Relatório de produção acadêmica da Universidade Federal de São Carlos (UFSCar)
Departamento de Física (DF)

• Total de projetos de pesquisa (11)
  
  1. 2019-Atual. Envolvendo criancas no cuidado com o meio ambiente por meio de montagem e uso de estacoes de monitoramento
     Descrição: A proposta em questão busca salientar a importância das questões ambientais a partir da educação ambiental oferecida principalmente pela disciplina de ?Educação Ambiental? no Ensino Fundamental I nas escolas públicas. Alimentando a curiosidade dos educandos abertos ao conhecimento (algo muito comum em estudantes do ensino fundamental), este projeto baseia-se na formação da criança e do adolescente com aulas teóricas para preparar atividades práticas lúdicas, focadas na valorização de uma contribuição/participação individual em respeitar/preservar/monitorar recursos naturais comuns (ar, água, plantas etc.), contribuindo assim em formar a próxima geração de cidadãos mais conscientes e ativos em questões ambientais.. Situação: Em andamento; Natureza: Pesquisa. Alunos envolvidos: Graduação: (1) . Integrantes: Filippo Giovanni Ghiglieno - Integrante / Alexandre Cláudio Botazzo Delbem - Coordenador / Cristiano Jose dos Santos - Integrante. Financiador(es): Universidade de São Paulo - Auxílio financeiro.
     Membro: Filippo Giovanni Ghiglieno.
  2. 2018-2019. RFID Biosensors for In-Hospital Detection of Infectious Bacteria and Fungi - Processo FAPESP 2017/22645-4
     Descrição: A major national problem for collective health is hospital infections, which result in an increase in the patient's hospitalization time and also in the mortality rate. The monitoring of the hospital environment and medical clinics is one of the decisive factors for the reduction of hospital infection rates. Thus, the PIPE project aims to obtain a commercial prototype of a Radio Frequency Identification (RFID) biosensor deposited in plastic support, with the objective of rapid and cheap detection of the main infectious agents in the hospital environment, capable of generating frames contamination. The deposition of specific organic material, described in more detail throughout the project, aims to obtain a more biocompatible device on the RFID tag and to aid in the binding and stability of the biosensor, as well as improvements in the electrical signal of the biosensor. Specific and selective bio-receptor molecules for specific microorganisms (described in more detail throughout the project), allows the use of the biosensor in diversified environmental conditions, such as temperature and humidity changes. In addition, the biosensor will be selective for each pathogen. Remote reading facilitates the identification of possible contamination, giving prompt information to medical teams for preventive actions and hygiene protocols. It is intended to use this biosensor in forms of disposable reagent strips and therefore, it will be supported under thick plastic commercial substrates. Thus, the biosensor can aid in the prior detection of pathogenic microorganisms causing infections in the hospital environment, resulting in adjustable, quicker and better conditions of monitoring the environment and consequently reducing costs to hospital institutions.. Situação: Concluído; Natureza: Pesquisa. Integrantes: Filippo Giovanni Ghiglieno - Integrante / Margarete Teresa Gottardo de Almeida - Integrante / Gabriela Byzynski Soares - Coordenador. Financiador(es): NanoChemTech - Auxílio financeiro.
     Membro: Filippo Giovanni Ghiglieno.
