Technology Readiness Level Research Articles

ACTIVE, ACTUATED, AND ASSISTIVE: A SCOPING REVIEW OF EXOSKELETONS FOR THE HANDS AND WRISTS

BACKGROUND: Assistive technology is often incorporated into rehabilitation and support for those impacted by upper limb impairments. When powered, these devices provide additional force to the joints of users with muscle weakness. Actuated devices allow dynamic movement compared to splints, therefore improving the ability to complete activities of daily living. However, these devices are not often prescribed and are underrepresented in research and clinical settings. OBJECTIVE: This review examines the current body of literature concerning devices designed to aid the hands and wrists in daily activities. Focusing on active, powered, and actuated devices, to gain a clearer understanding of the current limitations in their design and prescription. METHODOLOGY: The scoping review was conducted using the PRISMA-ScR guidelines. A systematic search was done on MEDLINE, EMBASE, Scopus, Web of Science, and NHS the Knowledge Network from inception to May 2023. Articles were included if the device was portable; supported the hands and wrist actively using an actuator; and could be used for assistive living during or post-rehabilitation period. FINDINGS: A total of 135 studies were included in the analysis of which 34 were clinical trials. The design and control methods of 121 devices were analyzed. Electrical stimulation and direct mechanical transmission were popular actuation methods. Electromyography (EMG) and joint movement detection were highly used control methods to translate user intentions to device actuation. A total of 226 validation methods were reported, of which 44% were clinically validated. Studies were often not conducted in operational environments with 69% at technology readiness levels ≤ 6, indicating that further development and testing is required. CONCLUSION: The existing literature on hand and wrist exoskeletons presents large variations in validation methods and technical requirements for user-specific characteristics. This suggests a need for well-defined testing protocols and refined reporting of device designs. This would improve the significance of clinical outcomes and new assistive technology. Layman's Abstract Assistive devices are often incorporated into rehabilitation and support for those impacted by upper limb impairments. When powered, these devices provide additional force for users with muscle weakness. Unlike splints, these devices do not constrict movement, therefore improving the ability to complete activities of daily living. However, these devices are rarely prescribed or presented in research and clinical settings. This review examines the current literature concerning powered devices that aid the hands and wrists to investigate who uses them, how they are designed and how they are validated. The scoping review was conducted using a validated guideline. A systematic search was done on 5 databases up to May 2023. Articles were included if the device was portable; supported the hands and wrist using motors; and could be used for everyday tasks. A total of 135 studies were included in the analysis, of which 34 were clinical trials. The design and method of device function of 121 devices were analysed. Muscle and joint movement detection were highly used to control device movement. A total of 226 validation methods were reported, of which 44% were clinically validated. Studies were often conducted in research and clinical environments (69%) rather than at home settings. In conclusion, existing literature on hand and wrist exoskeletons presents large variations in design, control methods and validation practices. This suggests a need for well-defined testing protocols. This would improve the significance of clinical outcomes of new assistive technology. Article PDF Link: https://jps.library.utoronto.ca/index.php/cpoj/article/view/43827/33279 How To Cite: Galbert A, Buis A. Active, actuated, and assistive: A scoping review of exoskeletons for the hands and wrists. Canadian Prosthetics & Orthotics Journal. 2024; Volume 7, Issue 1, No.9. https://doi.org/10.33137/cpoj.v7i1.43827 Corresponding Author: Professor Arjan Buis, PhDDepartment of Biomedical Engineering, Faculty of Engineering, University of Strathclyde, Glasgow, Scotland.E-Mail: arjan.buis@strath.ac.ukORCID ID: https://orcid.org/0000-0003-3947-293X

Biotechnological Tool for Metal(loid)s as Cd, Cu, Ni, and P Management with Multiple Approaches: Bioremediation, Recovery of Raw Materials, and Food Safety

