The AIXTRON Group is a leading provider of deposition equipment to the semiconductor industry. The Company was founded in 1983 and is headquartered in Herzogenrath (Aachen City Region), Germany, with subsidiaries and representative offices in Asia, the USA, and Europe. The company's products are used worldwide by a wide range of customers to manufacture high-performance components for electronic and optoelectronic applications based on compound or organic semiconductor materials. These components are used in a variety of innovative applications, technologies and industries. These include, for example, LED and display technology, data transmission, sensor technology, energy management and conversion, communication, signal and lighting technology, and many other sophisticated high-tech applications.
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Incubation Alliance is a graphene venture company founded by the CEO Kazuo Muramatsu in 2007 and is based in Kobe, Japan. Since its establishment, we have developed graphene mass production methods using proprietary processes and developed products such as Graphene Flower® which has unique structure, highly oriented graphene block Graphene Flower® BL and graphene-coated carbon fiber cloth Graphene Flower® Cloth. These products have practical applications as heat dissipation components, motor brushes, materials for various types of electrodes and materials for neutron intensification.? We have more than 50 worldwide patents for our developed technologies and products. We are also actively developing alliance with partners in each field based on these proprietary technology.
We attended Graphene conferences consecutively from Graphene2011 to 2016 and participated at the exhibition. We have decided to participate in Graphene2023 after a long time since we have obtained research results in the development of graphene high-intensity neutron material, a project in collaboration with the Japan Atomic Energy Agency and Japan’s largest comprehensive research institute RIKEN. We will make a presentation and participate in the exhibition.
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Park Systems, the world-leading innovator in Atomic Force Microscopy (AFM), enables researchers and engineers around the globe to contribute to impactful science and technological development that helps humanity to grow and improve life standards.
Thanks to the high-level technological know-how and 100% commitment, the professionals at Park provide innovative application solutions for material and life science disciplines, to and with their customers.
With Park’s high-performance scientific instruments for research and industrial communities we help to explore new phenomena in chemistry, materials, physics, life sciences, semiconductor and data storage industries. Cutting-edge AFM automation and the highest data accuracy enables to become more efficient, more accurate and more productive at your work.
Visit www.parksystems.com for more information.
Contact:
Park Systems Europe GmbH
Schildkrötstrasse 15, 68199 Mannheim, Germany
+49 (0) 621 490896-64 I pse@parksystems.com
www.parksystems.com
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AMO’s mission as a non-profit SME is to bridge the gap between university research and industrial application. In joint projects and in bilateral cooperation, research and development results are transferred to industry for the preservation and creation of jobs. The potential of nanotechnology is thus tapped in fields of application such as information technology, biotechnology and environmental technology. AMO operates a state-of-the-art 400 m² clean room under the direction of Prof. Lemme and offers a range of services from consulting to prototype development.
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Edinburgh Instruments is a global leader in the research, development and manufacturing of state-of-the-art spectroscopic instrumentation for over 50 years. During this time, a worldwide reputation for quality and innovation has been established. Edinburgh Instruments primarily designs and manufactures bespoke spectroscopic systems for various spectroscopy markets including Photoluminescence, Raman, UV-Vis, FTIR and Transient Absorption
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The SUSS MicroTec Group is a leading supplier of equipment and process solutions for microstructuring applications with seventy years of engineering experience. Our portfolio covers a comprehensive range of products and solutions for backend lithography, wafer bonding and photomask processing, complemented by micro-optical components. The production of memory chips, cameras for mobile phones or tire pressure sensors – the equipment solutions of SUSS MicroTec are applied within a wide variety of manufacturing processes for applications of daily or industrial use. Customers in the semiconductor industry and related markets like Advanced Packaging, MEMS and LED appreciate our comprehensive experience in wafer processing. This makes us a valuable partner for high-volume production as well as for research and development
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Microlight3D is a manufacturer of high-resolution 2D and 3D microprinting machines. The company enables scientists and industrialists looking for new design tools to produce highly complex micro parts, in any desired geometric or organic shape, with a perfect finish. Microlight3D's equipment is designed for applications in micro-optics, micro-fluidics, micro-robotics, meta-materials, cell biology and microelectronics.
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The Research & Innovation Center for Graphene and 2D Materials (RIC-2D) hosted by Khalifa University of Science and Technology is part of a strategic investment by the Government of Abu Dhabi, United Arab Emirates to advance the scientific development and commercial deployment of technologies derived from graphene and other 2D materials. RIC-2D will serve as an integral part of an advanced materials innovation ecosystem being developed in Abu Dhabi. Established in 2022, Research & Innovation Center for Graphene & 2D Materials will host a range of activities to support both research and technology advancement of graphene and other enhanced 2D materials in the region.
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Constructor Research Platform provides a specialized computing environment with pre-installed packages for various scientific domains. It supports collaboration by offering a centralized web-based space for data and code sharing through interactive publications, as well as access to the entire environment for project experiment reproducibility.
Constructor is all-in-one platform for education and research. With expertise in machine intelligence and data science, Constructor is built to cater to the needs of schools, higher education, corporate training, alternative credentials, and professional sports, offering solutions for teaching and administration, learning and research. From infrastructure to applications, Constructor elevates learning experiences, empowers educators, and drives research breakthroughs.
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The Advanced Materials Programme brings together 7 regions (Aragón, Cataluña, Castilla-León, Comunidad Valenciana, Madrid, País Vasco and Castilla-La Mancha) with the commitment to integrate and promote research and innovation in Advanced Materials in these regions. The programme will involve the main research and innovation actors located in these regions. A joint R&D&I strategy in Advanced Materials is proposed with the following objectives:
I. To consolidate R&D&I activity in this area of interest, supporting scientific leadership in strategic lines and boosting collaboration between the participating regions regions through a master research programme, the generation and attraction of talent and the reinforcement of existing scientific infrastructures.