  3. 2018-Atual. MULTIFERROIC AND FERROELECTRIC MATERIALS FOR ENERGY CONVERTERS:Synthesis, Properties, Phenomenology and Applications. Processo FAPESP 2017/13769-1
     Descrição: This multidisciplinary proposal aims to contribute to a significant qualitative and quantitative advance in the synthesis, characterization, modeling and applications of ferroic materials, monolithic and nanostructured, to enhance its properties for applications in renewable and magnetoelectric energy converters. The generation and use of energy from renewable sources is a strategic area for the country from a scientific, technological and economic point of view. Single-phase or composite ferroic materials will be developed for use in mechanical (electromechanical) or solar (photovoltaic) energy converters into electrical energy. Through an experimental approach (synthesis, processing and characterization) and theoretical (phenomenological modeling by Density Functional Theory) we intend to investigate multiferroic and ferroelectric materials, aiming at the maximization of some of its physical properties for the application in energy converting devices. Relevant contributions are expected in three fundamental pillars in the development of new materials and devices: methods of processing single crystals, bulk and two-dimensional materials, modeling of fundamental properties (structural / microstructure-property correlation) and prospective development of prototypes of new sensors, actuators and power converters. The results of this research, due to their comprehensive and innovative nature, will certainly contribute to the development of new class of materials. ** This Project is part of the INCT "Materiais Ferroicos Nanoestruturados para Conversores de Energia", Chamada INCT - MCTI/CNPq/CAPES/FAPs nº 16/2014).. Situação: Em andamento; Natureza: Pesquisa. Integrantes: Filippo Giovanni Ghiglieno - Integrante / Jose Antonio Eiras - Coordenador / Eudes Borges de Araújo - Integrante / Ruth Herta Goldschmidt Aliaga Kiminami - Integrante / Ana Maria do Espírito Santo - Integrante / Everaldo Nassar Moreira - Integrante / Fabio Luis Zabotto - Integrante / Luiz Antonio Bássora - Integrante / Manuel Henrique Lente - Integrante / Mario Godinho Junior - Integrante / Rossano Lang Carvalho - Integrante / André Marino Gonçalves - Integrante / Lais Conservan Nogueira - Integrante. Financiador(es): Fundação de Amparo à Pesquisa do Estado de São Paulo - Auxílio financeiro.
     Membro: Filippo Giovanni Ghiglieno.
  4. 2017-2018. Development of a Fiber Laser System for Metal Surface Treatment and Recovery. Processo FAPESP 2016/15994-0
     Descrição: This project proposes the development of a laser material deposition (LMD) system for processing and recovery of metal surfaces. The metal in powder form is sprayed toward the focus of a laser-beam incident on the surface of the substrate under treatment simultaneously. As a result, there is the fusion of the material particles with the substrate creating a firmly adhering layer. Surface treatments are a step or process of great interest to many branches of industry in order to prevent wears or repair damaged surfaces, especially of mechanical components with high value, generally designed to operate in extreme working conditions and / or meet essential safety requirements. Traditional methods for performing such procedures are usually expensive and have significant disadvantages. The laser metal deposition, on the other hand, is an innovative process technology that enables the addition of metal on the surfaces of interest with higher precision and quality. This process provides a method of lower cost operating to obtain the specialized coated and rebuilding surface material, which enables to lengthen the useful life of these materials.An extremely important factor concerning this technique is to control the process. A usual LMD system usually includes preset parameters control, but does not perform automatic adjustments on the process. The disadvantage of this approach is that the occurrences of disturbances during the process or surface irregularities may impact the final result. The innovative idea in this project is the proposal of an intelligent system to control on real-time the deposition process and automatically adjust the parameters as needed. It will be developed algorithms based on sensing imaging, CNC control and CAD to carry out such control. The company BR Labs has years of experience in laser systems, combined with the knowledge obtained by the researcher in his nine years of experience in electronic automation systems and programming software, the project being proposed is highly feasible. In this work we intend to use a high power fiber laser, due to its good characteristics: robustness, reliability and relative low-cost, and its fundamental competitive parameters to industry. The purpose of this project is to develop an automation system capable of performing the controlled deposition of metallic material in the form of powder sprayed toward the metallic surfaces.The results of this project will make the company much more competitive and the country will have another company that will have available a product with nationalized technology, but with an innovation that differs from existing products on the market. This project aims to contribute significantly to the scientific, technological and innovation in the country. The introduction of laser technology provides benefits that involves productivity gains and cost reductions. Investigations on the production lines show that it is possible to increase productivity and reduce operating costs, resulting directly in improving competitiveness. Besides the economic benefits, the technology also integrates social and environmental benefits. A single system can provide increased productivity, reduced costs, increased system operating safety and reduced environmental impact. With the mastery of this technology BR Labs company can meet the various sectors of Brazilian industry, such as automotive, medical hospital, aviation, white goods, metallurgy, among others.. Situação: Concluído; Natureza: Pesquisa. Integrantes: Filippo Giovanni Ghiglieno - Integrante / Fatima Maria Mitsue Yasuoka - Integrante / Marco Antonio Alves de Souza - Integrante / Jarbas Caiado de Castro Neto - Integrante / José Matheus Sanches - Integrante / Luciana de Matos - Integrante / Lucimara Cristina Nakata Scaduto - Integrante / Alessandro Fraga Farah - Integrante / Luis Gustavo Sabino - Integrante / Marcos Antonio Alves de Souza - Coordenador / André Orlandi de Oliveira - Integrante / Karin Talisin Targas - Integrante / Ramon Gustavo Sanches - Integrante. Financiador(es): Fundação de Amparo à Pesquisa do Estado de São Paulo - Auxílio financeiro.
