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52 results on '"Nanolithography -- Research"'

1. Simulation and design of nanocircuits with resonant tunneling devices

Author

Wang, Janet Meiling, Sukhwani, Bharat, Padmanabhan, Uday, Ma, Dongsheng, and Sinha, Kartik

Subjects
Nanolithography -- Methods, Nanolithography -- Research, Computer-generated environments -- Usage, Computer simulation -- Usage, Nanotechnology -- Analysis, Nanotechnology -- Design and construction, Circuit components -- Usage, Semiconductor device, Business, Computers and office automation industries, Electronics, Electronics and electrical industries
Abstract

New nanotechnology-based devices are being researched to replace CMOS devices in order to overcome CMOS technology's scaling limitations. However, many such devices exhibit nonmonotonic 1-V characteristics and uncertain properties which lead to the negative differential resistance (NDR) problem and the chaotic performance. This paper proposes two new circuit simulation approaches that can effectively simulate nanotechnology devices with uncertain input sources and negative differential resistance problem. A new tool called NanoSim-RTD is developed based on the proposed new simulation techniques. The experimental results show a speedup of 1.48-37.1 times when compared with existing simulators. Further, this paper demonstrates a new way to design delay-insensitive nanocircuits, and the designs can be verified by using NanoSim-RTD. Index Terms--Asynchronous, bias-based, resonant tunneling devices, stepwise equivalent conductance.

Published
2007

2. Quantitative multispectral biosensing and 1D imaging using quasi-3D plasmonic crystals

Author

Stewart, Matthew E., Mack, Nathan H., Malyarchuk, Viktor, Soares, Julio A.N.T., Lee, Tae-Woo, Gray, Stephen K., Nuzzo, Ralph G., and Rogers, John A.

Subjects
Chemical senses -- Research, Nanolithography -- Research, Plasmons (Physics) -- Research, Science and technology
Abstract

We developed a class of quasi-3D plasmonic crystal that consists of multilayered, regular arrays of subwavelength metal nanostructures. The complex, highly sensitive structure of the optical transmission spectra of these crystals makes them especially well suited for sensing applications. Coupled with quantitative electrodynamics modeling of their optical response, they enable full multiwavelength spectroscopic detection of molecular binding events with sensitivities that correspond to small fractions of a monolayer. The high degree of spatial uniformity of the crystals, formed by a soft nanoimprint technique, provides the ability to image binding events over large areas with micrometer spatial resolution. These features, together with compact form factors, low-cost fabrication procedures, simple readout apparatus, and ability for direct integration into microfluidic networks and arrays, suggest promise for these devices in label-free bioanalytical detection systems. chemical sensing | nanoimprint lithography | surface plasmons | optical transmission spectra

Published
2006

3. Synergistic effect of compatibilizer in organo-modified layered silicate reinforced butadiene rubber nanocomposites

Author

Hwang, Wei-Gwo, Wei, Kung-Hwa, and Wu, Chang-Mou

Subjects
Nanolithography -- Research, Engineering and manufacturing industries, Science and technology, Research
Abstract

We have prepared nanocomposites of intercalated and exfoliated organosilicates in butadiene rubber (BR) by using a two-stage melt blending process. We used X-ray diffraction and transmission electron microscopy to examine, respectively, the intergallery spacing of the organosilicates and their dispersion in the BR. Marked enhancements in the mechanical and thermal properties of BR occurred when it incorporated, INTRODUCTION Polymer nanocomposites based on the reinforcing of silicate layers derived from montmorillonite and thermoplastic or thermosetting polymers have been developed extensively over the past decade [1-5]. These materials have [...]

Published
2006

4. Influence of substrate temperature on growth of nanocrystalline silicon carbide by reactive magnetron sputtering

Author

Vickridge, I., Colder, H., Rizk, R., Morakes, M., and Vicens, J.

Subjects
Silicon carbide -- Structure, Nanolithography -- Research, Chemistry, Physical and theoretical -- Research, Physics
Abstract

The structural, morphological and compositional studies of hydrogenated nanocrystalline silicon carbide (nc-SiC) layers, obtained with a relatively high growth rate through mixing the hydrogen of the plasma with 20% of argon, are reported. These features were found to be consistent with the optical properties of the layers, especially the evolutions of both optical gap and static refractive index.

