MACRAMÉ-ChiPs: Patchwork Project Family & Sibling Projects (24th Meeting of the OECD WPMN)

•

0 likes•44 views

The MACRAMÉ Project presented an update to the 24th OECD WPMN, introducing its new sibling projects CHIASMA, INSIGHT, and PINK: MACRAMÉ-ChIPs

The MACRAMÉ project has received funding from the European Union’s Horizon Europe
Research and Innovation programme under grant agreement No. 101092686.
Associated Partners (i.e. (a) Swiss Partners and (b) UK Partners) have received national funding from
(a) the Swiss State Secretariat for Education, Research and Innovation (SERI), and (b) Innovate UK.
Patchwork Project Family &
Sibling Projects
– MACRAMÉ-ChIPs
24th Meeting of the OECD Working Party on Manufactured Nanomaterials (WPMN)
26th – 28th June 2024, Paris

HORIZON-CL4-2023-
RESILIENCE-01-21:
Innovative methods for safety
and sustainability assessments
of chemicals and materials
(RIA)
HORIZON-CL4-2023-
RESILIENCE-01-22: Integrated
approach for impact
assessment of safe and
sustainable chemicals and
materials (RIA)
HORIZON-CL4-2023-
RESILIENCE-01-23:
Computational models for the
development of safe and
sustainable by design
chemicals and materials (RIA)
>>> decreasing Experimental (lab) work >>>
>>> increasing in silico work >>>
Sharing of Case-Studies of specific
Chemicals & Materials
Integration of shared computational Methods
total budget: € 23.2 Mio. (ca. ¾ from EU, ¼ non-EU)  37 individual Research Institutions;  Jan. 2024 – Dec. 2027
24th OECD WPMN
26th – 28th June 2024, Paris

The CHIASMA Project has received funding from:
The European Union’s Horizon Europe
Research and Innovation programme
under grant agreement No. 101137613.
ACCESSIBLE INNOVATIVE METHODS
FOR THE SAFETY & SUSTAINABILITY
ASSESSMENT OF CHEMICALS & MATERIALS
24th Working Party on Manufacture Nanomaterials (WPMN)
26th – 28th June 2024

The CHIASMA R&I Approach
24th OECD WPMN
26th – 28th June 2024, Paris
4
Combining an iterative
approach of:
(1) chemocentric,
(2) biocentric, and
(3) new experimental
models
into a conceptual
framework for data-
integration and -
processing.
Illustration of the CHIASMA R&I approach to testing and assessment of materials.

The INSIGHT Project has received funding from:
The European Union’s Horizon Europe Research
and Innovation programme under grant
agreement No. 101137742.
Funding Agency
Australia
Funding Agency
USA
Integrated Models for the Development and
Assessment of High Impact Chemicals and Materials
24th OECDWorking Party on Manufactured Nanomaterials (WPMN)
26th – 28th June 2024, Paris

R&I Approach
6
1. Life Cycle thinking approach, identification of relevant data and models
2. Development of the model graph
3. Development of the data graph
4. FAIRification of models / research software & Data
5. Definition of integrated mechanistic models of impact
6. Development of the Decision Support System & INSIGHT framework GUI
24th OECD WPMN
26th – 28th June 2024, Paris

A S S O C I A T E D P A R T N E R S ( I . E . ( A ) S W I S S P A R T N E R S A N D ( B ) U K P A R T N E R S )
H A V E R E C E I V E D N A T I O N A L F U N D I N G F R O M ( A ) T H E S W I S S S T A T E S E C R E T A R I A T
F O R E D U C A T I O N , R E S E A R C H A N D I N N O V A T I O N ( S E R I ) , A N D ( B ) I N N O V A T E U K .
T H E P I N K P R O J E C T H A S R E C E I V E D F U N D I N G F R O M T H E E U R O -
P E A N U N I O N ’ S H O R I Z O N E U R O P E R E S E A R C H A N D I N N O V A T I O N
P R O G R A M M E U N D E R G R A N T A G R E E M E N T N O . 1 0 1 1 3 7 8 0 9 .
PROVISION OF INTEGRATED COMPUTATIONAL
APPROACHES FOR ADDRESSING NEW MARKET
GOALS FOR THE INTRODUCTION OF SAFE-AND-
SUSTAINABLE-BY-DESIGN CHEMICALS AND
MATERIALS
2 4 t h W o r k i n g P a r t y o n M a n u f a c t u r e d N a n o m a t e r i a l s ( W P M N )
2 6 t h – 2 8 t h J u n e 2 0 2 4 , P a r i s

