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Author: Ripon Dey
Publisher:
ISBN:
Category : Lithography, Electron beam
Languages : en
Pages : 170
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Book Description
This thesis is focused on nanofabrication and its application in atomic force microscopy (AFM). The contribution of this thesis is thus the development, investigation and characterization of novel nanofabrication technique (Part I); and application of nanofabrication in manufacturing the high aspect ratio AFM tips (Part II). In the first part of the thesis, firstly, unlike optical and mechanical lithography such as nanoimprint lithography, the throughput of EBL is very low, which demands for highly sensitive resists. We studied the dependency of e-beam exposure properties on molecular weight of the negative EBL resist polystyrene, and very high sensitivity of 1 [mu]C/cm2 was obtained for 900 kg/mol when exposed with electron beam of 2 keV. We also demonstrated that the exposure property of high PDI (polydispersity index) polystyrene resembles that of a monodisperse (PDI 1.06) polystyrene with similar number averaged molecular weight ("Mn" )́−, which indicates that it is ("Mn" )− rather than ("Mw" )− (weight averaged molecular weight) that dominates the exposure properties of polystyrene resist. Secondly, lift-off using negative resist is very challenging because the resist profile is typically positively tapered due to electron forward scattering, and upon exposure negative resist is cross-linked and thus insoluble in solvents. Here we demonstrated that low energy exposure could circumvent both issues simultaneously, and we achieved liftoff of Cr with polystyrene resist using a solvent xylene. Lastly, since low energy electrons are mostly stopped inside the resist layer, radiation damage to the sub-layer is greatly reduced. Thirdly, an electron beam resist is usually coated by conventional coating methods such as spin-coating, but this cannot be reliably applied on irregular surfaces. We here reported a monolayer resist can be grafted on nonflat surface. As a proof of concept of patterning on irregular surfaces, we chose PMMA mono-layer "brush" and grafted it on irregular surfaces by thermal treatment which accelerates a chemical reaction between PMMA molecules and hydroxyl group on substrate. We achieved nanofabrication of 30 nm resolution on an AFM cantilever. Fourthly, due to the lack of feedback, conventional electron beam lithography (EBL) is a “blind” open-loop process where the exposed pattern is examined only after ex-situ resist development, which is too late for any improvement. We reported that self-developing resist nitrocellulose, for which pattern shows up right after exposure without ex-situ development, can be used as in-situ feedback on the e-beam distortion and enlargement. Once the beam was optimized using nitrocellulose resist, under the same optimal beam condition, we exposed in the common resist PMMA. We achieved ~80 nm resolution across the entire large writing field of 1 mm2, as compared to 210 nm without the beam optimization process. We also reported that self-developing resist can provide in-situ feedback for writing field alignment accuracy, which in turn can be used to optimize the alignment. In the second part of the thesis, we demonstrated the batch fabrication of high aspect ratio (HAR) AFM tips. In order to obtain high quality and faithful images in AFM, very high aspect ratio tips are required in order to reach to the bottom of narrow and deep trenches/holes. But these HAR tips are extremely difficult to make and consequently very expensive. Currently all the commercially available HAR AFM tips are fabricated in a slow, costly (~5-20 that of regular AFM tips) and serial manner (one by one). We here developed a method to batch fabricate HAR AFM tips by forming a hard metal etching mask just on the apex of the pyramid tip followed by silicon dry etching to achieve the HAR pillar right below the metal island mask. Since it is a batch and lithography-free process, it has much higher throughput and much lower manufacturing cost per tip. This technique was first successfully applied on large-area pyramid arrays and then transferred to the commercial regular AFM tips, and has demonstrated the uniformity, reproducibility and yield of those HAR tips. The tip apex diameter and tip pillar height are controllable by tuning metal thickness and silicon dry etching time respectively. Finally, we demonstrated that the HAR tips fabricated using our technique gave a better imaging quality than the commercial regular tips.