Published
2005

5. Self-assembly of periodic ZnO/C multilayers on Zn nanowires

Author

Kwong, K.W. and Quan Li

Subjects
Nanolithography -- Research, Zinc oxide -- Electric properties, Thin films, Multilayered -- Electric properties, Physics
Abstract

A systematic study is carried out to locate the critical parameters in the gas phase reaction experiments, which lead to the self-assembly of ZnO/C multilayers outside the Zn nanowires. The analysis shows that the self-assembled multilayer (SAM) formation favors nanowires with polycrystalline native oxide sheath, elevated temperature and CO2 as the reaction gas.

Published
2005

6. Mechanical approach to nanomachining of silicon using oxide characteristics based on Tribo Nanolithography (TNL) in KOH solution

Author

Park, Jeong Woo, Kawasegi, Noritaka, Morita, Noboru, and Lee, Deug Woo

Subjects
Nanolithography -- Research, Production engineering -- Research, Engineering and manufacturing industries, Science and technology
Abstract

The TNL (Tribo Nanolithography) method in aqueous solution uses the atomic force microscopy as a machining tool for the nanoscale fabrication of silicon. A specially designed cantilever with a diamond tip allows the formation of oxide patterns easily by a simple scratching process. A rectangular structure with a slope can be fabricated by a process in which a thin oxide layer rapidly forms in the substrate at the diamond-tip sample junction along the scanning path of the tip, and, simultaneously, the area uncovered with the oxide layer is being etched. Etching in KOH and HF is conducted to verify corrosion characteristics of oxide.

Published
2004

7. Design, fabrication, and characterization of thermally actuated probe arrays for Dip Pen Nanolithography

Author

Bullen, David, Wang, Xuefeng, Zou, Jun, Chung, Sung-Wook, Mirkin, Chad A., and Liu, Chang

Subjects
Miniature electronic equipment -- Research, Microelectronics -- Research, Nanolithography -- Research, Engineering and manufacturing industries, Science and technology
Abstract

In Dip Pen Nanolithography (DPN), arbitrary nanoscale chemical patterns can be created by the diffusion of chemicals from the tip of an atomic force microscope (AFM) probe to a surface. This paper describes the design, optimization, fabrication, and testing of an actuated multi-probe DPN array. The probe array consists of 10 thermal bimorph active probes made of silicon nitride and gold. The probes are 300 [micro]m long and the tips are spaced 100 [micro]m apart. An actuation current of 10 mA produces a tip deflection of 8 [micro]m, which is enough to remove individual tips from the surface independent of the adjacent probes. An analytical probe model is presented and used to optimize the design against several possible failure modes. The array is demonstrated by using it to simultaneously write 10 unique octadecanethiol patterns on a gold surface. Pattern linewidth as small as 80 nm has been created at a maximum write speed of 20 [micro]m/sec. By writing multiple, distinctly different patterns in parallel, this device provides a significant improvement in throughput and flexibility over conventional AFM probes in the DPN process. [1137] Index Terms--Atomic force microscope, Dip Pen Nanolithography (DPN), nanolithography, simulation, thermal actuator.

Published
2004

8. Dip-pen nanolithography in Tapping Mode

Author

Agarwal, Gunjan, Sowards, Laura A., Naik, Rajesh R., and Stone, Morley O.

Subjects
Nanolithography -- Research, Peptides -- Properties, Atomic force microscopy -- Usage, Chemistry
Abstract

The deposition of a short synthetic peptide by dip-pen nanolithography is presented. The Tapping Mode of atomic force microscope is used for this purpose.

Published
2003

9. Transport rates vary with deposition time in dip-pen nanolithography

Subjects
Nanolithography -- Research, Gold compounds -- Atomic properties, Atomic force microscopy -- Usage, Chemicals, plastics and rubber industries
Abstract

Results from extended time measurements of the two most common ink-substrate combinations used in dip-pen nanolithography (DPN), 16-mercaptohexadeconoic acid (MHDA) and 1-octadecanethiol (ODT) on Au surfaces, using are presented. Studies indicate that measurements with short dwell times are insufficient to determine transport rates for larger features.