The PINK R&I Approach
… integrating the
SSbD Framework
into the
development cycle
of AdMas&Chems
8
24th OECD WPMN
26th – 28th June 2024, Paris

The MACRAMÉ Project has received funding from:
Thank you
www.macrame-project.eu
The European Union’s Horizon Europe Research and
Innovation programme under grant agreement No.
101092686.
Steffi Friedrichs
AcumenIST SRL
Steffi@AcumenIST.com

Similar to MACRAMÉ-ChiPs: Patchwork Project Family & Sibling Projects (24th Meeting of the OECD WPMN)

Supporting transition towards the Paris Agreement using TIMES: insights from ...

IEA-ETSAP

Oecd uni indcollaboration_ch2_website

slideshow19

This document summarizes key findings from a report on the impacts of public research institutions. It finds that: 1) Public research institutions have become more active in patenting and collaborate more with industry, though their contributions to patenting remain modest compared to industry. 2) Proximity to universities is positively associated with local industry patenting, regardless of local industry conditions. 3) Universities and public research institutions also stimulate innovative entrepreneurship, with start-ups founded by academics and students accounting for 15-20% of new companies, particularly in science-based fields.

Responsible Nano Innovations

Lucien Hanssen

The combination of technological promises, speculation about safety, and lack of public awareness of the consequences of nanotechnologies can easily lead to mistrust and opposition. The debate on the risks and opportunities of nanotechnologies has been going on for more than a decade, but has been limited to a small circle of specialists and institutions. Therefore, few people understand what nanotechnologies are, or even know that nano materials are already used in consumer products. In March 2009 the Dutch government decided to stimulate societal dialogue on nanotechnologies and implemented a broad discussion in which viewpoints and opinions could be expressed by all kinds of stakeholders and publics. Dutch people perceive the innovation potential of nanotechnologies as positive provided there is an adequate system for risk research, assigning permits, and nano oversight. In this respect reliability and responsibility of nano actors (risk assessors, regulators and innovators) will be decisive. Responsible nano innovation will be strongly influenced by both public perceptions of the promises and risks of nanotechnologies, and the expectation that there are responsible parties addressing remaining uncertainties. Nano actors require insight into what information is pivotal to determine whether a nano material is safe. Meanwhile, the interaction between nano actors, stakeholders and publics should be improved in order to allow discussions on safety and wider issues to keep better pace with the innovation processes. We are in need of approaches ensuring safe and responsible use of nanotechnologies that enable open routes to addressing risk and wider issues - whether these are technological, social, economic or political. Two concepts are further discussed: Safe-by-Design and Societal Incubator. Responsible nano innovation will largely depend on the willingness of nano actors to define responsibility wider than just regulating risks.

Responsible nano innovations

Lucien Hanssen

The document discusses integrating risk assessment and technology assessment (RATA) into responsible nano innovations. It summarizes a societal dialogue on nanotechnologies that identified key public concerns like health risks, ethics, and governance. While Dutch policy allocated funding for nano risk research, challenges remain around regulatory coordination, public engagement, and keeping pace with innovation. New approaches like "safe-by-design" and "societal incubators" aim to address these challenges by encouraging open discussion and embedding societal considerations into research from the start. Responsible innovation requires willingness from all actors to define responsibility broadly and find balanced solutions.

20231019to20_OIP-2023_SFriedrichs.pdf

Steffi Friedrichs

Raw Materials and Upcoming 2016/17 Calls - Milan Grohol

Environmental Protection Agency, Ireland

Fealing - Improving indicators to inform policy

innovationoecd

BRINGING INNOVATION AND SUSTAINABILITY ALONG THE WHOLE VALUE CHAIN IN THE MED...

ICARDA

Oecd uni indcollaboration_ch6_website

slideshow19

This document summarizes findings from a new OECD survey on the governance of public research institutions and its implications for knowledge transfer. The survey finds that universities and public research institutions have increased autonomy over industry relations in many OECD countries. It also finds that the use of performance contracts between ministries and universities has increased. Additionally, industry and civil society participation in university governing boards has risen across OECD countries. The document concludes that greater institutional autonomy accompanied by performance metrics and stakeholder involvement influences knowledge transfer activities.