Author: Ripon Dey
Publisher:
ISBN:
Category : Lithography, Electron beam
Languages : en
Pages : 170
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Book Description
This thesis is focused on nanofabrication and its application in atomic force microscopy (AFM). The contribution of this thesis is thus the development, investigation and characterization of novel nanofabrication technique (Part I); and application of nanofabrication in manufacturing the high aspect ratio AFM tips (Part II). In the first part of the thesis, firstly, unlike optical and mechanical lithography such as nanoimprint lithography, the throughput of EBL is very low, which demands for highly sensitive resists. We studied the dependency of e-beam exposure properties on molecular weight of the negative EBL resist polystyrene, and very high sensitivity of 1 [mu]C/cm2 was obtained for 900 kg/mol when exposed with electron beam of 2 keV. We also demonstrated that the exposure property of high PDI (polydispersity index) polystyrene resembles that of a monodisperse (PDI 1.06) polystyrene with similar number averaged molecular weight ("Mn" )́−, which indicates that it is ("Mn" )− rather than ("Mw" )− (weight averaged molecular weight) that dominates the exposure properties of polystyrene resist. Secondly, lift-off using negative resist is very challenging because the resist profile is typically positively tapered due to electron forward scattering, and upon exposure negative resist is cross-linked and thus insoluble in solvents. Here we demonstrated that low energy exposure could circumvent both issues simultaneously, and we achieved liftoff of Cr with polystyrene resist using a solvent xylene. Lastly, since low energy electrons are mostly stopped inside the resist layer, radiation damage to the sub-layer is greatly reduced. Thirdly, an electron beam resist is usually coated by conventional coating methods such as spin-coating, but this cannot be reliably applied on irregular surfaces. We here reported a monolayer resist can be grafted on nonflat surface. As a proof of concept of patterning on irregular surfaces, we chose PMMA mono-layer "brush" and grafted it on irregular surfaces by thermal treatment which accelerates a chemical reaction between PMMA molecules and hydroxyl group on substrate. We achieved nanofabrication of 30 nm resolution on an AFM cantilever. Fourthly, due to the lack of feedback, conventional electron beam lithography (EBL) is a “blind” open-loop process where the exposed pattern is examined only after ex-situ resist development, which is too late for any improvement. We reported that self-developing resist nitrocellulose, for which pattern shows up right after exposure without ex-situ development, can be used as in-situ feedback on the e-beam distortion and enlargement. Once the beam was optimized using nitrocellulose resist, under the same optimal beam condition, we exposed in the common resist PMMA. We achieved ~80 nm resolution across the entire large writing field of 1 mm2, as compared to 210 nm without the beam optimization process. We also reported that self-developing resist can provide in-situ feedback for writing field alignment accuracy, which in turn can be used to optimize the alignment. In the second part of the thesis, we demonstrated the batch fabrication of high aspect ratio (HAR) AFM tips. In order to obtain high quality and faithful images in AFM, very high aspect ratio tips are required in order to reach to the bottom of narrow and deep trenches/holes. But these HAR tips are extremely difficult to make and consequently very expensive. Currently all the commercially available HAR AFM tips are fabricated in a slow, costly (~5-20 that of regular AFM tips) and serial manner (one by one). We here developed a method to batch fabricate HAR AFM tips by forming a hard metal etching mask just on the apex of the pyramid tip followed by silicon dry etching to achieve the HAR pillar right below the metal island mask. Since it is a batch and lithography-free process, it has much higher throughput and much lower manufacturing cost per tip. This technique was first successfully applied on large-area pyramid arrays and then transferred to the commercial regular AFM tips, and has demonstrated the uniformity, reproducibility and yield of those HAR tips. The tip apex diameter and tip pillar height are controllable by tuning metal thickness and silicon dry etching time respectively. Finally, we demonstrated that the HAR tips fabricated using our technique gave a better imaging quality than the commercial regular tips.
Author: Chenxu Zhu
Publisher:
ISBN:
Category : Atomic force microscopy
Languages : en
Pages : 56
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Book Description
This thesis focuses on nanofabrication and its applications which are related to producing atomic force microscope (AFM) probes. This thesis is divided into four chapters. The first chapter brings a preliminary introduction to nanofabrication. The second chapter reviews the history of AFM and fabrication process of AFM probe. Equipping with the basic knowledge, Chapter 3, the main chapter, goes to our work on the batch fabrication of high aspect ratio (HAR) AFM tips. Last but not least, Chapter 4 focuses on another work, batch fabrication of edge probes. In order to obtain a more accurate image of surfaces, high aspect ratio tips are needed to reach the bottom of very deep and narrow trenches. However, currently all commercial HAR tips are produced in a slow, high-cost (~5-20x that of regular AFM tips) way. We have developed a new method to batch fabricate HAR tips. In this fabrication, two kinds of hard masks were deposited at a specific angle followed by two etching processes (dry etching and wet etching respectively). As a result, a small piece of hard mask was formed just on the apex of pyramid tip, which would be the protection layer in the following RIE step. The batch and lithography-free process makes it an efficient and low-cost method. The controllable profile, radius of curvature and aspect ratio of tips can be easily obtained by adjusting gas ratio and etching time in RIE. All the parameters and results were demonstrated clearly assisted by images and schematics. For edge probes, our method to batch fabricate tips on the edge is introduced step by step as well. The objective of every step is presented in detail assisted with schematics and tables.