Published
2005

10. Direct patterning of modified oligonucleotides on metals and insulators by dip-pen nanolithography. (Reports)

Author

Demers, L.M., Ginger, D.S., Park, S.-J., Li, Z., Chung, S.-W., and Mirkin, C.A.

Subjects
Nanolithography -- Research, Materials science -- Research, Science and technology, Research
Abstract

The use of direct-write dip-pen nanolithography (DPN) to generate covalently anchored, nanoscale patterns of oligonucleotides on both metallic and insulating substrates is described. Modification of DNA with hexanethiol groups allowed patterning on gold, and oligonucleotides bearing 5'-terminal acrylamide groups could be patterned on derivatized silica. Feature sizes ranging from many micrometers to less than 100 nanometers were achieved, and the resulting patterns exhibited the sequence-specific binding properties of the DNA from which they were composed. The patterns can be used to direct the assembly of individual oligonucleotide-modified particles on a surface, and the deposition of multiple DNA sequences in a single array is demonstrated., Direct-write DPN (1-3) involves the transfer of an ink directly from a coated atomic force microscope (AFM) tip to a substrate of interest. The ability to directly pattern oligonucleotides using [...]

Published
2002

11. Molecular-scale lithography

Author

Arnaud, Celia Henry

Subjects
Central processing units -- Production processes, Microprocessors -- Production processes, Block copolymers -- Research, Nanolithography -- Research, Transistors -- Production processes, Microprocessor, Microprocessor upgrade, Chemicals, plastics and rubber industries, Engineering and manufacturing industries
Abstract

Block copolymer lithography is being developed as an approach to build transistors smaller than 10 nanometers. This approach uses spontaneous self-assembly processes to create arrays of molecular-size features dictated by the chemistry of block copolymers.

Published
2008

12. Pinning at template feature edges for step and flash imprint lithography

Author

Chauhan, Siddharth, Palmieri, Frank, Bonnecaze, Roger T., and Willson, Grant

Subjects
Nanolithography -- Research, Wetting -- Analysis, Physics
Abstract

The article studies the theory of the pinning of an air-liquid interface at the feature edge of a template during imprint step of step and flash imprint lithography (SFIL). Results suggest several parameters like residual layer thickness, wettability of the feature edge, applied force on the template, and the radius of curvature of the feature edge, to study the influence of pinning.

Published
2009

13. Nanoscale molecular transport: the case of dip-pen nanolithography

Author

Giam, Louise R., Yuhuang Wang, and Mirkin, Chad A.

Subjects
Atomic force microscopy -- Usage, Ink-jet printers -- Usage, Nanolithography -- Research, Thiols -- Chemical properties, Ink jet printer, Chemicals, plastics and rubber industries
Published
2009

14. New Applied Crystallography Data Have Been Reported by M. Pfluger and Co-Authors (Distortion Analysis of Crystalline and Locally Quasicrystalline 2d Photonic Structures With Grazing-incidence Small-angle X-ray Scattering)

Subjects
Materials research, Photonics -- Research, Nanolithography -- Research, Crystallography -- Methods, Broadband, Editors, Health, Science and technology
Abstract

2019 MAY 17 (NewsRx) -- By a News Reporter-Staff News Editor at Science Letter -- A new study on Applied Crystallography is now available. According to news reporting originating from [...]

Published
2019

15. Advancing decal-transfer lithography with a reusable PDMS-coated nanoscale stamp

Author

Mihee Kim and Youn Sang Kim

Subjects
Nanolithography -- Research, Nanotechnology -- Usage, Dielectric films -- Structure, Thin films -- Structure, Chemistry
Abstract

A nanoscale decal-transfer lithography (DTL) is described in which the conventional poly(dimethylsiloxane) (PDMS) stamp is alternated with a reusable PDMS-coated nanoscale stamp. This strategy is expected to control the thickness of the transferred PDMS layer by using different types of PDMS.

Published
2007

16. Nanografting: Modeling and simulation

Author

Ryu, Seol and Schatz, George C.

