Tdew Peltierelement T < Tdew Peltierelement Wetting Liquids on
More informationPhysics and physical chemistry. of micro- and nanotechnological. systems
Physics and physical chemistry of micro- and nanotechnological systems Hans-Georg Braun Max Bergmann Center of Biomaterials Schedule WS 2010/2011 Topic A: Preparation and characterization of micro- and
More informationMohamed Daoud Claudine E.Williams Editors. Soft Matter Physics. With 177 Figures, 16 of them in colour
Mohamed Daoud Claudine E.Williams Editors Soft Matter Physics With 177 Figures, 16 of them in colour Contents 1. Droplets: CapiUarity and Wetting 1 By F. Brochard-Wyart (With 35 figures) 1.1 Introduction
More informationIntroduction to Micro/Nanofluidics. Date: 2015/03/13. Dr. Yi-Chung Tung. Outline
Introduction to Micro/Nanofluidics Date: 2015/03/13 Dr. Yi-Chung Tung Outline Introduction to Microfluidics Basic Fluid Mechanics Concepts Equivalent Fluidic Circuit Model Conclusion What is Microfluidics
More informationSimulation of a 3D Flow-Focusing Capillary-Based Droplet Generator
Simulation of a 3D Flow-Focusing Capillary-Based Droplet Generator D. Conchouso*, E. Rawashdeh, A. Arevalo, D. Castro, I. G. Foulds King Abdullah University of Science and Technology 4700 KAUST 23955,
More informationFlow Focusing Droplet Generation Using Linear Vibration
Flow Focusing Droplet Generation Using Linear Vibration A. Salari, C. Dalton Department of Electrical & Computer Engineering, University of Calgary, Calgary, AB, Canada Abstract: Flow focusing microchannels
More informationMicrosystems technology. for molecular bioengineering. Hans-Georg Braun Max Bergmann Center of Biomaterials
Microsystems technology for molecular bioengineering Hans-Georg Braun Max Bergmann Center of Biomaterials CV Diploma in Chemistry University of Freiburg PhD at the Institute of Macromolecular Chemistry
More informationHighly Sensitive Color-Tunablility by Scalable. Nanomorphology of Dielectric Layer in Liquid Permeable. Metal-Insulator-Metal Structure
Supporting Information Highly Sensitive Color-Tunablility by Scalable Nanomorphology of Dielectric Layer in Liquid Permeable Metal-Insulator-Metal Structure Eui-Sang Yu,, Sin-Hyung Lee, Young-Gyu Bae,
More informationThere's Plenty of Room at the Bottom
There's Plenty of Room at the Bottom 12/29/1959 Feynman asked why not put the entire Encyclopedia Britannica (24 volumes) on a pin head (requires atomic scale recording). He proposed to use electron microscope
More informationNPTEL. Instability and Patterning of Thin Polymer Films - Video course. Chemical Engineering.