     Membro: Filippo Giovanni Ghiglieno.
  5. 2015-2016. Development of a colored graving and marking system of femtoseconds Ti:Sapphire Laser through the formation of nanostructures (ripples) on the surface of various materials - Processo FAPESP 2015/15990-1
     Descrição: This project proposes the development of a colored engraving and marking laser system on different materials using Ti: Sapphire laser femtoseconds, in order to produce oriented nanostructures (ripples) on the surface of these materials. The principal objective is the generation of specific standards of color for viewing on material surfaces. Nanostructures of precision on surfaces and changes in material properties are important innovative results, using radiation of ultrafast lasers. Material characteristics can be designed in microscopic to nanoscopic scale, producing new optical properties. The possibility of reaching modifications in materials, using ultrashort pulses by generation of dependent polarization structures, can generate the specific color patterns. These oriented nanostructures created on the metal surface, called ripples, is typically smaller than the wavelength of the laser and is in the visible spectrum. Thus, a complex process of coloring material, involving printing, reading and calibration has been performed to associate the colors defined a priori. This new method based on the orientation control of laser-induced nanostructure, to accumulate large amount of information in a minimum area by proposing new applications for laser marking and new types of color identification codes. The manufacturing technology of Ti:Sapphire CW laser is already completely dominated by the company BR Labs Indústria e Comércio, this work aims to optimize Ti: Sapphire laser fentoseconds, in order to perform experimental apparatus for use in colored engraving and marking system through the oriented nanostructures. The intended innovation in this work is the development of these nanostructures optimized for generation of three-color standard of RGB system, being three fixed nanostructures standards, sharing in proportions a small pre-defined area element, whose behavior can be visualized and characterized as the a "pixel". An algorithm to direct transcription of images previously scanned into the code of colors will be developed. Obtaining the composite color can be obtained by the ratio of the area of each component or by the variation in the morphology of the nanostructures.. Situação: Concluído; Natureza: Pesquisa. Integrantes: Filippo Giovanni Ghiglieno - Integrante / Fatima Maria Mitsue Yasuoka - Coordenador / Marco Antonio Alves de Souza - Integrante / Jarbas Caiado de Castro Neto - Integrante / José Matheus Sanches - Integrante / Luciana de Matos - Integrante / Lucimara Cristina Nakata Scaduto - Integrante / Guilherme Minoru Taniguti - Integrante / Alessandro Fraga Farah - Integrante / Luis Gustavo Sabino - Integrante / Tiago Francisco Rosa - Integrante. Financiador(es): Fundação de Amparo à Pesquisa do Estado de São Paulo - Auxílio financeiro.
     Membro: Filippo Giovanni Ghiglieno.