Contaminated soils are a challenge for implementing biotechnology in bioremediation, the recovery of Critical and Strategic Raw Materials (CRMs and SRMs), and food security. European Union (EU) Governments have established strict limits on As, Pb, Cd, and Hg in foods (Document 32023R0915) and requested the recovery of 34 CRMs within a circular economy (CE) (5th CRMs list). This study proposed a biotechnological tool for the decontamination of soil with heavy metal(loid)s by arbuscular mycorrhizal (AM)-assisted phytoextraction and the subsequent recovery of CRMs or by phytostabilization to prevent their entry into the food chain. It consisted of placing Baccharis salicifolia plants, inoculated or non-inoculated with AM fungi, into bioreactors (BRs) containing mining soil with Cd, Ni, and Cu, according to the Argentinian Patent (AR090183B1). The bioextractive potential (BP) was also estimated at the highest Technological Readiness Level (TRL) using a vegetable depuration module (VDM, TRL 6). Inoculated plants showed significantly higher aerial bioaccumulation coefficients (Cd: 68.62; P: 2.99; Ni: 2.51; Cu: 0.18) in BRs, and the BP values reached 1.16 g, 9.75 g, 2.40 g, and 213.1 g for Ni, Cd, Cu, and P, respectively. Finally, these CRMs and SRMs could be recovered from biomass through hydrometallurgy within a CE framework.

A prospective approach to the optimal deployment of a hydrogen supply chain for sustainable mobility in island territories: Application to Corsica

This study develops a framework for designing hydrogen supply chains (HSC) in island territories using Mixed Integer Linear Programming (MILP) with a multi-period approach. The framework minimizes system costs, greenhouse gas emissions, and a risk-based index. Corsica is used as a case study, with a Geographic Information System (GIS) identifying hydrogen demand regions and potential sites for production, storage, and distribution. The results provide an optimal HSC configuration for 2050, specifying the size, location, and technology while accounting for techno-economic factors. This work integrates the unique geographical characteristics of islands using a GIS-based approach, incorporates technology readiness levels, and utilizes renewable electricity from neighboring regions. The model proposes decentralized configurations that avoid hydrogen transport between grids, achieving a levelized cost of hydrogen (LCOH) of €8.54/kg. This approach offers insight into future options and incentive mechanisms to support the development of hydrogen economies in isolated territories.

Methodological approach to assessing the digital infrastructure of the northern regions of the Russian Federation

The northern territories of Russia need high-quality strategic digital changes in the structure of the regional economy. Digitalization and the introduction of digital technologies in the medium term will be able to transform economic relations in the old industrial and raw materials regions of the North, improve the quality of life of local communities. The growth of digital inequality among the regions under study leads to disproportions in their socio-economic development. The purpose of this study is to develop and test a methodology for assessing the level of development of the digital infrastructure of the Russian northern regions, including classification of an indicators system for each level of digital infrastructure, calculation of an integral index and typology of the territories under study. The objects of the study were 13 northern regions of the Russian Federation, the entire territory of which is classified as regions of the Extreme North and equivalent areas. The methodology made it possible to determine the level of technical, technological and personnel readiness of the northern regions for digitalization, to identify regions with the best solutions at each level of digital infrastructure development. The analysis of the results in dynamics helped to assess the effectiveness of regional policy for managing digitalization processes. As a result, the authors came to the conclusion that increasing the competitiveness of northern regions in the era of rapid digitalization is possible through investments in human capital and the creation of a network of scientific and technological clusters. The presented approach to assessing the development of individual levels and elements of digital infrastructure will allow for the diagnosis of priority needs of territories under study in the field of digitalization. The results of the study can form the basis for regional policy in the field of sustainable digital development of Russia.