Subjects
Nanolithography -- Research, Monomolecular films -- Research, Atomic force microscopy -- Usage, Chemistry
Abstract

A simple phenomenological model of the nanografting process with an emphasis on the formation of binary self-assembled monolayers is presented. The simulations demonstrate that the faster the AFM tip displaces adsorbed molecules in a monolayer, the more heterogeneous are the monolayers formed behind the tip, as it allows space and time for the formation of phase-segregated domains.

Published
2006

17. A nanoengineering approach to regulate the lateral heterogeneity of self-assembled monolayers

Author

Jing-jiang Yu, Yih Horng Tan, Xue Li, Pao-Kuang Kuo, and Gang-yu Liu

Subjects
Monomolecular films -- Chemical properties, Nanolithography -- Research, Heterogeneous catalysis, Chemistry
Abstract

A scanning probe lithography method known as nanografting in conjunction with knowledge of self-assembly chemistry was used to demonstrate the regulation of the heterogeneity of self-assembled monolayers (SAMs). By varying fabrication parameters, such as shaving speed, and reaction conditions, such as concentration and ratio of the components, the lateral heterogeneity could be adjusted ranging from near molecular mixing to segregated domains of several to tens of nanometers.

Published
2006

18. Kinetics of atomic force microscope-based scanned probe oxidation on an octadecylated silicon(111) surface

Author

Menglong Yang, Zhikun Zheng, Yaqing Liu, and Bailin Zhang

Subjects
Silicon compounds -- Optical properties, Silicon compounds -- Structure, Atomic force microscopy -- Usage, Nanolithography -- Research, Chemicals, plastics and rubber industries
Abstract

Atomic force microscope-based scanned probe oxidation (SPO) nanolithography is carried out on an octadecyl-terminated Si(111) surface to create dot-array patterns under ambient conditions in contact mode. The kinetics investigation indicates that this SPO involves three stages.

Published
2006

20. Direct fabrication and harvesting of monodisperse, shape-specific nanobiometers

Author

Rolland, Jason P., Maynor, Benjamin W., Euliss, Larken E., Exner, Ansley E., Denison, Ginger M., and DeSimone, Joseph M.

Subjects
Nanolithography -- Research, Biometric research, Chemistry
Abstract

A general technique, Particle Replication In Nonwetting Templates (PRINT), for the fabrication of monodisperse particles with simultaneous control over structure and function is reported. The ability to independently control particle characteristics, such as size, shape, composition, cargo, and surface structure, makes PRINT uniquely suited to fabricate particles for many applications.

Published
2005

21. Writing self-assembled monolayers with Cs: Optimization of atomic nanolithography imaging self-assembled monolayers on gold substrates

Author

O'Dwyer, C., Gay, B., Lesegno, Viaris De, and Weiner, J.

Subjects
Gold compounds -- Properties, Gold compounds -- Spectra, Nanolithography -- Research, Monomolecular films -- Properties, Monomolecular films -- Spectra, Atomic force microscopy -- Analysis, Physics
Abstract

The results of a study into factors controlling the quality of nanolithographic imaging. The self-assembled monolayer (SAM) coverage, subsequent postetch pattern definition and minimum feature size all depend on the quality of the Au substrate used in material mask atomic nanolithographic experiments.

Published
2005

22. Patterning phase separation in polymer films with dip-pen nanolithography

Author

Coffey, David C. and Ginger, David S.

Subjects
Surface chemistry -- Research, Nanolithography -- Research, Monomolecular films -- Research, Chemistry
Abstract

The manner in which Dip-Pen Nanolithography (DPN) can be used to study heterogeneous nucleation in thin films is described. DPN-generated surface templates offer a powerful means for controlling phase-separation and pattern formation in thin films containing conjugated polymers, without the need for masks, stamps or extreme UV light sources.

Published
2005

23. New approaches to nanofabrication: Molding, printing, and other techniques

Author

Gates, Byron D., Whitesides, George M., Qiaobing Xu, Stewart, Michael, Ryan, Declan, and Wilson, C. Grant

Subjects
Nanolithography -- Research, Chemistry
Abstract

The research published in nanofabrication during the interval from 1999 to mid-2004 is discussed and specific techniques capable of patterning a substrate with features less than or equal to 100 nm in both lateral and vertical dimensions are demonstrated. The development of microelectric circuits with < 100-nm-scale features is rapidly proceeding by extensions of existing, conventional photolithographic techniques.