Author: Jian Zhong
Publisher: Academic Press
ISBN: 0128241322
Category : Technology & Engineering
Languages : en
Pages : 385
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Book Description
Fundamentals and Application of Atomic Force Microscopy for Food Research explains how to get reliable AFM data and current application progress of AFM in different food substances. Sections focus on an Introduction to AFM for food research and Applications of AFM for different types of food substances. Edited by 3 experts in the field of nanotechnology and food science, this book reduces the difficulty of AFM application and shortens the learning time for new hands. Until now, no such book has systematically described the application of Atomic Force Microscopy (AFM) for food research. Many scientists in the field of food science and engineering need to evaluate their developed foods and food contact surfaces at nanoscale. However, there is a steep learning curve for new hands, hence the need for this comprehensive resource. - Describes the application of AFM for food research - Covers applications of AFM for different types of food substances - Addresses future uses and perspectives of AFM for the development of food nanotechnology
Author: Seizo Morita
Publisher: Springer
ISBN: 3319155881
Category : Science
Languages : en
Pages : 539
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Book Description
This book presents the latest developments in noncontact atomic force microscopy. It deals with the following outstanding functions and applications that have been obtained with atomic resolution after the publication of volume 2: (1) Pauli repulsive force imaging of molecular structure, (2) Applications of force spectroscopy and force mapping with atomic resolution, (3) Applications of tuning forks, (4) Applications of atomic/molecular manipulation, (5) Applications of magnetic exchange force microscopy, (6) Applications of atomic and molecular imaging in liquids, (7) Applications of combined AFM/STM with atomic resolution, and (8) New technologies in dynamic force microscopy. These results and technologies are now expanding the capacity of the NC-AFM with imaging functions on an atomic scale toward making them characterization and manipulation tools of individual atoms/molecules and nanostructures, with outstanding capability at the level of molecular, atomic, and subatomic resolution. Since the publication of vol. 2 of the book Noncontact Atomic Force Microscopy in 2009 the noncontact atomic force microscope, which can image even insulators with atomic resolution, has achieved remarkable progress. The NC-AFM is now becoming crucial for nanoscience and nanotechnology.
Author: Ampere A. Tseng
Publisher: World Scientific
ISBN: 9812790896
Category : Technology & Engineering
Languages : en
Pages : 583
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Book Description
Many of the devices and systems used in modern industry are becoming progressively smaller and have reached the nanoscale domain. Nanofabrication aims at building nanoscale structures, which can act as components, devices, or systems, in large quantities at potentially low cost. Nanofabrication is vital to all nanotechnology fields, especially for the realization of nanotechnology that involves the traditional areas across engineering and science. This is the first book solely dedicated to the manufacturing technology in nanoscale structures, devices, and systems and is designed to satisfy the growing demands of researchers, professionals, and graduate students. Both conventional and non-conventional fabrication technologies are introduced with emphasis on multidisciplinary principles, methodologies, and practical applications. While conventional technologies consider the emerging techniques developed for next generation lithography, non-conventional techniques include scanning probe microscopy lithography, self-assembly, and imprint lithography, as well as techniques specifically developed for making carbon tubes and molecular circuits and devices. Sample Chapter(s). Chapter 1: Atom, Molecule, and Nanocluster Manipulations for Nanostructure Fabrication Using Scanning Probe Microscopy (3,320 KB). Contents: Atomic Force Microscope Lithography (N Kawasegi et al.); Nanowire Assembly and Integration (Z Gu & D H Gracias); Extreme Ultraviolet Lithography (H Kinoshita); Electron Projection Lithography (T Miura et al.); Electron Beam Direct Writing (K Yamazaki); Electron Beam Induced Deposition (K Mitsuishi); Focused Ion Beams and Interaction with Solids (T Ishitani et al.); Nanofabrication of Nanoelectromechanical Systems (NEMS): Emerging Techniques (K L Ekinci & J Brugger); and other papers. Readership: Researchers, professionals, and graduate students in the fields of nanoengineering and nanoscience.