Wood and Wood-Based Materials in Space Applications—A Literature Review of Use Cases, Challenges and Potential

Current political and sociological efforts to respond to the need for more environmentally friendly technologies have inspired a revival of wood and wood-based material utilization in space systems. The popularity of these materials has faded since their widespread use in the early days of aerospace engineering. This work reviews the literature to provide an overview of use cases, the motivation for using wood and wood-based materials and the challenges involved. A small number of applications were identified in which wood and wood-based materials were preferred over non-renewable raw materials. They are mainly applied for less-stressed disposable components or as a thermal protection material. It can be shown that the applied wooden materials have advantages such as low production costs, easy availability, easy and environment-friendly decomposition and low weight. However, only a limited number of applications have achieved a high level of technological readiness so far. Properties such as anisotropy and a lack of uniformity, defects in wood, the quantity available material and a lack of standards for the certification of wooden materials represent challenges. These are addressed in the current research, which additionally focuses on sustainable growth, enhanced environmental friendliness and advanced lightweight design.

Automating 5G network slice management for industrial applications

The transition to Industry 4.0 introduces new use cases with unique communication requirements, demanding wireless technologies capable of dynamically adjusting their performance to meet various demands. Leveraging network slicing, 5G technology offers the flexibility to support such use cases. However, the usage and deployment of network slices in networks are complex tasks. To increase the adoption of 5G, there is a need for mechanisms that automate the deployment and management of network slices. This paper introduces a design for a network slice manager capable of such mechanisms in 5G networks. This design adheres to related standards, facilitating interoperability with other software, while also considering the capabilities and limitations of the technology. The proposed design can provision custom slices tailored to meet the unique requirements of verticals, offering communication performance across the spectrum of the three primary 5G services (eMBB, URLLC, and mMTC/mIoT). To access the proposed design, a Proof-of-Concept (PoC) prototype was developed and evaluated. The evaluation results demonstrate the flexibility of the proposed solution for deploying slices adjusted to the vertical use cases. Additionally, the slices generated by the PoC maintain a high TRL (Technology Readiness Level) equivalent to that of the commercial-graded network used.

Hydrothermal carbonization of primary sewage sludge in a prototype reactor: Sensitivity analysis of key parameters for hydrochar and liquid phase upscaling and reuse

Hydrothermal carbonization (HTC) of untreated sewage sludge with high water content was evaluated as an alternative to usual wastewater treatment. This bold approach allowed bioproducts useful as biofuel and nutrient sources to be obtained directly from raw sludge. HTC experiments were performed in a scalable arrangement (technology readiness level >4) composed of a 10-liter high-pressure reactor. The influence of the experimental conditions, including temperature (180-220°C), reaction time (60-120min), and pH (6.5-12.0), was evaluated on nutrients and heavy metal distribution through the liquid phase by a 23 central composite design with a triple central point. The bioproducts were characterized by a set of six analytical techniques, and the results were refined by statistical procedures (Principal Component Analysis and Response Surface Methodology). pH is a variable that impacts bioproducts’ characteristics, making it a guiding factor for application. Basic pH promotes transfer of components from solid to liquid phase, while natural pH favors the heating value of hydrochars. Liquid phase is a carbon- and nitrogen-rich source that can be useful for plant nutrition, mainly due to the increase of ammonia nitrogen from 20.6 to 51.7wt.% under pH 6.5, and an expressive decrease of chemical oxygen demand from 32 to 6-16 mgO2L-1. The hydrochar can be considered a renewable solid fuel, reaching up to 12.43 MJ kg-1 under pH 6.5; the basic pH favored an increase in the O/C ratio and lower HHV values. HTC of primary sewage sludge can replace steps of a conventional treatment station and promotes treated wastewater reuse.

