Direct Process to Prepare Crystallized Freestanding Membranes of Hydroxyapatite Using Sacrificial Layer of Barium-Compounds

Hiroaki Nishikawa; Takafumi Nishii

doi:10.4236/jcpt.2017.72003

Relaxation and phonon bottleneck of 169Tm nuclear spins in TmPO 4 : evidence for the direct process ?

Journal de Physique ◽

10.1051/jphys:0198500460100169900 ◽

1985 ◽

Vol 46 (10) ◽

pp. 1699-1708 ◽

Cited By ~ 5

Author(s):

Y. Roinel ◽

V. Bouffard ◽

J.-F. Jacquinot ◽

C. Fermon ◽

G. Fournier

Keyword(s):

Nuclear Spins ◽

Direct Process ◽

Phonon Bottleneck

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Optical analysis of ink and other contaminants in process waters

TAPPI Journal ◽

10.32964/tj11.8.51 ◽

2012 ◽

Vol 11 (8) ◽

pp. 51-58

Author(s):

ANTTI HAAPALA ◽

MIKA KÖRKKÖ ◽

ELISA KOIVURANTA ◽

JOUKO NIINIMÄKI

Keyword(s):

Optically Active ◽

Process Water ◽

Paper Machine ◽

Optical Analysis ◽

Direct Process ◽

Active Components ◽

Water Contaminants ◽

Dependent Measurement ◽

Measurement Methodology

Analysis methods developed specifically to determine the presence of ink and other optically active components in paper machine white waters or other process effluents are not available. It is generally more interest¬ing to quantify the effect of circulation water contaminants on end products. This study compares optical techniques to quantify the dirt in process water by two methods for test media preparation and measurement: direct process water filtration on a membrane foil and low-grammage sheet formation. The results show that ink content values obtained from various analyses cannot be directly compared because of fundamental issues involving test media preparation and the varied methodologies used to formulate the results, which may be based on different sets of assumptions. The use of brightness, luminosity, and reflectance and the role of scattering measurements as a part of ink content analysis are discussed, along with fine materials retention and measurement media selection. The study concludes with practical tips for case-dependent measurement methodology selection.

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Modeling of Triangular Sacrificial Layer Residue Effect in Nano-Electro-Mechanical Nonvolatile Memory

IEICE Transactions on Electronics ◽

10.1587/transele.e96.c.714 ◽

2013 ◽

Vol E96.C (5) ◽

pp. 714-717

Author(s):

Woo Young CHOI ◽

Min Su HAN ◽

Boram HAN ◽

Dongsun SEO ◽

Il Hwan CHO

Keyword(s):

Nonvolatile Memory ◽

Sacrificial Layer

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Carbon Coating for Electron Beam Testing and Focus Ion Beam Reconfiguration

ISTFA 1996: Conference Proceedings from the 22nd International Symposium for Testing and Failure Analysis ◽

10.31399/asm.cp.istfa1996p0333 ◽

1996 ◽

Author(s):

P. Perdu ◽

G. Perez ◽

M. Dupire ◽

B. Benteo

Keyword(s):

Electron Beam ◽

Sample Preparation ◽

Carbon Coating ◽

Focused Ion Beam ◽

Sacrificial Layer ◽

Ion Beam ◽

Electrical Characterization ◽

Fault Analysis ◽

Voltage Contrast ◽

The Right

Abstract To debug ASIC we likely use accurate tools such as an electron beam tester (Ebeam tester) and a Focused Ion Beam (FIB). Interactions between ions or electrons and the target device build charge up on its upper glassivation layer. This charge up could trigger several problems. With Ebeam testing, it sharply decreases voltage contrast during Image Fault Analysis and hide static voltage contrast. During ASIC reconfiguration with FIB, it could induce damages in the glassivation layer. Sample preparation is getting a key issue and we show how we can deal with it by optimizing carbon coating of the devices. Coating is done by an evaporator. For focused ion beam reconfiguration, we need a very thick coating. Otherwise the coating could be sputtered away due to imaging. This coating is use either to avoid charge-up on glassivated devices or as a sacrificial layer to avoid short circuits on unglassivated devices. For electron beam Testing, we need a very thin coating, we are now using an electrical characterization method with an insitu control system to obtain the right thin thickness. Carbon coating is a very cheap and useful method for sample preparation. It needs to be tuned according to the tool used.

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Silicone Polymers—Celebrating 80 Years of the Direct Process

Macromolecular Rapid Communications ◽

10.1002/marc.202100048 ◽

2021 ◽

Vol 42 (5) ◽

pp. 2100048

Author(s):

Michael A. Brook ◽

Anne L. Skov

Keyword(s):

Direct Process ◽

Silicone Polymers

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High-yield fabrication of perpendicularly magnetised synthetic antiferromagnetic nanodiscs

Nano Research ◽

10.1007/s12274-021-3307-1 ◽

2021 ◽

Author(s):

Emma N. Welbourne ◽

Tarun Vemulkar ◽

Russell P. Cowburn

Keyword(s):

Thin Film ◽

Magnetic Properties ◽

Sacrificial Layer ◽

Nanosphere Lithography ◽

High Yield ◽

Perpendicular Anisotropy ◽

Ion Milling ◽

Lift Off

AbstractSynthetic antiferromagnetic (SAF) particles with perpendicular anisotropy display a number of desirable characteristics for applications in biological and other fluid environments. We present an efficient and effective method for the patterning of ultrathin Ruderman-Kittel-Kasuya-Yoshida coupled, perpendicularly magnetised SAFs using a combination of nanosphere lithography and ion milling. A Ge sacrificial layer is utilised, which provides a clean and simple lift-off process, as well as maintaining the key magnetic properties that are beneficial to target applications. We demonstrate that the method is capable of producing a particularly high yield of well-defined, thin film based nanoparticles.