  6. 2014-2017. THIN LAYER DETECTION BY AN AUTONOMOUS UNDERWATER VEHICLE IN A COASTAL ECOSYSTEM THE ECOAUV PROJECT - Processo FAPESP 2013/16669-7
     Descrição: Camadas finas são feições oceanográficas formadas por altas concentrações de material particulado e organismos planctônicos retidas em agregações com pequena espessura vertical. Essas estruturas são áreas de intensa atividade biogeoquímica em oceanos estratificados, mas não existem estudos sobre sua ocorrência e persistência em ecossistemas costeiros do hemisfério sul. As camadas finas são de difícil detecção por técnicas tradicionais de amostragem. No presente projeto serão utilizados sensores de última geração para a avaliação de propriedades físico-químicas e bio-ópticas relevantes para a detecção destas camadas. Os sensores serão alojados em um Veículo Subaquático Autônomo (Autonomous Underwater Vehicle, AUV), o AUV Pirajuba, desenvolvido com tecnologia nacional pelo LVNT-USP. O AUV Pirajuba executará missões com frequência mensal na região de Ubatuba, litoral norte de São Paulo. Serão realizadas transecções perpendiculares à costa, nas quais o AUV ondulará desde a superfície da coluna de água até próximo do assoalho marinho, em velocidade compatível para o registro das propriedades oceanográficas nas escalas relevantes para o registro de camadas finas. Uma câmera holográfica submersível acoplada à proa do AUV Pirajuba adquirirá imagens de alta resolução dos organismos associados às camadas finas. Este projeto fornecerá dados inéditos e importantes sobre estas feições oceanográficas ainda pouco conhecidas mundialmente, mas que impactam a base da teia alimentar e os processos biogeoquímicos em ambientes costeiros.. Situação: Concluído; Natureza: Pesquisa. Integrantes: Filippo Giovanni Ghiglieno - Integrante / Rubens M. Lopes - Integrante / Ettore Apolonio de Barros - Coordenador / Lucas Machado de Oliveira - Integrante / Persing Cardenas Vivanco Junior - Integrante / Rodrigo Telles da Silva Vale - Integrante / William da Silva Caetano - Integrante. Financiador(es): Fundação de Amparo à Pesquisa do Estado de São Paulo - Auxílio financeiro.
     Membro: Filippo Giovanni Ghiglieno.
  7. 2014-2017. PROGEMIA (PhotodesoRption methOds for hydroGen dElivery in Mobile applIcAtions)
     Descrição: PROGEMIA target is to fulfill the criteria for Hydrogen Storage and Delivery from the US Department of Energy. It is planned to reach the gravimetric target of about 10 wt% at conventional ambient temperature storage. PROGEMIA project will use the physisorbents at the state of the art, those that bind hydrogen in molecular form to the internal surfaces of pores through dispersion forces: metal-organic frameworks "MOF", amorphous solid water "ASW", or several microporous metal carboxylates. These materials are characterized by high surface packing densities. For example adsorbed hydrogen on MOF-74 has a higher surface density (3,3x10-5 g/m2) at 77 K than that of solid H2 at 4K and zero pressure. The breakthrough of PROGEMIA consists in introducing pure para hydrogen within the cell. The catalytic powder is thus initially located within a cell at a temperature of about 20K, covered by densely packed hydrogen, and surrounded by a liquid-gaseous para film, the whole being thermally insulated. The heat leaks will first excite the para-rotations of the gaseous hydrogen maintaining a cool temperature then reach the adsorbed phase where new ortho-excitations will consume main part of the thermal flow. The process will be followed in real time by infra-red adsorption line shifts and intensities measured by mid- infrared quantum cascade lasers. Since too high adsorption affinity leads to a large amount of residual adsorptive at the exhaustion pressure, and therefore to reduced delivery, about 40 % of the adsorption capacity is being lost. Therefore PROGEMIA project will use medium/far Infra-red laser- induced desorption. At this wavelength incoherent light is currently used for detection and analysis of the desorbed species but coherent sources were never employed for high- resolution spectroscopy and delivery purpose. Our laser technology, conveniently complemented by an expertise in the quantum and thermal properties of the nuclear spin isomers of molecular hydrogen will allow to reach high surface hydrogen packing and fast and efficient delivery.. Situação: Concluído; Natureza: Pesquisa. Alunos envolvidos: Doutorado: (1) . Integrantes: Filippo Giovanni Ghiglieno - Coordenador / Ernest Ilisca - Integrante. Financiador(es): Coordenação de Aperfeiçoamento de Pessoal de Nível Superior - Cooperação.
     Membro: Filippo Giovanni Ghiglieno.