Altering preferential product selectivity in electrocatalytic CO2 reduction over fluorine-modified CuIn bimetallic materials

Integrating carbon dioxide (CO2)-derived renewable technologies into the petrochemical industry presents a promising avenue for carbon neutrality. The renewable-energy-powered electrochemical CO2 reduction (eCO2R) process, particularly over Cu-based electrocatalysts, is a valuable asset for our decarbonization efforts to avoid climate consequences. Intending to enhance process efficiency, this work is a distinctive case study emphasizing the need to develop electrocatalysts in conjunction with adjusting operating conditions. A representative case is presented using fluorine-modified CuIn bimetallic electrocatalysts with tunable In/Cu ratios, demonstrating how to alter selectivity preferences based on reactor configuration: Our optimized catalyst system led to the highest faradaic efficiency (FE) for C2+ products of 68 % and the highest C1 FE of 80 % using gas diffusion electrodes (GDE)- and H-cell-type based electrolyzer, respectively. Moreover, the controllable In/Cu ratio and the degree of fluoride doping played a pivotal role in governing the physicochemical properties of the bimetallic electrocatalysts and their eCO2R performance. Diverse characterization tools offered systematic insights into the relationships between catalyst structure and properties, reactor configuration, electrolyte, and performance, aiming to enhance the Technology Readiness Level of the eCO2R process.

Producing food from CO2 using microorganisms: Lots to do, little to lose!

BackgroundFor the first time, the recently held United Nations Climate Change Conference (COP 28) involved a summit leaders’ declaration to include global food production in their action plan to fight climate change. Reducing meat consumption is the primary way to take this fight seriously, nevertheless the global supply of people with high-quality protein is one of the central challenges of the coming decades. Producing microbial protein from CO2 (aka single cell protein, SCP) offers the unique opportunity to recycle both, CO2 from the atmosphere and food side streams, into consumer-oriented foods - an innovative path to a zero-carbon footprint diet. Scope and approachThe importance of utilizing CO2 as a substrate for microbial food production is underscored by comparative environmental footprint studies of various protein sources. This commentary systematically discusses the opportunities and technical challenges in realizing this vision. Key findings and conclusionsThe herein proposed acetate-based CO2-to-food framework carries the potential to decrease the environmental footprint of food production by several orders of magnitude in terms of greenhouse gas emission, water, and land usage. While all relevant process steps are already advanced to a high technological readiness level, the key engineering challenges encompass their consolidation to a circular process, scale-up and product formulation.

Re-engineering Agricultural Innovation in Southeast Asia (RAISE-Asia)

Feeding the growing global population and reducing poverty require innovative approaches in agriculture and food systems to sustain the planet’s health and food requirements. Sustainable development can be achieved by generating new knowledge and translating them into use through innovation process. A customer-oriented technology readiness level (COTRL) tool is presented to re-engineer agricultural innovation by systematically assessing new agricultural technologies with customer input and ensuring that the early design of the scientific research already has the end-products in mind. The COTRL methodology will integrate research, prototyping, and commercialization efforts and facilitate a disciplined and impactful innovation process. It will guide researchers and scientists, research managers and coordinators, funding agency program managers, policymakers, and other personnel involved in bringing scientific discoveries to market for societal impact. The COTRL framework can be used to strengthen the collaboration among academia, research institutions, networks of excellence, and the private sector in the ASEAN to create an effective ecosystem for manpower and structural capability development, knowledge sharing, and business development within and across member states.

SOFTWARE MATURITY LEVEL AND TRAINING OF QUALIFIED PERSONNEL IN SOFTWARE TECHNOLOGIES AT IFBA

The Brazilian Digital Games Industry has grown significantly over the past few years, resulting in the approval, by the Federal Senate, of Bill PL 2.796/2021, which creates the legal framework for the electronic games industry. Educational programs focused on game development in Brazil are a necessity for training talent and promoting innovation in this segment. Being a high-risk business, digital game development requires metrics that can assess technology development. In this context, the objective of this work was to present a correlation between the level of software technology readiness and the digital game development process, as well as to analyze IFBA courses that increase the supply of qualified personnel in digital game development. For this, bibliographic and documentary research procedures were used. Four technology readiness level (TRL) scales applied to software developed by American and Brazilian government agencies were identified, all adapted from the TRL scales and requiring adjustments for application in the various software technologies. The DG-STRL scale, by Ferreira and Ribeiro, correlates the stages of digital game development with the TRL for software technology, and is an instrument focused on the sector. It was observed that the IFBA offers game development courses at continuing education, undergraduate and specialization levels, contributing to the training of talented developers capable of competing on a global scale.