NPTEL Syllabus Instability and Patterning of Thin Polymer Films - Video course COURSE OUTLINE T h i s course will expose students to the science of sub-micron, meso and nanoscale patterning of surfaces
More informationDissipative Particle Dynamics: Foundation, Evolution and Applications
Dissipative Particle Dynamics: Foundation, Evolution and Applications Lecture 4: DPD in soft matter and polymeric applications George Em Karniadakis Division of Applied Mathematics, Brown University &
More informationSELF-ASSEMBLY AND NANOTECHNOLOGY A Force Balance Approach
SELF-ASSEMBLY AND NANOTECHNOLOGY A Force Balance Approach Yoon S. Lee Scientific Information Analyst Chemical Abstracts Service A Division of the American Chemical Society Columbus, Ohio WILEY A JOHN WILEY
More informationNANO 243/CENG 207 Course Use Only
L12: Drug Loading & Quantification May 15, 2018 1. Drug loading techniques 1.1 Physical approaches Nanprecipitation Single emulsion Double emulsion Encapsulation Remote loading 1.2 Chemical approaches
More informationMicro-fluidic applications of telephone cord delamination blisters
Mater. Res. Soc. Symp. Proc. Vol. 855E 005 Materials Research Society W3.16.1 Micro-fluidic applications of telephone cord delamination blisters Alex A. Volinsky, Patrick Waters, Gregory Wright University
More informationShear-induced color transition of PDA (polydiacetylene) liposome in polymeric solutions
Korea-Australia Rheology Journal Vol. 19, No. 1, March 2007 pp. 43-47 Shear-induced color transition of PDA (polydiacetylene) liposome in polymeric solutions Sung Sik Lee, Eun Hyuk Chae 1, Dong June Ahn
More informationFabrication of ordered array at a nanoscopic level: context
Fabrication of ordered array at a nanoscopic level: context Top-down method Bottom-up method Classical lithography techniques Fast processes Size limitations it ti E-beam techniques Small sizes Slow processes
More informationA. Optimizing the growth conditions of large-scale graphene films
1 A. Optimizing the growth conditions of large-scale graphene films Figure S1. Optical microscope images of graphene films transferred on 300 nm SiO 2 /Si substrates. a, Images of the graphene films grown
More informationThin Film Behavior after Ink Transfer in Printing Processes N. Bornemann, H. M. Sauer, E. Dörsam
Thin Film Behavior after Ink Transfer in Printing Processes N. Bornemann, H. M. Sauer, E. Dörsam 15.04.2010 Institute of Printing Science and Technology Thin Film Behavior N. Bornemann Overview Thin Film
More informationMicrofluidic flow focusing: Drop size and scaling in pressure versus flow-rate-driven pumping
3716 Electrophoresis 2005, 26, 3716 3724 Thomas Ward Magalie Faivre Manouk Abkarian Howard A. Stone Division of Engineering and Applied Sciences, Harvard University Cambridge, Cambridge, MA, USA Microfluidic
More informationPreparation and Characterization of Oil-in-Water and Water-in-Oil Emulsions. Prepared. For
1 Preparation and Characterization of Oil-in-Water and Water-in-Oil Emulsions Prepared For Dr. Reza Foudazi, Ph.D. Chemical and Materials Engineering New Mexico State University By Muchu Zhou May 10, 2016
More information3 rd Food Emulsions Short Course November 13 th & 14 th, 2008 University of Massachusetts. David Julian McClements University of Massachusetts
3 rd Food Emulsions Short Course November 13 th & 14 th, 2008 University of Massachusetts David Julian McClements University of Massachusetts Program Objectives Review Basic Principles of Emulsion Science
More informationDeposition of Multilayer Fibers and Beads by Near-Field Electrospinning for Texturing and 3D Printing Applications
Deposition of Multilayer Fibers and Beads by Near-Field Electrospinning for Texturing and 3D Printing Applications Nicolas Martinez-Prieto, Jian Cao, and Kornel Ehmann Northwestern University SmartManufacturingSeries.com
More informationSuperparamagnetic nanoparticle arrays for magnetically tunable photonics. Josh Kurzman Materials 265
Superparamagnetic nanoparticle arrays for magnetically tunable photonics Josh Kurzman Materials 265 Superparamagnetism In SPM regime, thermal energy sufficient to overcome spin reversal barrier T B Below
More informationPrinting Silver Nanogrids on Glass: A Hands-on Investigation of Transparent Conductive Electrodes
Printing Silver Nanogrids on Glass: A Hands-on Investigation of Transparent Conductive Electrodes Silver Nanogrid/Nanowire Importance The next generation of optoelectronic devices requires transparent
More informationCOMPLEX FLOW OF NANOCONFINED POLYMERS
COMPLEX FLOW OF NANOCONFINED POLYMERS Connie B. Roth, Chris A. Murray and John R. Dutcher Department of Physics University of Guelph Guelph, Ontario, Canada N1G 2W1 OUTLINE instabilities in freely-standing
More informationLiquid nanodispensing
