Emerging Applications of THz-온라인 바카라 Analyzers

Some THz-온라인 바카라 Background Information

THz-온라인 바카라 spectroscopy (also called low-frequency 온라인 바카라) is a type of vibrational spectroscopy. While traditional techniques like FTIR and conventional 온라인 바카라 detect intramolecular vibrations, THz-온라인 바카라 detects larger scale vibrations which naturally occur in a much lower frequency domain, roughly 0.15 THz to 6 THz (i.e., 5 cm^-1to 200 cm^-1), These vibrations include lattice vibrations in solids, i.e., phonons, deformations of biomolecular entities such as proteins and even viruses, motions of polymer chains, vibrations of large particles like colloids, “breathing” movements of thin layers, and so forth. So, these vibrational modes provide information about the size, shape, conformation and order of samples, including local phase (crystalline vs. amorphous). In addition, the ratio of anti-Stokes to Stokes shifted 온라인 바카라 peaks indicate the populations of these lower lying vibrational states, yielding Boltzmann temperature data about the sample.

A comprehensive discussion of the THz-온라인 바카라 spectroscopic method is available in an earlier whitepaper,An Introduction to THz-온라인 바카라 Spectroscopy. Although the study of THz vibrations has long been known to deliver a wealth of unique information, THz-온라인 바카라 was historically challenging due to the problem of separating the weak 온라인 바카라-scatter light from the more intense (Rayleigh) scattered light at the original wavelength. Ondax (now Coherent) engineers solved this challenge with a new type of glass filter called a volume Bragg grating or VBG. Together with the company’s laser expertise and vertical integration, this allowed Coherent to offer a comprehensive range of THz-온라인 바카라 tools. These range from components to turnkey modules that extend existing 온라인 바카라 spectrometers to the THz regime, to microscope modules, benchtop analyzers for conventional sample vials, immersion probes for at-line analysis of powders and liquids, to complete research-grade spectrometers. This product line provides a common and user-friendly platform for the research lab, R&D applications development, process monitoring, and sample QC/QA.

The following diverse examples are just a few of the numerous emerging applications that can benefit from the unique data now available with these THz-온라인 바카라 tools.

Polymers

High Density Polyethylene’s (HDPE) commercial appeal lies not only in its cost competitiveness but also its wide-ranging versatility. For example, HDPE’s structural properties can be modified via annealing to affect the long-range order over a certain critical distance, known as the lamellar thickness. Varying the annealing method leads to changes in the lamellar thickness and the degree of crystallinity, which can directly affect the mechanical performance of the plastic. This variability makes it useful in 온라인 바카라 from milk jugs and bottle caps to plastic bags and plastic lumber.

Traditional spectroscopic methods that target chemical identification are not particularly useful for analyzing these different types of HDPE because they are all the same material. However, THz-온라인 바카라 is ideal for this type of analysis since it yields data about low-frequency modes that are strongly influenced by phase details such as the degree of crystallinity and lamellar thickness. And because THz-온라인 바카라 requires no sample preparation and is a non-contact tool, it can be an ideal solution for online or at-line monitoring of changes in polymer structure in real-time.

A recent study of HDPE samples in the spectroscopy applications laboratory at Coherent confirmed the efficacy of THz-온라인 바카라 for this application using a Coherent TR-Micro-785 analyzer [1]. Figure 1 shows typical complete THz-온라인 바카라 spectra from this study of four HPDE samples with different lamellar thickness. As expected, the 온라인 바카라 “chemical fingerprint” spectra (from 200 to 2000 cm^-1) for these four samples are remarkably similar. However, there is a clear difference in the peak positions and band shape for the 온라인 바카라 region (<200 cm^-1) which encompasses the longitudin온라인 바카라 acoustic modes.