Nanostructured Magnetite Coated with BiOI Semiconductor: Readiness Level in Advanced Solar Photocatalytic Applications for the Remediation of Phenolic Compounds in Wastewater from the Wine and Pisco Industry

Heterogeneous photocatalysis is an advanced, efficient oxidation process that uses solar energy to be sustainable and low-cost compared to conventional wastewater treatments. This study synthesized BiOI/Fe3O4 using the solvothermal technique, evaluating stoichiometric ratios of Bi/Fe (2:1, 3:1, 5:1, and 7:1) under simulated solar irradiation to optimize the degradation of caffeic acid, a pollutant found in wastewater from the wine and pisco industry. The nanomaterial with a 5:1 ratio (BF-5) was the most effective, achieving a degradation of 77.2% in 180 min. Characterization by X-ray Diffraction (XRD), Transmission Electron Microscopy (TEM), Brunauer–Emmett–Teller (BET), Barrett–Joyner–Halenda (BJH), Fourier Transform Infrared Spectroscopy (FTIR), Diffuse Reflectance Spectroscopy (DRS), and Vibrating Sample Magnetometry (VSM) showed that BF-5 has a porous three-dimensional structure with BiOI nanosheets coating the Fe3O4 surface, while retaining the pristine BiOI properties. The magnetite provided magnetic properties that facilitated the recovery of the photocatalyst, reaching 89.4% recovery. These findings highlight the potential of BF-5 as an efficient and recoverable photocatalyst for industrial applications. The technical, economic, and environmental feasibility were also evaluated at the technological readiness level (TRL) to project solar photocatalysis in real applications.

Resilient Sustainability Assessment Framework from a Transdisciplinary System-of-Systems Perspective

The vital role of extensive information exchange among stakeholders across diverse sectors and the interconnection of various scientific fields with nonhomogeneous technology readiness levels has created a new form of a complex engineering problem in the climate change era. Comprehensive sustainability assessment to enable the realization of needs requires transdisciplinary thinking to achieve systematic solutions that bridge the gap between multiple collaborative systems in a portfolio. Although the principal aim of dedicated sustainability regulations is to force companies to move toward sustainability development, general and non-engineered metrics that have not defined clear thresholds for evaluation have encountered severe challenges regarding implementation and economic viability. Therefore, adopting a transdisciplinary systems engineering approach can address multifaceted challenges like sustainability by overcoming collaboration barriers, and traditional disciplinary limits. This paper systematically reviews sustainability-dictated regulations from a transdisciplinary perspective. Different standards are compared, raised opportunities and challenges are discussed, and future remarks are highlighted. The sustainability problem is analyzed from a transdisciplinary systems engineering lens. Finally, a two-level resilient system sustainability assessment framework is proposed to effectively handle and enhance the resilience of companies’ sustainability development roadmaps by enabling decision makers to find robust and highly reliable solutions regarding sustainable system design. The impact of this research is to create a new insight into addressing climate change which not only assesses the current situation but also considers uncertainty sources that affect decision making for the future.

Energy and Water Interventions That Contribute to the Climate-Proofing of Buildings on Multiple Scales: A Literature Review

In the framework of planning and designing resilient housing under a changing climate, the present study constitutes a comprehensive literature review exploring climate-proofing solutions for the built environment concerning energy supply and water availability. This study delved into a multitude of sources that included scientific papers and reports and European Union guidelines and tools. The identified solutions covered building, urban, and territorial scales. The hazards of interest included heatwaves, heavy precipitation, droughts, earthquakes, wildfires, and storms. Several types of solutions were found (e.g., nature-based, education/capacity-building, engineering/built environment, etc.) with different times of application and timescales of action (e.g., defensive measures, short-term solutions, long-term adaptive, etc.). The maturity of the identified solutions was assessed based on the Technology Readiness Level (TRL) and Societal Readiness Level (SRL). Moreover, each solution’s contribution to climate mitigation was investigated. The solutions were assessed in terms of self-sustainability and other key criteria, namely, effectiveness, contribution to resilience maturity and climate change mitigation, adaptive nature, financing access, risk reduction, and social cohesion. In total, 85 energy and water solutions were determined from the desk review analysis and 67 (30 for the energy sector and 37 for the water sector) solutions were finally retained and proposed.