Published
2005

24. Coherent control in nanolithography: Rydberg atoms

Author

Nguyen, Nam A., Dey, Bijoy K., Shapiro, Moshe, and Brumer, Paul

Subjects
Rubidium -- Chemical properties, Nanolithography -- Research, Chemicals, plastics and rubber industries
Abstract

A technique based on coherent control for the optical manipulation of deposition patterns in nanofabrication with neutral atomic beams is described. The theory optical nanolithography with bichromatic fields is then applied to the deposition of rubidium Rydberg atoms on surfaces.

Published
2004

25. Electrochemical design of ultrathin platinum-coated gold nanoparticle monolayer films as a novel nanostructured electrocatalyst for oxygen reduction

Author

Jin, Yongdong, Shen, Yan, and Dong, Shaojan

Subjects
Chemistry, Physical and theoretical -- Research, Nanolithography -- Research, Electrochemistry -- Research, Chemicals, plastics and rubber industries
Abstract

A novel electrochemical strategy to nanoparticle-based catalyst design using the recently developed underpotential deposition (UPD) redox replacement technique is presented. The results demonstrate the ultrathin Pt coating effects efficiently and behaves as the nanostructured monometallic Pt for electrocatalystic oxygen reduction, and shows size-dependent, tunable electrocatalytic ability.

Published
2004

26. Photoluminescence properties of SnO2 nanoparticles synthesized by sol-gel method

Author

Gu, Feng, Wang, Shu Fen, Lii, Meng Kai, Zhou, Guang Jun, and Xu, Dong; Yuan, Duo Rong

Subjects
Chemistry, Physical and theoretical -- Research, Photoluminescence -- Research, Nanolithography -- Research, Chemicals, plastics and rubber industries
Abstract

Nanocrystalline SnO2 particles are synthesized by a simple sol-gel method. The structural and optical properties of these SnO2 particles are investigated using X-ray powder diffraction, transmission electron microscopy, UV- visible absorption, and photoluminescence spectroscopy.

Published
2004

27. Characterization of gold nanoparticles synthesized using sucrose by seeding formation in the solid phase and seeding growth in aqueous solution

Author

Zhi-mei Qi, Hao-shen Zhou, Matsuda, Naoki, Honma, Itaru, Shimada, Kayori, Takatsu, Akiko, and Kato, Kenji

Subjects
Chemistry, Physical and theoretical -- Analysis, Drill (Agricultural implement) -- Analysis, Gold compounds -- Research, Gold compounds -- Properties, Nanolithography -- Research, Nanolithography -- Properties, Chemicals, plastics and rubber industries
Abstract

A novel chemical method has been developed for synthesizing Au nanoparticles using sucrose as the raw material based on gold seeding formation in the solid phase and seeding growth in aqueous solution. The results indicate that the synthesized gold nanoparticles can be used to self-assemble monolayers and to fabricate biochemical sensors based on surface plasmon resonance effect.

Published
2004

28. Yields and migration distances of reducing equivalents in the radiolysis of silica nanoparticles

Author

Milosavljevic, Bratoljub H., Pimblott, Simon M., and Meisel, Dan

Subjects
Chemistry, Physical and theoretical -- Research, Nanolithography -- Research, Silica -- Research, Radiolysis -- Analysis, Chemicals, plastics and rubber industries
Abstract

The pulse radiolysis techniques are used to study the reduction of methyl viologen ions, MV(super +2), absorbed on SiO2 nanoparticles in N2O saturated colloidal suspensions. The efficiency of scavenging the electron decreases with increasing particle size, due to the increased fraction of charge recombination and trapping that occurs in the large particles, and it is estimated that no electrons will reach the surface of particles larger than 30 nm in diameter.