  8. 2014-2016. DPlankton detection in the surface ocean by high-resolution sensor technology. Processo FAPESP 2013/17633-6
     Descrição: Marine plankton communities play a pivotal role in various ecosystem services, including global climate regulation. We propose to study plankton distribution and biodiversity in the surface layer of the ocean by means of an innovative sampling approach based on high spatial resolution and broad geographic coverage. Different biogeographic domains of the Atlantic, Pacific and Indian Oceans will be covered in this research. Both in situ (environmental probes and optical imaging) and remote (satellite sensors) sensing techniques will be used to register and interpret plankton distribution patterns and related physical and biogeochemical processes. The initiative represents the first experience of this kind worldwide. Innovative plankton imaging systems were especially developed for this project. They use a camera for bright-field (or phase contrast) image acquisition and a lower frequency camera (10 to 25 frames per second) for recordings with the digital holography technique. Automatic segmentation and classification algorithms will be used on the captured images to generate taxonomic and abundance data. Probes will provide simultaneous environmental data including temperature, salinity, colored dissolved organic matter (CDOM) and phytoplankton pigments. Environmental data and plankton biodiversity and abundance will be correlated with data obtained from satellite sensors to interpret the effects of physical forcing on meso- and large-scale variability in plankton communities. Efforts will be pursued to analyze the dataset in the context of climate change research. In addition to scientific publications the project will provide distribution maps of plankton communities, a rich image database, novel software for automatic plankton identification, and a myriad of opportunities for the development of outreach programs.. Situação: Concluído; Natureza: Pesquisa. Integrantes: Filippo Giovanni Ghiglieno - Integrante / Rubens M. Lopes - Coordenador / Nina Sumiko Tomita Hirata - Integrante / Olga Tiemi Sato - Integrante / Paulo Simionatto Polito - Integrante / Roberto Hirata Junior - Integrante. Financiador(es): Fundação de Amparo à Pesquisa do Estado de São Paulo - Auxílio financeiro.
     Membro: Filippo Giovanni Ghiglieno.
  9. 2014-2016. Light Interference in Semiconductor devices applied to measurements and performances Analysis (LISA) - Processo FAPESP 2013/21569-1
     Descrição: Active and passive semiconductor photonics devices are widely used to generate and to process light, in medical applications, in material characterization, in optical communication, nonlinear and quantum optics experiments. An important specification for the devices is the scattering losses. Coherent light propagating in wave guiding structure can be strongly impacted by the defects induced by the technological processes and can reduce the expected performances. Improving a non-destructive technique developed at the University of Denis- Diderot (Paris 7 - France) with the last generation of telecommunication components I propose to re-implement at the Federal University in São Carlos (UFSCar) a non-expensive and user-friendly technique both for low loss characterization of passive photonics devices (Mach-Zehnder, interferometer, waveguide for nonlinear optics, nanowire) and time-resolved thermal characterization in optoelectronic components (quantum well lasers, quantum dot lasers, quantum cascade lasers) with maximal spatial two-dimensional resolution of 2 ¼m at the state of the art and time resolution depending on the detector speed. The characterization setup can implement both the measurement techniques based on Fabry-Pérot properties of a cavity. Concerning the active devices the thermal heating strongly influences the lifetime and operation parameters. This optical bench supported last year the technological development of a quantum cascade laser in an international worldwide known private research company. Academic and private interest on this kind of approach is a key point in this project especially considering my relationship with private research institutions (Telecom Italia, Agilent Technologies, Avago Technologies and Thales France).. Situação: Concluído; Natureza: Pesquisa. Integrantes: Filippo Giovanni Ghiglieno - Coordenador / Adenilson José Chiquito - Integrante. Financiador(es): Fundação de Amparo à Pesquisa do Estado de São Paulo - Auxílio financeiro.
     Membro: Filippo Giovanni Ghiglieno.