Liquid nanodispensing Thierry Ondarçuhu, Laure Fabié, Erik Dujardin, Aiping Fang Nanosciences group, CEMES-CNRS, Toulouse (France) Nanopatterning, molecule deposition Dynamics of liquids at sub-micron
More informationModule 3: "Thin Film Hydrodynamics" Lecture 12: "" The Lecture Contains: Linear Stability Analysis. Some well known instabilities. Objectives_template
The Lecture Contains: Linear Stability Analysis Some well known instabilities file:///e /courses/colloid_interface_science/lecture12/12_1.htm[6/16/2012 1:39:16 PM] Linear Stability Analysis This analysis
More informationComputational Fluid Dynamical Simulations of Droplet Flow and Merger in Microfluidic Channels
Computational Fluid Dynamical Simulations of Droplet Flow and Merger in Microfluidic Channels Katrina J. Donovan 1, Shelly Gulati 2, Xize Niu 3, Bradley M. Stone 1 and Andrew J. demello 4 1. Department
More informationTitle Single Row Nano-Tribological Printing: A novel additive manufacturing method for nanostructures
Nano-Tribological Printing: A novel additive manufacturing method for nanostructures H.S. Khare, N.N. Gosvami, I. Lahouij, R.W. Carpick 1 Mechanical Engineering and Applied Mechanics, University of Pennsylvania,
More informationCreating Localized Mixing Stations within Microfluidic Channels
7186 Langmuir 2001, 17, 7186-7190 Creating Localized Mixing Stations within Microfluidic Channels Olga Kuksenok, J. M. Yeomans, and Anna C. Balazs*, Chemical Engineering Department, University of Pittsburgh,
More informationEncapsulation. Loughborough University Institutional Repository
Loughborough University Institutional Repository Encapsulation This item was submitted to Loughborough University's Institutional Repository by the/an author. Citation: VLADISAVLJEVIC, G.T. and HOLDICH,
More informationPolymers fit for function Making emulsions drop by drop
www.materialstoday.com Polymers fit for function Making emulsions drop by drop ISSN 1369 7021 Available online at ELSEVIER www.sciencedirect.com Designer emulsions using microfluidics We describe new developments
More informationNanopores and Nanofluidics for Single DNA Studies Derek Stein Department of Physics Brown University
Nanopores and Nanofluidics for Single DNA Studies Derek Stein Department of Physics Brown University Overview Motivation: biological, physical, and technological The program: develop and characterize new
More informationSupplementary Figure 1 a) Scheme of microfluidic device fabrication by photo and soft lithography,
a b 1 mm Supplementary Figure 1 a) Scheme of microfluidic device fabrication by photo and soft lithography, (a1, a2) 50nm Pd evaporated on Si wafer with 100 nm Si 2 insulating layer and 5nm Cr as an adhesion
More informationPolymers and Nanomaterials from Liquid-Liquid Interfaces: Synthesis, Self-Organisation and Applications
Preface My interest in liquid liquid interfaces, the reactions occurring at them and through them, as well as their physical properties and potential applications was initiated during my early days of
More informationTitle Single Row Nano-Tribological Printing: A novel additive manufacturing method for nanostructures
Nano-Tribological Printing: A novel additive manufacturing method for nanostructures H.S. Khare, N.N. Gosvami, I. Lahouij, R.W. Carpick hkhare@seas.upenn.edu carpick@seas.upenn.edu carpick.seas.upenn.edu
More informationMulticompartment Polymersomes from Double Emulsions
Polymer Vesicles Multicompartment Polymersomes from Double Emulsions Ho Cheung Shum, Yuan-jin Zhao, Shin-Hyun Kim and David A. Weitz* ((Dedication----optional)) Polymersomes are vesicles which consist
More informationMEEN Nanoscale Issues in Manufacturing. Lithography Lecture 1: The Lithographic Process
MEEN 489-500 Nanoscale Issues in Manufacturing Lithography Lecture 1: The Lithographic Process 1 Discuss Reading Assignment 1 1 Introducing Nano 2 2 Size Matters 3 3 Interlude One-The Fundamental Science
More informationSimulation of a Pressure Driven Droplet Generator
Simulation of a Pressure Driven Droplet Generator V. Mamet* 1, P. Namy 2, N. Berri 1, L. Tatoulian 1, P. Ehouarn 1, V. Briday 1, P. Clémenceau 1 and B. Dupont 1 1 DBV Technologies, 2 SIMTEC *84 rue des
More informationMicrofluidics 1 Basics, Laminar flow, shear and flow profiles
MT-0.6081 Microfluidics and BioMEMS Microfluidics 1 Basics, Laminar flow, shear and flow profiles 11.1.2017 Ville Jokinen Outline of the next 3 weeks: Today: Microfluidics 1: Laminar flow, flow profiles,
More informationFormation of Droplets and Bubbles in a Microfluidic T-junction. Scaling and Mechanism of Break-Up. Supplementary Information
Formation of Droplets and Bubbles in a Microfluidic T-junction Scaling and Mechanism of Break-Up Supplementary Information Piotr Garstecki 1,2 *, Michael J. Fuerstman 1, Howard A. Stone 3 and George M.