IPCC Next Steps

ipcc-media

This document summarizes the next steps for the IPCC following the release of the AR6 reports in 2023-2023. It outlines plans to present findings at international conferences, hold regional outreach events, and initiate the Seventh Assessment cycle. It also provides statistics on authorship of the AR6 reports, including the number of authors, their countries of origin, and experience levels. The document emphasizes that individual contributions to the IPCC process are important for creating comprehensive assessments. It suggests ways for people to get involved, such as by contributing to the literature, participating in the review process, and engaging with their national IPCC focal points.

EUBrasilCloudFORUM Working Group on future scenarios and research challenges

EUBrasilCloudFORUM .

Congresso Sociedade Brasileira de Computação CSBC2016 Porto Alegre (Brazil) Workshop on Cloud Networks & Cloudscape Brazil - James Clarke, Waterford Institute of Technology, Ireland - Moacyr Martucci, Department of Engineering and Digital Systems of Polytechnic School of University of São Paulo, EUBrasilCloudFORUM member and Brazilian National Contact Point Coordinator for the Horizon 2020 and for ERC, Brazil EUBrasilCloudFORUM Working Group on future scenarios and research challenges

Medicine Traceability System using Blockchain

ijtsrd

Prerequisites from purchasers and governments to create increasingly supportable items have expanded amid late years. Regardless of whether items are certied, one cant ensure organizations meet these necessities, since no chain of occasions can check this exists. The transportation business needs certfication and data on whether a item is transported economically. In any case, the industry likewise requires follow capacity through the whole production network. In this task, the creators ponder how detectability issues can be tackled from the point of view of a fourth gathering coordinations rm and how the straightforwardness could be expanded. Researchers contend that restricted of comprehending recognizability issues, and in the meantime accomplish straightforwardness, could be to utilize the blockchain tech nology an innovation which stores information in sequential request, difficult to control a short time later. Accordingly, the blockchain innovation has been tried on an items now, from stacking at a provider, through a cross docking terminal and a focal distribution center, to getting at a customers store. By incorporating a blockchain to a web application, empowering examining of QR codes through the camera, and connecting the data from the QR code to the blockchain, computerized impressions between the gatherings could be made at each transaction. The data on the blockchain empowers organizations to fortify the relationships with current clients and to pull in new ones. Prof. Rekha Chaudhari | Rushikesh Deshmukh | Vishal Bari | Suraj Rajput | Kunal Rode ""Medicine Traceability System using Blockchain"" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-3 | Issue-4 , June 2019, URL: https://www.ijtsrd.com/papers/ijtsrd23127.pdf Paper URL: https://www.ijtsrd.com/engineering/computer-engineering/23127/medicine-traceability-system-using-blockchain/prof-rekha-chaudhari

SETAC Rome Non-Target Screening For Chemical Discovery

Emma Schymanski

1. The document discusses non-target screening approaches for holistic chemical monitoring and discovery of unknown compounds using open science resources and real-time and retrospective mass spectrometry-based methods. 2. Key resources discussed include MassBank for sharing MS/MS spectra, the NORMAN suspect list exchange for sharing lists of compounds of interest, and the CompTox Chemistry Dashboard for accessing curated lists of chemicals. 3. Examples are given of applying these methods and resources to detect previously unknown chemicals in environmental samples and to retrospectively screen archived samples.

BDE SC4 Hangout - Simon Scerri, Introduction

BigData_Europe

The document summarizes a transport pilot project within the Big Data Europe initiative. The project aims to utilize real-time probe data from multiple sources to provide accurate transportation information and advanced planning services to address congestion issues in Thessaloniki, Greece. Specifically, the pilot will collect mobility data from various sources to identify mobility patterns and inform citizens about traffic conditions. The data will be integrated and processed in real-time to provide up-to-date information mobility services. The Fraunhofer Society, CERTH, and ERTICO organizations are collaborating on the pilot to demonstrate the societal value of big data in the transport domain.

Advanced materials and nanotechnologies in Horizon 2020

JIC

The document discusses key enabling technologies (KETs) and their role in the Horizon 2020 framework program. It outlines several work programs within Horizon 2020 related to nanotechnologies, advanced materials, biotechnologies, and advanced manufacturing and processing. These areas are consolidated under the NMBP pillar. The document provides an overview of topics, budgets, and timelines for the NMBP-related calls in 2016-2017. It also discusses public-private partnerships involved in NMBP research and innovation.