  10. 2013-Atual. CeMEAI - Center for Mathematical Sciences Applied to Industry. Processo FAPESP 2013/07375-0
      Descrição: The focus of this proposal is the transfer of mathematical knowledge to other areas of science, technology and industry, through a structured research center specially tailored for this purpose. All mathematical knowledge is ultimately applicable, if not directly, through other areas of knowledge. In some areas the application of mathematics is almost immediate. However, the practical implementation of such applicability is often hindered by ingrained incorrect traditions, misdirected scholarship and operational difficulties. In recent years, the growth of science in Brazil, and mathematics in particular, has been remarkable. However, the application of technology, often measured by patents, has not had the same success. To close this gap it is necessary to create institutional structures to establish bridges between the mathematical sciences and applications as a goal in itself. It is not just to guide the theoretical work to areas "potentially relevant" but to take applications to the last consequences, i.e., its effective implementation in the industry at large. One can no longer say that the application can be left to someone else. It is, in fact, a problem concerning all the community and reflects the necessary commitment of pure and applied science with the material and spiritual progress of society. The strategy of this project involves, first, the clustering of imp01iant groups in the areas of applied mathematics at the State of São Paulo and directing their work towards effective applications. The selected groups have demonstrated excellence in the scientific standard in the first place and in many cases, also in relevant applications. In the proposed CEPID participating groups will continue with their usual scientific activities, and at the same time, develop "Technology Transfer Activities" according to the following: 1) Master's and Doctoral theses necessarily linked with applications in a broad sense, with co-supervision from experts in the applications sectors. 2) Conduct at least an annual Transfer Workshop, with participating members of CEPID and representatives of industry, administration, services, educational and technological sectors. 3) Regular visits by members of CEPID to institutions with potential for significant applications. 4) Development of an online publication called in principle "Technology Transference Experiences" aiming at the consolidation of a more pem1anem publication.. Situação: Em andamento; Natureza: Pesquisa. Alunos envolvidos: Mestrado acadêmico: (8) Doutorado: (10) . Integrantes: Filippo Giovanni Ghiglieno - Coordenador / Alexandre Cláudio Botazzo Delbem - Integrante / José Alberto Cuminato - Integrante / André Carlos Ponce de Leon Ferreira de Carvalho - Integrante / Antonio Castelo Filho - Integrante / Cassio Machiaveli Oishi - Integrante / Claudia Alejandra Sagastizábal - Integrante / Débora Pretti Ronconi - Integrante / Eduardo Raul Hruschka - Integrante / Elias Salomão Helou Neto - Integrante / rnesto Julián Goldberg Birgin - Integrante / Ernesto Julián Goldberg Birgin - Integrante / Fabrício Simeoni de Sousa - Integrante / Francisco Aparecido Rodrigues - Integrante / Francisco Louzada Neto - Integrante / Franklina Maria Bragion de Toledo - Integrante / Geraldo Nunes Silva - Integrante / Gustavo Carlos Buscaglia - Integrante / Joao Luiz Filgueiras de Azevedo - Integrante / Jose Mario Martinez Perez - Integrante / José Carlos Maldonado - Integrante / Julio Michael Stern - Integrante / Jó Ueyama - Integrante / Leandro Franco de Souza - Integrante / Lucio Tunes dos Santos - Integrante / Luis Gustavo Nonato - Integrante / Maria do Socorro Nogueira Rangel - Integrante / Mario de Castro Andrade Filho - Integrante / Maristela Oliveira dos Santos - Integrante / Murilo Francisco Tome - Integrante / Nikolai Valtchev Kolev - Integrante / Paulo José da Silva e Silva - Integrante / Paulo Morelato França - Integrante / Reinaldo Morabito Neto - Integrante / Roberto Andreani - Integrante / Rodrigo Fernandes de Mello - Integrante / Ronaldo Dias - Integrante / Sandra Augusta Santos - Integrante / Tiago Pereira da Silva - Integrante / Vicente Garibay Cancho - Integrante / Yvonne Primerano Mascarenhas - Integrante / Zhao Liang - Integrante. Financiador(es): Fundação de Amparo à Pesquisa do Estado de São Paulo - Auxílio financeiro.
      Membro: Filippo Giovanni Ghiglieno.