More information6. Basic basic equations I ( )
6. Basic basic equations I (4.2-4.4) Steady and uniform flows, streamline, streamtube One-, two-, and three-dimensional flow Laminar and turbulent flow Reynolds number System and control volume Continuity
More informationME381 Introduction to MEMS
ME381 Introduction to MEMS Term Project Dynamic Wettability Switching by Surface Roughness Effect Bo He Hang Cheng Hongzhou Jiang December 6 th, 2002 1 TABLE OF CONTENTS Abstract........1 Introduction......1
More informationWafer bonding. Supplementary Figure 1. Conventional nanofluidic sealing process. (a) Selective sealing. (b) Wafer bonding. (c) Sacrificial etching.
(a) (b) (c) Selective sealing Wafer bonding Sacrificial etching Supplementary Figure 1. Conventional nanofluidic sealing process. (a) Selective sealing. (b) Wafer bonding. (c) Sacrificial etching. Supplementary
More informationContents. Preface XI Symbols and Abbreviations XIII. 1 Introduction 1
V Contents Preface XI Symbols and Abbreviations XIII 1 Introduction 1 2 Van der Waals Forces 5 2.1 Van der Waals Forces Between Molecules 5 2.1.1 Coulomb Interaction 5 2.1.2 Monopole Dipole Interaction
More informationForced generation of simple and double emulsions in all-aqueous system
Forced generation of simple and double emulsions in all-aqueous system Alban Sauret,, a) and Ho Cheung Shum ) Department of Mechanical Engineering, University of Hong Kong, Pokfulam Road, Hong Kong ) Institut
More informationDip-Pen Lithography 1
Dip-Pen Lithography 1 A Brief History of Writing Instruments From Quills and Bamboos to fountain pens and brushes M. Klein and Henry W. Wynne received US patent #68445 in 1867 for an ink chamber and delivery
More informationUltrathin liquid films under alternating intermolecular potential fields and capillary force
JOURNAL OF CHEMICAL PHYSICS VOLUME 117, NUMBER 13 1 OCTOBER 2002 Ultrathin liquid films under alternating intermolecular potential fields and capillary force Kahp Y. Suh and Hong H. Lee a) School of Chemical
More informationThe Effect of Surface Functionalization of Graphene on the Electrical Conductivity of Epoxy-based Conductive Nanocomposites
The Effect of Surface Functionalization of Graphene on the Electrical Conductivity of Epoxy-based Conductive Nanocomposites by Behnam Meschi Amoli, PhD Institute for Polymer Research, Waterloo Institute
More informationInfluence of flow rate on the droplet generation process in a microfluidic chip
Influence of flow rate on the droplet generation process in a microfluidic chip Florian Lapierre, Nan Wu, Yonggang Zhu * CSIRO Materials Science and Engineering, PO Box 56, Highett, Melbourne, VIC 3190,
More informationFINAL PROGRESS REPORT METACHROMATIC MATERIALS
FINAL PRGRESS REPRT METACHRMATIC MATERIALS 1. Table of Contents FINAL PRGRESS REPRT Metachromatic materials... 1 1. Table of Contents... 1 2. List of Appendixes, Illustrations and Tables... 2 3. Statement
More informationPhase Separation gives Rise to Nanoparticle Ring Formation
Phase Separation gives Rise to Nanoparticle Ring Formation L. V. Govor, J. Parisi, and G. H. Bauer Department of Physics, University of Oldenburg, D-26111 Oldenburg, Germany Reprint requests to Dr. L.