Nanotechnology for Green Innovation (OECD)

KAMARULZAMAN KAMARUDDIN

This document provides an overview of green nanotechnology and its potential role in supporting green innovation and growth. It discusses how nanotechnology can contribute to products and processes that are more energy efficient, reduce waste, and have lower environmental impacts. The document examines strategies being used to support the development and commercialization of green nanotechnology applications. It also explores challenges in assessing the economic and environmental impacts of green nanotechnology, which will be important to evaluate as these technologies are further developed and implemented.

Collaborative model driven software engineering: a Systematic Mapping Study

Davide Ruscio

Collaborative software engineering (CoSE) deals with methods, processes and tools for enhancing collaboration, communication, and co-ordination (3C) among team members. CoSE can be employed to conceive different kinds of artifacts during the development and evolution of software systems. For instance, when focusing on software design, multiple stakeholders with different expertise and responsibility collaborate on the system design. Model-Driven Software Engineering (MDSE) provides suitable techniques and tools for specifying, manipulating, and analyzing modeling artifacts including metamodels, models, and transformations. A collaborative MDSE approach can be defined as a method or technique allowing multiple stakeholders to work on a set of shared modeling artifacts, and to be aware of each others’ work. Even though Collaborative MDSE is gaining a growing interest in both academia and practice, a holistic view on what Collaborative MDSE is, its components, the related opportunities and challenges is still missing. In this talk, I outlined the main insights of the systematic mapping study we have done to identify and classify approaches, methods, and techniques that support collaborative. We present three complementary dimensions that we have identified during the study as the peculiar aspects building up a collaborative MDSE: a model management infrastructure for managing the life cycle of the models, a set of collaboration means for allowing involved stakeholders to work on the modelling artifacts collaboratively, and a set of communication means for allowing involved stakeholders to be aware of the activities of the other stakeholders. The identification of limitations and challenges of currently available collaborative MDE approaches is also given by discussing the implications for future investigation.

Newseletter Smartnano 8 - Nanoparticles

SMARTNANO Project

Research Policy Monitoring in the Era of Open Science & Big Data Workshop Report

Data4Impact

Workshop on Research Policy Monitoring in the Era of Open Science and Big Data was a two day event, co-organised by OpenAIRE and Data4Impact, with support of Science Europe. The event explored mechanisms for research policy monitoring and indicators, and how to link these to infrastructure and services. The first day was focused on open science indicators as these emerge from national and EU initiatives, while the second day explored more advanced aspects of indicators for innovation and societal impact.

Technology Management and Strategy [Part II]

Thanakrit Lersmethasakul

The document proposes a process for integrating scenario planning and roadmapping to develop technology strategies, involving defining multiple future scenarios, formulating visions for a company's position in each scenario, synthesizing the visions into a common vision, and using this to structure a participatory technology roadmapping exercise to identify robust strategy options. The process is intended to bridge the flexibility of multiple scenario visions with the action orientation of roadmapping.

Similar to MACRAMÉ-ChiPs: Patchwork Project Family & Sibling Projects (24th Meeting of the OECD WPMN) (20)

Supporting transition towards the Paris Agreement using TIMES: insights from ...

Oecd uni indcollaboration_ch2_website

Responsible Nano Innovations

Responsible nano innovations

20231019to20_OIP-2023_SFriedrichs.pdf

Raw Materials and Upcoming 2016/17 Calls - Milan Grohol

Fealing - Improving indicators to inform policy

BRINGING INNOVATION AND SUSTAINABILITY ALONG THE WHOLE VALUE CHAIN IN THE MED...

Oecd uni indcollaboration_ch6_website

IPCC Next Steps

EUBrasilCloudFORUM Working Group on future scenarios and research challenges

Medicine Traceability System using Blockchain

SETAC Rome Non-Target Screening For Chemical Discovery

BDE SC4 Hangout - Simon Scerri, Introduction

Advanced materials and nanotechnologies in Horizon 2020

Nanotechnology for Green Innovation (OECD)

Collaborative model driven software engineering: a Systematic Mapping Study

Newseletter Smartnano 8 - Nanoparticles

Research Policy Monitoring in the Era of Open Science & Big Data Workshop Report

Technology Management and Strategy [Part II]

More from Steffi Friedrichs

20240610_INSIGHT_PartnerProfile-02_Tampere.pdf

Steffi Friedrichs

INSIGHT Partner Profile: Tampere University

Steffi Friedrichs

MACRAMÉ Contribution to the 'Standardisation Workshop & Panel Discussion' at ...