  11. 2013-Atual. CeMEAI - Center for Mathematical Sciences Applied to Industry. Processo FAPESP 2013/07375-0
      Descrição: The focus of this proposal is the transfer of mathematical knowledge to other areas of science, technology and industry, through a structured research center specially tailored for this purpose. All mathematical knowledge is ultimately applicable, if not directly, through other areas of knowledge. In some areas the application of mathematics is almost immediate. However, the practical implementation of such applicability is often hindered by ingrained incorrect traditions, misdirected scholarship and operational difficulties. In recent years, the growth of science in Brazil, and mathematics in particular, has been remarkable. However, the application of technology, often measured by patents, has not had the same success. To close this gap it is necessary to create institutional structures to establish bridges between the mathematical sciences and applications as a goal in itself. It is not just to guide the theoretical work to areas "potentially relevant" but to take applications to the last consequences, i.e., its effective implementation in the industry at large. One can no longer say that the application can be left to someone else. It is, in fact, a problem concerning all the community and reflects the necessary commitment of pure and applied science with the material and spiritual progress of society. The strategy of this project involves, first, the clustering of imp01iant groups in the areas of applied mathematics at the State of São Paulo and directing their work towards effective applications. The selected groups have demonstrated excellence in the scientific standard in the first place and in many cases, also in relevant applications. In the proposed CEPID participating groups will continue with their usual scientific activities, and at the same time, develop "Technology Transfer Activities" according to the following: 1) Master's and Doctoral theses necessarily linked with applications in a broad sense, with co-supervision from experts in the applications sectors. 2) Conduct at least an annual Transfer Workshop, with participating members of CEPID and representatives of industry, administration, services, educational and technological sectors. 3) Regular visits by members of CEPID to institutions with potential for significant applications. 4) Development of an online publication called in principle "Technology Transference Experiences" aiming at the consolidation of a more pem1anem publication.. Situação: Em andamento; Natureza: Pesquisa. Alunos envolvidos: Mestrado acadêmico: (8) Doutorado: (10) . Integrantes: Filippo Giovanni Ghiglieno - Coordenador / Alexandre Cláudio Botazzo Delbem - Integrante / José Alberto Cuminato - Integrante / André Carlos Ponce de Leon Ferreira de Carvalho - Integrante / Antonio Castelo Filho - Integrante / Cassio Machiaveli Oishi - Integrante / Claudia Alejandra Sagastizábal - Integrante / Débora Pretti Ronconi - Integrante / Eduardo Raul Hruschka - Integrante / Elias Salomão Helou Neto - Integrante / rnesto Julián Goldberg Birgin - Integrante / Ernesto Julián Goldberg Birgin - Integrante / Fabrício Simeoni de Sousa - Integrante / Francisco Aparecido Rodrigues - Integrante / Francisco Louzada Neto - Integrante / Franklina Maria Bragion de Toledo - Integrante / Geraldo Nunes Silva - Integrante / Gustavo Carlos Buscaglia - Integrante / Joao Luiz Filgueiras de Azevedo - Integrante / Jose Mario Martinez Perez - Integrante / José Carlos Maldonado - Integrante / Julio Michael Stern - Integrante / Jó Ueyama - Integrante / Leandro Franco de Souza - Integrante / Lucio Tunes dos Santos - Integrante / Luis Gustavo Nonato - Integrante / Maria do Socorro Nogueira Rangel - Integrante / Mario de Castro Andrade Filho - Integrante / Maristela Oliveira dos Santos - Integrante / Murilo Francisco Tome - Integrante / Nikolai Valtchev Kolev - Integrante / Paulo José da Silva e Silva - Integrante / Paulo Morelato França - Integrante / Reinaldo Morabito Neto - Integrante / Roberto Andreani - Integrante / Rodrigo Fernandes de Mello - Integrante / Ronaldo Dias - Integrante / Sandra Augusta Santos - Integrante / Tiago Pereira da Silva - Integrante / Vicente Garibay Cancho - Integrante / Yvonne Primerano Mascarenhas - Integrante / Zhao Liang - Integrante. Financiador(es): Fundação de Amparo à Pesquisa do Estado de São Paulo - Auxílio financeiro.
      Membro: Filippo Giovanni Ghiglieno.
  
  

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