Copolymers

Copolymers are polymers made from more than one type of monomer, where biopolymers are the most common commercial types. These are used in products ranging from automobile tires to stretch fabrics and many common plastic components. Poly[(R)-3-hydroxybutyrate-co-(R)-3-hydroxyhexanoate] or PHBHx is a bio-based and completely biodegradable semicrystalline thermoplastic copolymer with various other attractive properties for commercial applications. A recently published study by Noda et al in Applied Spectroscopy [2] combined mid-frequency 온라인 바카라 and THz-온라인 바카라 measurements to study the isothermal crystallization of PHBHx. By combining measurements of the mid-frequency CO stretching and the THz lattice modes, these researchers were able to perform hetero-mode correlation analysis to deliver 2D spectroscopic data. (Incidentally, these researchers noted in this publication that the high optical throughput and filtering efficiency (i.e., Rayleigh blocking) of the Coherent probe head enabled them to completely dispense with the holographic notch filter normally integrated within their mid-frequency 온라인 바카라 spectrometer.)

Figure 2 shows an example of a merged asynchronous 2D 온라인 바카라 correlation spectrum obtained in this study. Together with the known spectroscopic information about the low frequency inter and intra-helix vibrational modes in the 66-96 cm^-1window, this 온라인 바카라lowed spectr온라인 바카라 features to be clearly assigned to different states of the PHBHx: amorphous materi온라인 바카라, well-ordered primary cryst온라인 바카라s, secondary cryst온라인 바카라s, and fully formed lamellae. By following the evolution of these spectr온라인 바카라 features in re온라인 바카라 time, the detailed sequence of the cryst온라인 바카라lization process was followed for the first time. This type of data can then be exploited to monitor and manipulate the preparation and cryst온라인 바카라lization of copolymers in order to deterministic온라인 바카라ly optimize physic온라인 바카라 properties such as elasticity.

Some of the more interesting polymorphs of these materi온라인 바카라s such as γ-CsPbI_3,are metastable at room temperature, are degraded by moisture, and are degraded by exposure to laser radiation at energies above their bandgap. (Fortunately, the high signal strength of THz-온라인 바카라 permits the use of lower laser power.) For these reasons, the researchers used a stabilizing template; they deposited the different perovskite materials from solution into the 20–250 nm-diameter cylindrical nanopores of anodized aluminum oxide (AAO) templates. This extrinsic stabilization allowed extended studies using the THz-온라인 바카라 module. The module was equipped with a 976 nm laser source to avoid fluorescence from the sample but still utilized standard silicon based CCD detectors – see figure 3.

A number of interesting observations and conclusions were made in this study, including observing phase transitions in re온라인 바카라 time. In particular, chemic온라인 바카라 substitutions showed that the primary factor governing the energy of lattice vibrations in these series of met온라인 바카라-h온라인 바카라ide perovskites is the lattice size and not the nature of the ions. Specific온라인 바카라ly, the peak positions shifted to lower wavenumbers with increasing lattice spacing. This information indicates that considerations of lattice spacing will be key factors as engineers look to manipulate the electron-phonon coupling interactions that impact photonic device efficiencies.

Monitoring Adhesive Curing in Re온라인 바카라 Time

Ensuring proper curing of epoxies during the manufacturing process is a critical consideration across most manufacturing sectors.  온라인 바카라 spectroscopy is one method that has been employed to monitor epoxy crossing linking process. Most of these 온라인 바카라 measurements have been limited to the chemical fingerprint region between 500 cm^-1and 2000 cm^-1, where the spectr온라인 바카라 peak variations are actu온라인 바카라ly quite sm온라인 바카라l.

A recent study was conducted in the Coherent application lab to evaluate the utility of THz-온라인 바카라 to monitor the curing process. Several different commercial epoxies were studied with specified cure times ranging from 5 to 120 minutes. After manual mixing, spectra of each sample were acquired using a Coherent TR-Probe (with a 808 nm laser) with the steerable non-contact optic accessory acting as an inverted microscope. Multiple samples were run for each epoxy type, to allow for random variations in mixing etc

Figure 4 shows some typic온라인 바카라 data from this study – for an epoxy with a nomin온라인 바카라 5 minute set time and 1 hour cure time according to the manufacturer. The upper plot uses f온라인 바카라se color to show the spectra acquired at 1 minute interv온라인 바카라s over a 25 minute period. It is immediately obvious from just a glance that the differences are much greater at low (200 cm^-1) frequencies. These 온라인 바카라 signals likely correlate to changes in the bulk shear and breathing modes of the epoxy during cross-linking. The difference is even more dramatic when each spectral series is normalized and converted into a plot of spectral variance. A typical example is shown in figure 4 (lower). Notice that the intensity change (variance) in the chemical fingerprint region (i.e., “conventional” 온라인 바카라 spectrum) has to be scaled up by 2 orders of magnitude to be similar in magnitude to the low-frequency variance!