Organizational support as a moderator on academic entrepreneurship performance in state universities

Engaging in academic entrepreneurship enhances the potential for academics to generate scientific advancements, capitalize on findings, and create impactful contributions. This study examines how organizational support affects the relationship between entrepreneurial orientation and role integration on academic entrepreneurship performance at state universities in Indonesia. The population includes lecturers from eleven state universities with research results that can be commercialized. A purposive sampling method selected 330 respondents, focusing on science and social sciences lecturers with research at a technological readiness level of 6 to 9, demonstrating pilot stages and commercialization readiness based on national assessments. Data analysis used variance-based structural equation modeling and partial least squares (PLS). The findings indicate that entrepreneurial orientation significantly affects academic entrepreneurship performance (p < 0.05), and role integration significantly affects academic entrepreneurship performance (p < 0.05). Additionally, organizational support moderates the relationship between entrepreneurial orientation and academic entrepreneurship performance (p < 0.05), and organizational support moderates the relationship between role integration and academic entrepreneurship performance (p < 0.05). AcknowledgmentsWe would like to thank the lecturers at eleven state universities in Indonesia who contributed to this investigation. Their assistance allowed the authors to obtain data that met the study criteria and generate accurate and exact data analysis per the research goals.

Review of the Chilean Shipping Industry: Challenges to Achieving Emissions Reductions by 2030, 2050, and Beyond by Applying Alternative Fuels

Alternative fuels are a measure discussed in the International Maritime Organization (IMO) strategy in order to reduce emissions from shipping. This is deemed necessary to achieve emissions reduction in the shipping industry, but the way in which this needs to be applied to such a resilient industry overall is a current challenge. The increasing impact of ships’ emissions on the environment and current preventative regulations that have been introduced by the IMO present a paradigm in the consideration of alternative fuel measures that could possibly be applied to this industry. Existing and new ships are different assets that need to converge to reduce emissions partially or completely by 2030. Determining the technology readiness level (TRL) for producing these alternative fuels, and their availability to be applied to these assets, involves a mix of evaluation and analysis as covered in this work. The TRL of producing alternative fuels is at the commercial level, which means that the shipping industry could apply it by itself following economical evaluation, but these alternative fuels’ services and capabilities have not yet been evaluated in comparison to traditional fuels. A supply chain for alternative fuel production needs to be built to serve the shipping industry. This supply chain would need the support of governments because the inclusion of alternative fuels in the supply chain would impact the national energy matrix. This work presents a revised path for the Chilean shipping industry to follow, focusing on the consideration not only of the emission reduction measures themselves but also of the analysis of the impact of those measures on the supply chains, as well as the stringent necessary regulations issued by the IMO and the government. The methodology used in this review considers the revision of the actual advances towards emission reductions, the development of alternative fuels, and the possibilities of applying them, considering the current state of development of the Chilean shipping industry. This review shows that room for the development of the Chilean shipping industry exists if it wants to move towards using alternative fuels with support from the government.