Published
2004

29. Enzymatic nanolithography of a self-assembled oligonucleotide monolayer on gold

Author

Jinho Hyun, Kim, Jeonghan, Craig, Stephen L., and Chikoti, Ashutosh

Subjects
Monomolecular films -- Research, Biochemistry -- Research, Nucleotides -- Research, Nanolithography -- Research, Chemistry
Abstract

Without the constraint of using an enzyme, which is tethered to an Atomic Force Microscope (AFM), a proof-of-principle of an enzyme-catalyzed reaction on an immobilized substrate, a self-assembled monolayer, that present a terminal oligonucleotide, is presented.

Published
2004

30. Wolf rearrangement of 2-Diazo-1(2H)-Napthalenone induced by nonresonant two-photon absorption of NIR radiation

Author

Urdabayev, Nurtay K and Popik, Vladimir V.

Subjects
Carbonyl compounds -- Research, Azo compounds -- Research, Photons -- Research, Rearrangements (Chemistry) -- Research, Nanolithography -- Research, Organic photochemistry, Chemistry
Abstract

The photoactive components of common Novolac-based positive photoresists are derivatives of 2-diazo-1(2H)-Napthalenone. The UV radiation is induced on the Wolf rearrangement of alpha-diazocarbonyl compounds and is analyzed that the same excitation energy can be achieved by simultaneous absorbance of two red/NIR photons.

Published
2004

31. Functionalized nanoparticle films with rectifying conduction properties

Author

Reda, Torsten, Collings, Anthony F., Barton, Chris, and Lukins, Philip

Subjects
Chemistry, Physical and theoretical -- Research, Molecular structure -- Research, Molecular structure -- Electric properties, Electron donor-acceptor complexes -- Research, Nanolithography -- Research, Chemicals, plastics and rubber industries
Abstract

A study is conducted to show how heteromolecular interfaces between electron donors and acceptors of respectively functionalized nanoparticles form a rectifier. It is suggested that electronic structures for molecular rectifiers containing electron acceptor and donor groups might be assembled alternatively through appropriate nanoscale architectures using sequential deposition of functionalized nanoparticles.

Published
2003

32. Nanolithography using molecular optics

Author

Gordon, Robert J., Seideman, Tamar, Schroeder, Andreas W., and Zhu, Langchi

Subjects
Laser beams -- Research, Optics -- Research, Nanolithography -- Research, Physics
Abstract

Intense laser based molecular optics can be used as a route to nanoscale processing of substrates with unique advantages. A narrower and longer features could be created with high power lasers with a grazing angle of incidence between the laser and molecular beams to create wires 100 mu m long with 100 W continuous wave laser.

Published
2003

33. Fabrication of assembled virus nanostructure on templates of chemoselective linkers formed by scanning probe nanolithography

Author

Ching Li Cheung, Julio A. Camarero, Woods, Bruce W., Tianwei Lin, Johnson, John E., and Yoreo, Jim J. De

Subjects
Chemical reactions -- Observations, Chemical compounds -- Research, Nanolithography -- Research, Chemistry
Abstract

A multistep approach to biomolecular assembly is presented, which combines scanning probe nanolithography (SPN) with chemoselective protein-to-surface linkers to create nanometric chemical templates for fabricating virus arrays. The assembly of these arrays introduces unique target chemical groups on the virus surface and design a chemoselective linker and reaction scheme to covalently bind the virus onto a patterned chemical template created by SPN.

Published
2003

34. Comparison between dynamic plowing lithography and nanoindentation methods

Author

Cappella, B. and Sturm, H.

Subjects
Atomic force microscopy -- Usage, Nanolithography -- Research, Physics
Abstract

Two lithographic methods, namely dynamic plowing lithography (DPL) and force displacement curves (FDI) are compared. DPL is faster and more practical than FDI, but DPL is the creation of undesirable remarkably large border walls surrounding the lithographed structures.

Published
2002

35. Nanosphere lithography: A versatile nanofabrication tool for studies of size-dependent nanoparticle optics

Author

Haynes, Christy L. and Van Duyne, Richard P.

Subjects
Raman spectroscopy -- Usage, Nanolithography -- Research, Chemistry, Physical and theoretical -- Research, Chemicals, plastics and rubber industries
Abstract

The multitude of nanoparticle structural motifs accessible using nanosphere lithography (NSL) is demonstrated. The possible applications of these nanostructures as data storage media, components for future nanoelectronic systems, and substrates for surface-enhanced Raman spectroscopy are discussed.