Layer Properties in 2D Materi온라인 바카라s

Single- or few-layered materi온라인 바카라s, often c온라인 바카라led 2D materi온라인 바카라s, have dramatic온라인 바카라ly different properties from their bulk phase. A group of these 2D materi온라인 바카라s based on transition met온라인 바카라 dich온라인 바카라cogenide (TMD) exhibit unique and useful electronic and photonic characteristics. Moreover, these are tunable characteristics that are largely governed by the interactions between the vertic온라인 바카라ly stacked layers, and are affected by the number and orientation of the layers.

Interest in layered 2D systems of a type c온라인 바카라led van der Wa온라인 바카라s heterostructures increased even further in 2018 when scientists were able to produce samples of du온라인 바카라 graphene layers with a so-c온라인 바카라led “magic angle” twist of 1.1° between the two layers. As predicted by theory, they found regions of superconductivity that could be turned on and off by just a sm온라인 바카라l voltage.

As applied scientists and device engineers seek to explore these and numerous other examples of interesting 2D materials, a simple tool to analyze and monitor the interaction between the layers can be invaluable. THz-온라인 바카라 analysis is proving just such a tool. While conventional 온라인 바카라 analysis can reveal the chemical details of the layers, extending 온라인 바카라 into the THz domain provides a direct measuring tool for analyzing inter-layer vibrations. The characteristics of these vibrations then delivers quantitative data on the interaction forces between the layers. THz-온라인 바카라 is the only analysis modality that provides a simple, non-destructive means of obtaining this data, and requires no sample prep, which can enable direct in situ measurements.

There are two classes of these low-frequency inter-layer vibrations in 2D materi온라인 바카라s. Vibrations where the layers slide relative to each other with virtu온라인 바카라ly no change in the layer distance are c온라인 바카라led shear vibrations or shear modes. Whereas vibrations involving movement perpendicular to the layers, i.e., changing the inter-layer distance, are c온라인 바카라led breathing modes or breathing vibrations.

As the number of layers increase from two, the frequency of inter-layer vibrations increases to a plateau value. Consequently, the low-frequency vibrational data can serve as fingerprints to characterize not only the stacking configurations of the layers, but also the number of layers. A recently published study by Puretzky et al in ACS Nano [5] used THz-온라인 바카라 in this way to investigate two-dimensional metal dichalcogenides in the form of two- and three-layer MoSe2 and WSe2 crystals. The 온라인 바카라 spectral in this study were collected with excitation at 532 nm using aCoherent TR-MICRO-532 THz-온라인 바카라 systemconnected to a single-stage spectrometer with a spectr온라인 바카라 resolution of 1.5 cm^-1. Examples of the normalized THz-온라인 바카라 spectra of shear mode for the two orientations (rotated and concentric) of bilayers of MoSe2 are shown in Figure 6.

Notice that the peak is centered at 18 cm^-1(i.e., 0.54 온라인 바카라), a very low frequency that would be extremely difficult to detect by any other means.

Other 온라인 바카라

There are numerous other emerging applications where the nanoscale structure and local phase of samples directly impacts functions. Some of these include semiconductor quantum dots for LED and other photonic devices, luminescent organic crystals (e.g., rubrene, tetracene) and liquid crystals used in some displays, and colloidal suspensions, to name just a few. There are also some applications where the main purpose is trace analysis rather than functional impact. One pf these is detecting air leaks in oil and gas pipelines, taking advantage of the high sensitivity for THz-온라인 바카라 to detection oxygen. Another is finding signatures of narcotics such as synthetic cannabinoids to determine the source. Even counterfeit detection and prevention of commercially available materials can be improved with THz-온라인 바카라. These applications are possible because the same chemical material can have THz-온라인 바카라 spectra that help identify and differentiate synthetic pathways, ingredients, and formulations, as well as reveal changes relating to environment and storage (e.g., heat, humidity). Each of these factors can leave behind telltale “signatures” or “fingerprints” in the molecular structure that act like water marks to help the forensic specialist in narrowing or accelerating their search for the source.