Steffi Friedrichs

Dr Steffi Friedrichs of AcumenIST SRL participated in the ‘Standardisation Workshop & Panel Discussion’ at Graphene Week 2023, held from the 4th – 8th September 2023 in Gothenburg. She contributed an introduction to the MACRAMÉ Project (Advanced Characterisation Methodologies to assess and predict the Health and Environmental Risks of Advanced Materials) and illustrated, how the nanotechnology community kicked off standardisation and harmonisation activities throughout 2005 to 2007, thereby laying the foundations for an extended, materials-specific approach to the collaborative development of standards (through ISO/TC 229, CEN/TC/352, ASTM/E56, and IEC/TC 113) and regulatory relevant guidelines (incl. OECD Test Guidelines and Guidance Documents). By now, this has led to the development of 215 standardisation and harmonisation documents, but many more still need to be developed; Dr Friedrichs listed 38 gaps in the standardisation and harmonisation landscape that have already been identified by TEMAS Solutions, partner of the MACRAMÉ Project (cf. Towards harmonisation of testing of nanomaterials for EU regulatory requirements on chemical safety).

US-Launch_NanoFabNet-Hub

Steffi Friedrichs

This event saw the launch of a strong international hub for sustainable high-tech innovation, whose structure, business model, detailed strategies and action plans are designed, agreed and carried by its international stakeholders, in order to yield a self-sustaining collaboration platform: the NanoFabNet Hub. The Hub aims to provide a one-stop-shop for all matters and concerns pertaining to sustainable high-tech innovation and its successful incorporation into the complex, large-scale high-value industries by bringing together governmental and academic laboratories with large industries and SMEs.

NanoFabNet Launch Event

Steffi Friedrichs

Presentation by the NanoFabNet Team to launch the NanoFabNet Hub (6th July 2022, Braga, Portugal) NanoFabNet Hub – Objectives: • Create a strong international hub for sustainable high-tech innovation, whose structure, business model, detailed strategies and action plans are designed, agreed and carried by its international stakeholders, in order to yield a self-sustaining collaboration platform: the NanoFabNet Hub. • A registered Secretariat at the Hub’s centre will provide an accountable, economically sustainable executive. • The Hub aims to provide a one-stop-shop for all matters and concerns pertaining to sustainable high-tech innovation and its successful incorporation into the complex, large-scale high-value industries by bringing together governmental and academic laboratories with large industries and SMEs. The NanoFabNet Hub is a network of micro- & nanotechnology as well as sustainability professionals, coming together to build a strong, sustainable high-tech sector ... … by focussing on the following activity fields: • Micro- & Nanotechnology Research & Innovation, Fabrication & Manufacturing • Sustainability (incl. Life-Cycle Assessment & Ethics) • Safety (incl. regulatory Risk Assessment) • Technology Validation & Inter-Laboratory Studies • Harmonisation & Standardisation & Pre-Standardisation • Laboratory Infrastructures • Education & Skills (incl. Training- & Career Opportunities) • International Cooperations & Collaborations (incl. Collaborations Market Place) NanoFabNet Products & Services: • Database of >250 relevant Standardisation & Harmonisation Documents (regularly updated) • Database of relevant documents on safety-, ethics- and governance-considerations in the high-tech sector (curated & regularly updated) • International Market-Place for R&I Collaboration and B2B-Services • Match-Making of Sustainability Opportunities in High-Tech • Information about and Contribution to (Pre)Standardisation & regulatory Harmonisation Processes • Training, Career-Development & Jobs-Market • (Speciality) Technology Validation Services • Organisation of Proficiency Testing

Concepts of Sustainable Nanofabrication

Steffi Friedrichs

The document discusses the NanoFabNet Hub, which aims to create a sustainable international collaboration platform for nanofabrication. The Hub will provide a registered secretariat and be a one-stop-shop for matters related to sustainable nanofabrication. It will bring together governmental laboratories, academics, large industries, and SMEs. The document also summarizes workshops that were held to discuss concepts of sustainable nanofabrication and mapping areas of research at the intersection of nanotechnology and sustainability.

Nanotechnology & the (Re-)Insurance Industry

Steffi Friedrichs

Presentation by Dr Steffi Friedrichs at the 4th Gov4Nano Consortium Meeting (...