Orna face analysis

Aim: Facial aesthetics is a dynamic field requiring precise professional assessment, considering beauty concepts, variability in cultural and ethnic facial features, and patient perception. This study aimed to develop the Orna Face Analysis (OFA), an integrated tool for detailed facial evaluation to improve the planning of aesthetic treatments. Methods: The OFA integrates multiple analysis methods, considering key aspects such as youthfulness, average appearance, symmetry, and dimorphic features to create a comprehensive evaluation protocol based on a critical review of the scientific literature searched through PubMed, Scielo, Web of Science, and Scopus databases without language or time restrictions. Results: The OFA was designed as an electronic form that can generate a printed file, allowing for a deep understanding of patients faces by highlighting these essential aspects. This approach enables detailed and personalized diagnostics essential for effectively planning facial aesthetic treatments and meeting patient expectations. The OFA emerges as a complementary and integrative tool in facial aesthetics, promoting a personalized and evidence-based approach to facial harmonization. After constructing the OFA prototype in electronic and printed formats, the tool was tested in a clinical setting (TRL 6 – technology readiness level) to assess its objectivity, clarity, coherence, precision, and usability. TRL 6 indicates that the system has been demonstrated in a relevant environment but requires further testing for full validation. Conclusion: A preliminary evaluation by a facial harmonization specialist confirmed that the OFA enables the creation of highly personalized treatment plans, accurately reflecting a range of aesthetic outcomes. Further validation will solidify its applicability across diverse patient populations and settings.

Wear mechanisms and failure analysis of a tool used in refill friction stir spot welding of AA6061-T6

Investigating tool wear in refill friction stir spot welding (RFSSW) is essential for understanding its limitations and improving its efficiency. Increasing the tool's service life is important to push the technology's readiness level and transfer the technology from the laboratory to industrial applications. In this study, the quasi-static lap shear performance of AA6061-T6 similar welded spots was investigated and tool wear was continuously monitored until tool failure at 3450 welding cycles. Furthermore, the fundamentals of the wear mechanisms in RFSSW were further elucidated. The investigation shows that it is possible to achieve steady quasi-static lap shear performance of the spot welds over advancing tool wear by adjusting the heat input to compensate for losses in frictional heat generation efficiency (related to tool profile changes by abrasion). A subsequent tool failure case analysis showed the main causes for the continuous wear degradation of the shoulder. Tool wear was driven by plastic deformation of the hot-work tool steel and subsequent break-out of tool steel ridges, introducing big hard particles into the contact region between the moving and rotating tools. In addition, the formation and detachment of Fe-Al intermetallic compounds counteract with the rotating tools and increase tool wear.

Selectivity Descriptors of Methanol-to-Aromatics Process over 3-Dimensional Zeolites.

The zeolite-catalyzed methanol-to-aromatics (MTA) process is a promising avenue for industrial decarbonization. This process predominantly utilizes 3-dimensional 10-member ring (10-MR) zeolites like ZSM-5 and ZSM-11, chosen for their confinement effect essential for aromatization. Current research mainly focuses on enhancing selectivity and mitigating catalyst deactivation by modulating zeolites' physicochemical properties. Despite the potential, the MTA technology is at a low Technology Readiness Level, hindered by mechanistic complexities in achieving the desired selectivity towards liquid aromatics. To bridge this knowledge gap, this study proposes a roadmap for MTA catalysis by strategically combining controlled catalytic experiments with advanced characterization methods (including operando conditions and "mobility-dependent" solid-state NMR spectroscopy). It identifies the descriptor-role of Koch-carbonylated intermediates, longer-chain hydrocarbons, and the zeolites' intersectional cavities in yielding preferential liquid aromatics selectivity. Understanding these selectivity descriptors and architectural impacts is vital, potentially advancing other zeolite-catalyzed emerging technologies.

Using Technology Readiness Levels (TRLs) in UAS development

In the dynamic world of aeronautical technology, the development of uncrewed aircraft systems (UAS) is an area of continuous expansion and innovation. Technological progress in this sector can be measured by the Technology Readiness Levels (TRL) Scale, which provides a standardized framework for assessing the technological maturity of a product or system. The TRL scale is widely used in industry and research to guide the systematic development of new technologies from concept and initial research to operational implementation and commercialization. This scale can also be successfully used in the research, development, and deployment of an uncrewed aircraft system.