Published
2001

36. Chip chemicals

Subjects
Nanolithography -- Research, Integrated circuits -- Production processes -- Technology application, Semiconductor chips -- Production processes -- Technology application, Integrated circuit fabrication -- Methods -- Equipment and supplies -- Technology application, Standard IC, Integrated circuit fabrication, Technology application, Education, Science and technology
Abstract

Scientists at the Georgia Institute of Technology (Georgia Tech) have developed a nanolithographic technique that can produce high-resolution patterns of at least three different chemicals on a single chip at [...]

Published
2010

37. UCLA Researchers Create Microscale Alphabet Soup; LithoParticles could be used to develop tiny pumps and for medical applications

Subjects
University of California, Los Angeles -- Research, Alphabets -- Research, Microchemistry -- Research, Nanolithography -- Research
Abstract

UCLA scientists have created billions of fluorescent microscale "LithoParticles" shaped like alphabet letters in a liquid solution. The letters demonstrate "the power of a new method, at the microscale, to […]

Published
2007

38. Nanowires eyed for imprint litho

Author

Johnson, R. Colin

Subjects
Market trend/market analysis, Nanolithography -- Research, Nanolithography -- Forecasts and trends, Nanotechnology -- Usage, Nanotechnology -- Forecasts and trends
Published
2007

39. Going below 30 nm

Subjects
Computer industry, Microcomputer industry, Semiconductor industry, International Business Machines Corp. -- Alliances and partnerships, International Business Machines Corp. -- Trade shows, International Business Machines Corp. -- Research, Computer industry -- Alliances and partnerships, Computer industry -- Trade shows, Computer industry -- Research, Semiconductor industry -- Alliances and partnerships, Semiconductor industry -- Trade shows, Semiconductor industry -- Research, Nanolithography -- Research
Abstract

IBM Corp. and JSR Micro Inc. will go to this week's SPIE Microlithography Conference to present work on sub-30-nanometer lines and spaces created with immersion lithography. Using a 193-nm interferometer […]

Published
2006

40. New lithography technique was used to pattern 15000 identical skylines

Subjects
Nanolithography -- Research, Photonics -- Research, Optoelectronics -- Analysis, Business, Chemicals, plastics and rubber industries, High technology industry, Metals, metalworking and machinery industries
Abstract

Fabrication techniques for replicating nanoscale structures are increasingly becoming dependent on micro- and nanofabrication tools, which are expensive in today's world. Hence, achieving rapid, cost-effective, and large-scale nanorfabrication is an [...]

Published
2010

41. Controlled growth of gold nanoparticles on self-assembled monolayers

Subjects
Nanolithography -- Research, Nanoparticles -- Analysis, Monomolecular films -- Analysis, Business, Chemicals, plastics and rubber industries, High technology industry, Metals, metalworking and machinery industries
Abstract

Gold nanoparticles are grabbing increased attention in the last few years due to their optical response in biological assays, detection, labeling, and sensing. In this regard, the important issue of [...]

Published
2010

42. Ultraviolet nanoimprint litography reduces pattern defect levels

Author

Lindner, Paul

Subjects
Nanolithography -- Research, Business, Engineering and manufacturing industries, Metals, metalworking and machinery industries, Research
Abstract

According to the 2007 report of the International Technology Roadmap for Semiconductors, the future reduction in manufactured pitch size will require the application of techniques other than optical litography techniques. [...]

Published
2009

43. Maskless lithography

Author

Loeschner, Hans

Subjects
Nanolithography -- Research, Nanotechnology -- Research, Business, Engineering and manufacturing industries, Metals, metalworking and machinery industries, Research
Abstract

In recent times, nanotechnology has been found to offer a number of advantages to new products developed using rapid prototyping and manufacturing. Essentially, the performance of standard materials employed for [...]

Published
2009

44. 'Mini Lisa': Georgia Tech researchers create world's tiniest da Vinci reproduction

Author

O'Carroll, Eoin

Subjects
Mona Lisa (Painting), Mini Lisa (Painting), Nanolithography -- Research, Painters -- Works, General interest, News, opinion and commentary, Georgia Institute of Technology -- Research
Abstract

Byline: Eoin O'Carroll Most people who visit the Mona Lisa at the Louvre are surprised at how small it is. Leonardo da Vinci's iconic painting measures just 30 inches by [...]