Author: Ampere A. Tseng
Publisher: Springer Science & Business Media
ISBN: 1441998993
Category : Technology & Engineering
Languages : en
Pages : 468
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Book Description
Nanofabrication is critical to the realization of potential benefits in the field of electronics, bioengineering and material science. One enabling technology in nanofabrication is Tip-Based Nanofabrication, which makes use of functionalized micro-cantilevers with nanoscale tips. Tip-Based Nanofabrication: Fundamentals and Applications discusses the development of cantilevered nanotips and how they evolved from scanning probe microscopy and are able to manipulate environments at nanoscale on substrates generating different nanoscale patterns and structures. Also covered are the advantages of ultra-high resolution capability, how to use tip based nanofabrication technology as a tool in the manufacturing of nanoscale structures, single-probe tip technologies, multiple-probe tip methodology, 3-D modeling using tip based nanofabrication and the latest in imaging technology.
Author: Mario Lanza
Publisher: John Wiley & Sons
ISBN: 3527699791
Category : Science
Languages : en
Pages : 497
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Book Description
The first book to summarize the applications of CAFM as the most important method in the study of electronic properties of materials and devices at the nanoscale. To provide a global perspective, the chapters are written by leading researchers and application scientists from all over the world and cover novel strategies, configurations and setups where new information will be obtained with the help of CAFM. With its substantial content and logical structure, this is a valuable reference for researchers working with CAFM or planning to use it in their own fields of research.
Author: Ampere A Tseng
Publisher: World Scientific
ISBN: 9814476773
Category : Technology & Engineering
Languages : en
Pages : 583
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Book Description
Many of the devices and systems used in modern industry are becoming progressively smaller and have reached the nanoscale domain. Nanofabrication aims at building nanoscale structures, which can act as components, devices, or systems, in large quantities at potentially low cost. Nanofabrication is vital to all nanotechnology fields, especially for the realization of nanotechnology that involves the traditional areas across engineering and science. This is the first book solely dedicated to the manufacturing technology in nanoscale structures, devices, and systems and is designed to satisfy the growing demands of researchers, professionals, and graduate students.Both conventional and non-conventional fabrication technologies are introduced with emphasis on multidisciplinary principles, methodologies, and practical applications. While conventional technologies consider the emerging techniques developed for next generation lithography, non-conventional techniques include scanning probe microscopy lithography, self-assembly, and imprint lithography, as well as techniques specifically developed for making carbon tubes and molecular circuits and devices.
Author: Shuo Zheng
Publisher:
ISBN:
Category : Atomic force microscopy
Languages : en
Pages : 62
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Book Description
This thesis focuses on nanofabrication and its applications in the area related to atomic force microscope (AFM) probes and a novel way of constructing the bi-layer system for liftoff. The contribution of this thesis is therefore the introduction and characterization of nanotechnologies and their applications in fabricating the AFM probes (Part 1). Moreover, an introduction of the liftoff and the exhibition of the experimental results of our technique will be provided (Part 2). The first part of this thesis consists of four chapters. The first chapter brings a brief introduction and an overview of nanotechnologies and nanofabrication to give a big picture of what they are. The second chapter introduces three major nanofabrication techniques that are crucial in manufacturing the AFM tip. Those are evaporation, wet etch and dry etch. The basic concepts, working mechanism and important parameters of these three techniques are discussed. The third chapter presents detail of the AFM probe with its history, principle of operation, fabrication method and carbon nanotube tips. After equipping the knowledge provided in the first three chapters, fabricating a particular direct positioning AFM probe will be discussed next. Therefore, chapter 4 introduces the details of our method to batch fabricate the direct positioning AFM probe step-by-step. Parameters and goals of each step are presented with schematics and SEM images from our results. The second part of this thesis consists of four chapters as well. The first chapter introduces the essentials of a liftoff process and current popular methods to create moderate undercuts. The second chapter describes the experimental process of our technique to acquire controllable undercut by tuning the ratio of ZEP/PMMA mixture. The third part exhibits the results of contrast curves for various mixtures, undercut profiles and Chromium line arrays produced by our liftoff process.
Author: Tomasz Tański
Publisher: BoD – Books on Demand
ISBN: 1789851696
Category : Science
Languages : en
Pages : 116
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Book Description
Atomic force microscopy is a surface analytical technique used in air, liquids or a vacuum to generate very high-resolution topographic images of a surface, down to atomic resolution. This book is not only for students but also for professional engineers who are working in the industry as well as specialists. This book aims to provide the reader with a comprehensive overview of the new trends, research results and development of atomic force microscopy. The chapters for this book have been written by respected and well-known researchers and specialists from different countries. We hope that after studying this book, you will have objective knowledge about the possible uses of atomic force microscopy in many scientific aspects of our civilisation.