More informationPhysics and Chemistry of Interfaces
Hans Jürgen Butt, Karlheinz Graf, and Michael Kappl Physics and Chemistry of Interfaces Second, Revised and Enlarged Edition WILEY- VCH WILEY-VCH Verlag GmbH & Co. KGaA Contents Preface XI 1 Introduction
More informationElectrochemically Synthesized Multi-block
Electrochemically Synthesized Multi-block Nanorods Sungho Park SungKyunKwan University, Department of Chemistry & SKKU Advanced Institute of Nanotechnology (SAINT) J. Am. Chem. Soc. 2003, 125, 2282-2290
More informationElectrohydromechanical analysis based on conductivity gradient in microchannel
Vol 17 No 12, December 2008 c 2008 Chin. Phys. Soc. 1674-1056/2008/17(12)/4541-06 Chinese Physics B and IOP Publishing Ltd Electrohydromechanical analysis based on conductivity gradient in microchannel
More informationI. NANOFABRICATION O AND CHARACTERIZATION Chap. 2 : Self-Assembly
I. Nanofabrication and Characterization : TOC I. NANOFABRICATION O AND CHARACTERIZATION Chap. 1 : Nanolithography Chap. 2 : Self-Assembly Chap. 3 : Scanning Probe Microscopy Nanoscale fabrication requirements
More informationCHIMICA DELLE SUPERFICI ED INTERFASI
CHIMICA DELLE SUPERFICI ED INTERFASI DOTT. GIULIA FIORAVANTI UNIVERSITÀ DEGLI STUDI DELL AQUILA LAUREA MAGISTRALE IN INGEGNERIA CHIMICA A.A. 2013-2014 OUTLINE SURFACE CHEMICAL GRADIENTS DROPLET MOVEMENT
More informationMesoscale fluid simulation of colloidal systems
Mesoscale fluid simulation of colloidal systems Mingcheng Yang Institute of Physics, CAS Outline (I) Background (II) Simulation method (III) Applications and examples (IV) Summary Background Soft matter
More informationNanobiotechnology. Place: IOP 1 st Meeting Room Time: 9:30-12:00. Reference: Review Papers. Grade: 40% midterm, 60% final report (oral + written)
Nanobiotechnology Place: IOP 1 st Meeting Room Time: 9:30-12:00 Reference: Review Papers Grade: 40% midterm, 60% final report (oral + written) Midterm: 5/18 Oral Presentation 1. 20 minutes each person
More informationA Microfluidic Electroosmotic Mixer and the Effect of Potential and Frequency on its Mixing Efficiency
Proceedings of the 009 IEEE International Conference on Systems, Man, and Cybernetics San Antonio, TX, USA - October 009 A Microfluidic Electroosmotic Mixer and the Effect of Potential and Frequency on
More informationNew regime of droplet generation in a T-shape microfluidic junction
New regime of droplet generation in a T-shape microfluidic junction Nathalie Tarchichi, Franck Chollet, Jean-Francois Manceau To cite this version: Nathalie Tarchichi, Franck Chollet, Jean-Francois Manceau.