II. Foster synergies between research centres, technology centres and companies to accelerate innovation and technological development and contribute to job creation.
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Oxford Instruments develops, delivers, and supports high-technology tools and systems with a focus on research and industrial applications. Innovation has been the driving force behind Oxford Instruments' growth and success for 60 years, supporting its core purpose of addressing some of the world’s most pressing challenges.? Our market-leading atomic-level fabrication solutions provide reproducible and scalable process layers that enable the integration of graphene in electronics, optoelectronics and sensors. The wide range of Oxford Instruments Plasma Technology includes high-temperature chemical vapor deposition of 2D materials, dielectrics integration and encapsulation, device pattern etching, atomic layer etching, low-temperature atomic layer deposition and more. Through the product lines of WITec GmbH and Asylum Research, the Oxford Instruments Group also supplies leading-edge nanoanalysis and nanomanipulation capabilities that are ideally suited to 2D materials research. WITec’s Raman imaging and correlative microscopes can chemically characterise graphene samples and visualise layer number, strain, doping and defects, while Asylum’s atomic force microscopes can investigate film quality and determine electrical and mechanical properties simultaneously with topography at sub-angstrom resolution
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Web Of Talents (https://weboftalents.com) is an online database of curricula that allows posting job offers, and in which the curricula received can be easily filtered and ranked according to criteria relevant to the job offer posted using complex algorithms. All the curricula are well structured and contain only the key information requested. Moreover, each curriculum includes supporting certificates and videos (e.g., self-introduction, technical presentation accompanied by slides) that allows making a deeper evaluation. As a result, the employer can discard unsuitable candidates very quickly and reduce the number of persons with which he/she must make the interview. Other additional documents like certificates and technical slides can also be attached, ensuring the quality and veracity of the information provided. Moreover, as the application for all job offers in the database are co-related, one can proactively surf in the curricula database of WOT to find suitable candidates even if they did not apply for that specific job offer and contact them right away to make them an offer. This allows WOT users not only to spare a lot of time and money in hiring processes, but also to enhance the quality of the persons hired.
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China International Graphene Industry Union (CIGIU) is an international and non-profit organization with members worldwide including universities, research institutions, internationally recognized & major graphene-domain-focused enterprises, and financial investment groups and associations. China International Graphene Industry Union (CIGIU) has headquarter based in Beijing, China. Based on the China International Graphene Industry Union (CIGIU), the structure of the International Carbon Materials Union (ICMU) have been formed, which stands as an all-encompassing international cooperation institution concentrating on the technological and industrial dialogue within the sphere of carbon materials, principally represented by graphene. The core aim of the union is to create an open, forward-looking platform for carbon material technology and industry, as well as international exchange. In addition, it strives to stimulate scientific and technological research and industrial cooperation while providing a collaborative environment for union members to jointly create and share resources for mutually beneficial and cooperative advancement.
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Rayhope Group is a resource-based technology enterprise dedicated to providing solutions for new heating systems and environmental purification through the application of graphene new materials.
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The HORIBA Group of worldwide companies provides an extensive array of instruments and systems for applications ranging from automotive R&D, process and environmental monitoring, in-vitro medical diagnostics, semiconductor manufacturing and metrology, to a broad range of scientific R&D and QC measurements. Proven quality and trustworthy performance have established widespread confidence in the HORIBA Brand.
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Graphene is gaining significant attention as a promising material for gas sensing applications due to its potential for ppb-level (part-per-billion) sensitivity at room temperature (RT) and low 1/f noise. However, these gas sensors face challenges like low selectivity, poor recovery, and lack of response saturation, which hinder their commercial viability. Functionalizing graphene with molecules, dopants, or nanoparticles has been proposed to enhance selectivity by altering its electrical properties to address these issues.
With over 20 years of experience in aerosol synthesis and a team of passionate scientists and engineers, VSPARTICLE’s technology is unlocking new possibilities at the nanoscale. Our cutting-edge technology VSP P1 Nanoprinter uses a unique spark ablation technique to generate nanoparticles (NPs) for instance Au-NPs and then meticulously deposits nanoporous layers of Au-NPs on multi-layered graphene (MLG) sensors. This functionalization effectively reverses the gas-sensing behaviour of MLG, resulting in a saturating MLG-based sensor that operates at RT. Unlike traditional methods, this approach eliminates the need for chemical precursors or binders, reducing waste and eliminating extra pre- and post-processing steps. The VSP-P1 Nanoprinter is a crucial R&D tool for dry synthesis, opening up new avenues for advanced gas sensing applications.
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Moxi Technology Co., Ltd., founded in 2017 in Guangzhou China, is a high-tech enterprise that possesses internationally leading core technologies at the industrialization of carbon nano-materials and maintains a strong driving force in continuous innovation. The three-dimensional mesoporous graphene material represents a high ground in the global competition for new carbon materials. This material demonstrate immense value for breakthrough applications in various fields, including biomedical delivery carriers, high-performance catalysts for hydrogen fuel cells, matrix material for lithium-sulfur batteries, carbon ceramic composite filtration membranes. Moxi Technology is leading the breakthrough and the state of the art technology in the field of large-scale production of three-dimensional mesoporous graphene materials. The company successfully developed unique carbon framework matrix with a mesoporous and super-elastic structure, achieving low-cost and automated mass manufacture at ton scales.
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