Published
2013

45. Albany NanoTech re-INVENT-ing itself with $600M

Author

D'Errico, Richard A.

Subjects
Advanced Micro Devices Inc. -- Alliances and partnerships, Advanced Micro Devices Inc. -- Investments, Infineon Technologies -- Alliances and partnerships, Infineon Technologies -- Investments, International Business Machines Corp. -- Alliances and partnerships, International Business Machines Corp. -- Investments, Micron Technology Inc. -- Alliances and partnerships, Micron Technology Inc. -- Investments, Nanolithography -- Finance, Nanolithography -- Research, Universities and colleges -- United States, Universities and colleges -- New York, Universities and colleges -- Alliances and partnerships, Semiconductor industry -- Alliances and partnerships, Semiconductor industry -- Investments, Optical instruments industry -- Alliances and partnerships, Optical instruments industry -- Investments, Consortia -- Organization formation, Computer industry -- Alliances and partnerships, Computer industry -- Investments, Semiconductor industry, Consortium, Computer industry, Microcomputer industry, Company financing, Company investment, Business, Business, regional
Abstract

IBM, Advanced Micro Devices, Infineon Technologies, and Micron Technology, and College of Nanoscale Science and Engineering of the state university of Albany, together have developed a consortium, named, International Venture for Nanolithography (INVENT). The consortium has received a total amount of $600 millions for focusing its research on lithography.

Published
2005

46. H.P. to Report an Advance in Adaptable Circuitry

Author

Markoff, John

Subjects
Integrated circuit design, Circuit designer, Microcomputer industry, Computer industry, Hewlett-Packard Co. -- Product development -- Research -- Innovations, Circuit design -- Innovations -- Research, Nanolithography -- Research, Computer industry -- Product development -- Research -- Innovations
Abstract

Hewlett-Packard researchers have developed a novel way to create flexible electronic circuits that could make it routine by the end of the decade to modify and upgrade the circuitry in […]

Published
2007

47. I.B.M. Researchers Find a Way To Keep Moore's Law on Pace

Author

Markoff, John

Subjects
Integrated circuit fabrication, Moore's Law, Microcomputer industry, Computer industry, International Business Machines Corp. -- Research -- Product development, Advanced materials -- Research -- Product development, Nanolithography -- Research, Integrated circuit fabrication -- Research, Computer industry -- Research -- Product development, Moore's Law -- Research
Abstract

I.B.M. researchers plan to describe an advance in chip-making on Monday that could pave the way for new generations of superchips. The development, which comes from materials research in the […]

Published
2006

48. Write, read, erase, again and again

Author

Jacoby, Mitch

Subjects
Lithography -- Innovations, Nanolithography -- Research, Chemicals, plastics and rubber industries, Engineering and manufacturing industries
Abstract

Chemists are trying to devise a method for preparing erasable nanometer sized patterns. A new lithography method can be used to prepare nanoscale metal patterns that can be erased and redrawn repeatedly.

Published
2006

49. 'Electro Pen' may impact developing nanotechnologies

Subjects
Nanolithography -- Research, Nanotechnology -- Research
Abstract

A new chemical writing technique that can create lines of 'ink' only a few nanometers wide has been developed by scientists at the US Dept. of Energy's Brookhaven National Lab. […]

Published
2005

50. 3-D chemistry builds complex micro-structures: try it for complex structures that would be difficult to build layer-by-layer with 2-D lithographic processes

Author

Teresko, John

Subjects
Georgia Institute of Technology -- Officials and employees, Nanolithography -- Research, Nanolithography -- Marketing, Nanolithography -- Usage, Integrated circuit fabrication -- Forecasts and trends, Company marketing practices, Market trend/market analysis, Integrated circuit fabrication
Abstract

"WE BELIEVE THIS TECHNIQUE PROVIDES a real competitive advantage for making complicated 3-D microstructures." That's Georgia Institute of Technology Researcher Seth Marder (at the left) describing what he terms "a […]

Published
2004

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