More informationMicrowave-Assisted Self-Organization of Colloidal Particles in Confining Aqueous Droplets
Published on Web 07/27/2006 Microwave-Assisted Self-Organization of Colloidal Particles in Confining Aqueous Droplets Shin-Hyun Kim, Su Yeon Lee, Gi-Ra Yi,, David J. Pine, and Seung-Man Yang*, Contribution
More informationElectrophoretic Deposition. - process in which particles, suspended in a liquid medium, migrate in an electric field and deposit on an electrode
Electrophoretic Deposition - process in which particles, suspended in a liquid medium, migrate in an electric field and deposit on an electrode no redox differs from electrolytic in several ways deposit
More informationHeidelberg, 20. Nov. 2014
AG Zharnikov Surface Science & Analytics Angewandte Physikalische Chemie Heidelberg, 20. Nov. 2014 Research areas of the group Focal objects are thin organic films, self-assembled monolayers (SAMs), nanotechnology,
More informationWoo Jin Hyun, Ethan B. Secor, Mark C. Hersam, C. Daniel Frisbie,* and Lorraine F. Francis*
Woo Jin Hyun, Ethan B. Secor, Mark C. Hersam, C. Daniel Frisbie,* and Lorraine F. Francis* Dr. W. J. Hyun, Prof. C. D. Frisbie, Prof. L. F. Francis Department of Chemical Engineering and Materials Science
More informationNANOCOMPOSITE THIN FILMS:
NANOCOMPOSITE THIN FILMS: Assembly, Characterizations, & Applications Chaoyang Jiang Department of Chemistry The University of South Dakota St. Louis, June 26, 2008 Forest Products &Nanocomposite P. Monteiro@UC
More informationEffect of Particle Size on Thermal Conductivity and Viscosity of Magnetite Nanofluids
Chapter VII Effect of Particle Size on Thermal Conductivity and Viscosity of Magnetite Nanofluids 7.1 Introduction 7.2 Effect of Particle Size on Thermal Conductivity of Magnetite Nanofluids 7.3 Effect
More informationLecture 3. Self-assembled Monolayers (SAM)
10.524 Lecture 3. Self-assembled Monolayers (SAM) Instructor: Prof. Zhiyong Gu (Chemical Engineering & UML CHN/NCOE Nanomanufacturing Center) Lecture 3: Self-assembled Monolayers (SAMs) Table of Contents
More informationMicro Chemical Vapor Deposition System: Design and Verification
Micro Chemical Vapor Deposition System: Design and Verification Q. Zhou and L. Lin Berkeley Sensor and Actuator Center, Department of Mechanical Engineering, University of California, Berkeley 2009 IEEE
More informationNano Materials. Nanomaterials
Nano Materials 1 Contents Introduction Basics Synthesis of Nano Materials Fabrication of Nano Structure Nano Characterization Properties and Applications 2 Fabrication of Nano Structure Lithographic techniques
More informationEmerging nanopatterning
Nanotechnology for engineers Winter semester 2006-2007 Emerging nanopatterning Soft-lithography: Microcontact printing Nanoimprint Lithography Stencil lithography Dip-Pen lithography / Nanoscale dispensing
More informationAnindya Aparajita, Ashok K. Satapathy* 1.
μflu12-2012/24 NUMERICAL ANALYSIS OF HEAT TRANSFER CHARACTERISTICS OF COMBINED ELECTROOSMOTIC AND PRESSURE-DRIVEN FULLY DEVELOPED FLOW OF POWER LAW NANOFLUIDS IN MICROCHANNELS Anindya Aparajita, Ashok
More informationA Step towards Biosensors Numerical Study of Shear-Thinning Droplet Breakup Dynamics at Microfluidics T-Junction using Level-Set Method
A Step towards Biosensors Numerical Study of Shear-Thinning Droplet Breakup Dynamics at Microfluidics T-Junction using Level-Set Method Voon-Loong Wong, Kar-Hing Yau, Katerina Loizou, Phei-Li Lau, Richard
More informationCalculate the total volumes of the following typical microfluidic channel dimensions.
Microfluidics and BioMEMS, 2018, Exercise 1. Unit conversions and laminar flow. (Note: this version, both the assignment and the model solutions, is now fixed (18.1.2018) so that the flow rate is 0.25µl/min
More informationNanomaterials for bottom-up manufacturing Jurriaan Huskens
Nanomaterials for bottom-up manufacturing Jurriaan Huskens University of Twente, MESA + Institute for Nanotechnology Molecular Nanofabrication group Enschede, The Netherlands General philosophy Assembly:
More informationInterfacial Flows of Contact Line Dynamics and Liquid Displacement in a Circular Microchannel
Proceedings of the 3 rd World Congress on Mechanical, Chemical, and Material Engineering (MCM'17) Rome, Italy June 8 10, 2017 Paper No. HTFF 159 ISSN: 2369-8136 DOI: 10.11159/htff17.159 Interfacial Flows
More informationAll-Aqueous Compartmentalized Structures by Microfluidics
All-Aqueous Compartmentalized Structures by Microfluidics Proefschrift ter verkrijging van de graad van doctor aan de Technische Universiteit Delft, op gezag van de Rector Magnificus prof. ir. K.C.A.M.