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A MEMS Fabrication Process with Thermal-Oxide Releasing Barriers and Polysilicon Sacrificial Layers for AlN Lamb-Wave Resonators to Achieve fs·Qm > 3.42 × 1012

Micromachines ◽

10.3390/mi12080892 ◽

2021 ◽

Vol 12 (8) ◽

pp. 892

Author(s):

Jicong Zhao ◽

Zheng Zhu ◽

Haiyan Sun ◽

Shitao Lv ◽

Xingyu Wang ◽

...

Keyword(s):

Resonant Frequency ◽

Lamb Wave ◽

Piezoelectric Layer ◽

Sacrificial Layer ◽

High Quality ◽

Micro Electro Mechanical Systems ◽

Mems Fabrication ◽

Thermal Oxide ◽

Series Resonant ◽

Releasing Process

This paper presents a micro-electro-mechanical systems (MEMS) processing technology for Aluminum Nitride (AlN) Lamb-wave resonators (LWRs). Two LWRs with different frequencies of 402.1 MHz and 2.097 GHz by varying the top interdigitated (IDT) periods were designed and fabricated. To avoid the shortcomings of the uncontrollable etching of inactive areas during the releasing process and to improve the fabrication yield, a thermal oxide layer was employed below the platted polysilicon sacrificial layer, which could define the miniaturized release cavities well. In addition, the bottom Mo electrode that was manufactured had a gentle inclination angle, which could contribute to the growth of the high-quality AlN piezoelectric layer above the Mo layer and effectively prevent the device from breaking. The measured results show that the IDT-floating resonators with 12 μm and 2 μm electrode periods exhibit a motional quality factor (Qm) as high as 4382 and 1633. The series resonant frequency (fs)·Qm values can reach as high as 1.76 × 1012 and 3.42 × 1012, respectively. Furthermore, Al is more suitable as the top IDT material of the AlN LWRs than Au, and can contribute to achieving an excellent electrical performances due to the smaller density, smaller thermo-elastic damping (TED), and larger acoustic impedance difference between Al and AlN.

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PMMA sacrificial layer based reliable debonding of ultra-thin chips after lapping

Microelectronic Engineering ◽

10.1016/j.mee.2021.111588 ◽

2021 ◽

pp. 111588

Author(s):

Yogeenth Kumaresan ◽

Sihang Ma ◽

Ravinder Dahiya

Keyword(s):

Sacrificial Layer

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Exploring the Effect of Virtual Robot Acceleration on Perceived Competitiveness/ Cooperativeness, Animacy, and Intelligence

Proceedings of the Human Factors and Ergonomics Society Annual Meeting ◽

10.1177/1071181320641382 ◽

2020 ◽

Vol 64 (1) ◽

pp. 1595-1599

Author(s):

Jordan Sasser ◽

Fernando Montalvo ◽

Rhyse Bendell ◽

P. A. Hancock ◽

Daniel S. McConnell

Keyword(s):

Virtual Reality ◽

Visual Perception ◽

Social Perception ◽

Virtual Human ◽

Ecological Approach ◽

Direct Process ◽

Perceptual Judgments ◽

Direct Social Perception

Prior research has indicated that perception of acceleration may be a direct process. This direct process may be conceptually linked to the ecological approach to visual perception and a further extension of direct social perception. The present study examines the effects of perception of acceleration in virtual reality on participants’ perceived attributes (perceived intelligence and animacy) of a virtual human-like robot agent and perceived agent competitive/cooperativeness. Perceptual judgments were collected after experiencing one of the five different conditions dependent on the participant’s acceleration: mirrored acceleration, faster acceleration, slowed acceleration, varied acceleration resulting in a win, and varied acceleration resulting in a loss. Participants experienced each condition twice in a counterbalanced fashion. The focus of the experiment was to determine whether different accelerations influenced perceptual judgments of the observers. Results suggest that faster acceleration was perceived as more competitive and slower acceleration was reported as low in animacy and perceived intelligence.

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Laser Patterning a Graphene Layer on a Ceramic Substrate for Sensor Applications

Sensors ◽

10.3390/s20072134 ◽

2020 ◽

Vol 20 (7) ◽

pp. 2134 ◽

Cited By ~ 1

Author(s):

Marcin Lebioda ◽

Ryszard Pawlak ◽

Witold Szymański ◽

Witold Kaczorowski ◽

Agata Jeziorna

Keyword(s):

High Speed ◽

Graphene Layer ◽

Ceramic Substrate ◽

Direct Process ◽

Laser Technology ◽

Sensor Applications ◽

Laser Patterning ◽

Good Shape ◽

Shape Mapping ◽

Sensory Layer

This paper describes a method for patterning the graphene layer and gold electrodes on a ceramic substrate using a Nd:YAG nanosecond fiber laser. The technique enables the processing of both layers and trimming of the sensor parameters. The main aim was to develop a technique for the effective and efficient shaping of both the sensory layer and the metallic electrodes. The laser shaping method is characterized by high speed and very good shape mapping, regardless of the complexity of the processing. Importantly, the technique enables the simultaneous shaping of both the graphene layer and Au electrodes in a direct process that does not require a complex and expensive masking process, and without damaging the ceramic substrate. Our results confirmed the effectiveness of the developed laser technology for shaping a graphene layer and Au electrodes. The ceramic substrate can be used in the construction of various types of sensors operating in a wide temperature range, especially the cryogenic range.

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