More informationSurface chemistry. Liquid-gas, solid-gas and solid-liquid surfaces. Levente Novák István Bányai Zoltán Nagy Department of Physical Chemistry
Surface chemistry. Liquid-gas, solid-gas and solid-liquid surfaces. Levente Novák István Bányai Zoltán Nagy Department of Physical Chemistry Surfaces and Interfaces Defining of interfacial region Types
More informationFlow-induced deformation of droplets, vesicles and red blood cells
COST MP1305 - Flowing matter 2014 Instituto para a Investigação Interdisciplinar, Universidade de Lisboa 15-17 December 2014 Flow-induced deformation of droplets, vesicles and red blood cells Stefano Guido
More informationControlling of immiscible liquids fluid in a capillary reactor - from continuous to segmented flow
Journal of Physics: Conference Series PAPER OPEN ACCESS Controlling of immiscible liquids fluid in a capillary reactor - from continuous to segmented flow To cite this article: L B Matyushkin et al 2016
More informationElectroviscous Effects in Low Reynolds Number Flow through a Microfluidic Contraction with Rectangular Cross-Section
PROCEEDINGS OF WORLD ACADEMY OF SCIENCE, ENGINEERING AND TECHNOLOGY VOLUME 3 JULY 28 ISSN 37-6884 Electroviscous Effects in Low Reynolds Number Flow through a Microfluidic Contraction with Rectangular
More informationChapter 2 Mass Transfer Coefficient
Chapter 2 Mass Transfer Coefficient 2.1 Introduction The analysis reported in the previous chapter allows to describe the concentration profile and the mass fluxes of components in a mixture by solving
More informationExperimental study of water drop motions induced by superposition of vibrations and shear flows
Computational Methods in Multiphase Flow VIII 399 Experimental study of water drop motions induced by superposition of vibrations and shear flows T. Maurer & U. Janoske Chair of Fluid Mechanics, University
More informationHydrophilization of Fluoropolymers and Silicones
2017 Adhesive and Sealant Council Spring Meeting Hydrophilization of Fluoropolymers and Silicones Aknowledgements: Wei Chen Mount Holyoke College NSF, NIH, Dreyfus, ACS-RF, MHC Bryony Coupe, Mamle Quarmyne,
More informationFoundations of MEMS. Chang Liu. McCormick School of Engineering and Applied Science Northwestern University. International Edition Contributions by
Foundations of MEMS Second Edition Chang Liu McCormick School of Engineering and Applied Science Northwestern University International Edition Contributions by Vaishali B. Mungurwadi B. V. Bhoomaraddi
More informationParash Moni Thakur. Gopal Ch. Hazarika
International Journal of Scientific and Innovative Mathematical Research (IJSIMR) Volume 2, Issue 6, June 2014, PP 554-566 ISSN 2347-307X (Print) & ISSN 2347-3142 (Online) www.arcjournals.org Effects of
More informationWhat s important: viscosity Poiseuille's law Stokes' law Demo: dissipation in flow through a tube
PHYS 101 Lecture 29x - Viscosity 29x - 1 Lecture 29x Viscosity (extended version) What s important: viscosity Poiseuille's law Stokes' law Demo: dissipation in flow through a tube Viscosity We introduced
More informationELECTROSPRAY: NOVEL FABRICATION METHOD FOR BIODEGRADABLE POLYMERIC NANOPARTICLES FOR FURTHER APPLICATIONS IN DRUG DELIVERY SYSTEMS
ELECTROSPRAY: NOVEL FABRICATION METHOD FOR BIODEGRADABLE POLYMERIC NANOPARTICLES FOR FURTHER APPLICATIONS IN DRUG DELIVERY SYSTEMS Ali Zarrabi a, Manouchehr Vossoughi b a Institute for Nanscience & Nanotechnology,
More informationFast Biofluid Transport of High Conductive Liquids Using AC Electrothermal Phenomenon, A Study on Substrate Characteristics
Fast Biofluid Transport of High Conductive Liquids Using AC Electrothermal Phenomenon, A Study on Substrate Characteristics A. Salari, C. Dalton Department of Electrical & Computer Engineering, University
More informationExperimental and Theoretical Study of Motion of Drops on Horizontal Solid Surfaces with a Wettability Gradient Nadjoua Moumen
Experimental and Theoretical Study of Motion of Drops on Horizontal Solid Surfaces with a Wettability Gradient Nadjoua Moumen Department of Chemical and Biomolecular Engineering Clarkson University Outline
More information56.2: Invited Paper: Pixel-Isolated Liquid Crystal Mode for Plastic Liquid Crystal Displays
56.2: Invited Paper: Pixel-Isolated Liquid Crystal Mode for Plastic Liquid Crystal Displays Jong-Wook Jung, Se-Jin Jang, Min Young Jin, You-Jin Lee, Hak-Rin Kim, and Jae-Hoon Kim Department of Electronics
More informationSupporting Information. Fast Synthesis of High-Performance Graphene by Rapid Thermal Chemical Vapor Deposition
1 Supporting Information Fast Synthesis of High-Performance Graphene by Rapid Thermal Chemical Vapor Deposition Jaechul Ryu, 1,2, Youngsoo Kim, 4, Dongkwan Won, 1 Nayoung Kim, 1 Jin Sung Park, 1 Eun-Kyu
More information*blood and bones contain colloids. *milk is a good example of a colloidal dispersion.
Chap. 3. Colloids 3.1. Introduction - Simple definition of a colloid: a macroscopically heterogeneous system where one component has dimensions in between molecules and macroscopic particles like sand
More informationModern Additive Technology - a view into the future
Introduction Modern Additive Technology - a view into the future Dr. Jürgen Omeis, Dr. Guillaume Jaunky BYK-Chemie GmbH, Wesel, Germany Reviewing the current literature of colloids and interfacial materials,
More informationESS 5855 Surface Engineering for. MicroElectroMechanicalechanical Systems. Fall 2010
ESS 5855 Surface Engineering for Microelectromechanical Systems Fall 2010 MicroElectroMechanicalechanical Systems Miniaturized systems with integrated electrical and mechanical components for actuation
More informationColloid Science Principles, methods and applications
Colloid Science Principles, methods and applications Second Edition Edited by TERENCE COSGROVE School of Chemistry, University of Bristol, Bristol, UK WILEY A John Wiley and Sons, Ltd, Publication Contents
More informationMSN551 LITHOGRAPHY II
MSN551 Introduction to Micro and Nano Fabrication LITHOGRAPHY II E-Beam, Focused Ion Beam and Soft Lithography Why need electron beam lithography? Smaller features are required By electronics industry:
More informationChapter (4) Motion of Fluid Particles and Streams
Chapter (4) Motion of Fluid Particles and Streams Read all Theoretical subjects from (slides Dr.K.AlASTAL) Patterns of Flow Reynolds Number (R e ): A dimensionless number used to identify the type of flow.
More informationPotential changes of the cross section for rectangular microchannel with different aspect ratios
Korean J. Chem. Eng., 24(1), 186-190 (2007) SHORT COMMUNICATION Potential changes of the cross section for rectangular microchannel with different aspect ratios Hyo Song Lee, Ki Ho Kim, Jae Keun Yu, Soon
More informationComparison of nanofluid heat transfer properties with theory using generalized property relations for EG-water mixture
Comparison of nanofluid heat transfer properties with theory using generalized property relations for EG-water mixture Seshu Kumar Vandrangi 1,a), Suhaimi bin Hassan 1,b) Sharma K.V. 2,c), and Prasad Reddy
More information