Steffi Friedrichs

Presentation by Dr Steffi Friedrichs at the 2020 UNIDIR Innovation Dialogues

Steffi Friedrichs

'The Regulatory Landscape of Genome Editing' - Panel Discussion during the

Steffi Friedrichs

Presentation by Dr Steffi Friedrichs, AcumenIST, NanoEarth, Virginia Tech, 8....

Steffi Friedrichs

Title: The ‘Rise and Fall’ of Technologies (on the Example of Biotechnology and Nanotechnology) Biotechnology has often been referred to as the bigger sister of nanotechnology. Indeed, the difference between the two technologies is often reduced to a mere two-decade time warp between the technologies’ hype cycles, and both technology analysists, policy-makers and pressure groups continue to entertain each other with numerous stories about the exchangeability of the two technology names in meeting agendas, expert panel discussions, public debates and policy documents. This talk by Steffi Friedrichs, however, highlights the difference between the two technologies and outline the potential pitfalls (for both the public and the private sector) in reducing the expected trajectory of any technology’s development to a mere copy of a previous experience. Steffi discusses the evidence recently published in two in-depth reports on the development of biotechnology and nanotechnology and their resulting impacts: 1. The Report on statistics and indicators of biotechnology and nanotechnology brings together the latest available patenting and bibliometric activity data on biotechnology, nanotechnology and related emerging and converging technologies. In order to achieve a comparison between the two technology fields, the selected indicators and measurement methodology for these multidisciplinary and partially overlapping technologies were re-confirmed and stress-tested with a view to establishing uniquely accurate and relevant datasets. 2. The Trend-analysis of science, technology and innovation policies for BNCTs studied the policies pertaining to nanotechnology and biotechnology over the past three decades and analysed them with regard to their directionality (i.e. the characteristics differentiating “technology-push” from “application-pull” policies) and their generality (i.e. the antonym of a technology-specificity that limits a policy to be applicable to a specific technology field only). (NOTE: this PDF of the original presentation has been annotated for sharing.)

Presentation by Dr Steffi Friedrichs, AcumenIST, Human Germline Genome Editin...

Steffi Friedrichs

Title: The Debate on Human Germline Genome Editing in the Context of Evidence and Opinion Advancements in the life sciences recently appear to have been dominated by the topic of genome editing. Owing to the breakthrough discovery of the CRISPR/Cas9 methodology (i.e. a system, based on an RNA-guided nuclease, that was shown to cleave target genome sequences with a high specificity) in 2012, genome editing became an easily accessible and applicable tool in genome modification laboratories around the world – ranging from agricultural research on plants and animals to environmental pest controls and to advanced medicine. Within this vast field of potential applications, it is the niche of human germline genome editing that is most hotly debated in both scientific, regulatory and public fora. This presentation aims to provide an overview of the debates that have hitherto been conducted on the topic of “human germline genome editing”, and to highlight the opinions aired by the various stakeholder groups (including the research community, various groups of medical practitioners, patient groups, the general public, policy makers, ethicists, and religious organisations); within these the expert research and medical practitioner communities occupy a pivotal position that merits a detailed analysis and discussion of arguments. As with any other rapidly advancing and hotly discussed technological advancement, the presentation is to be understood as a mere snapshot of the current status of the debate on human germline genome editing. It will furthermore outline some societal and political contexts, in which the discussions need to be regarded, and draw some historical analogies, in order to ultimately inform the symposium and the winter school.

More from Steffi Friedrichs (12)

20240610_INSIGHT_PartnerProfile-02_Tampere.pdf

INSIGHT Partner Profile: Tampere University

MACRAMÉ Contribution to the 'Standardisation Workshop & Panel Discussion' at ...

US-Launch_NanoFabNet-Hub

NanoFabNet Launch Event

Concepts of Sustainable Nanofabrication

Nanotechnology & the (Re-)Insurance Industry

Presentation by Dr Steffi Friedrichs at the 4th Gov4Nano Consortium Meeting (...

Presentation by Dr Steffi Friedrichs at the 2020 UNIDIR Innovation Dialogues

'The Regulatory Landscape of Genome Editing' - Panel Discussion during the

Presentation by Dr Steffi Friedrichs, AcumenIST, NanoEarth, Virginia Tech, 8....

Presentation by Dr Steffi Friedrichs, AcumenIST, Human Germline Genome Editin...

Recently uploaded

Principles of Colorimetry - Mastering the Art of Colour Measurement

Colours Guide

Unlock the secrets of colour science with our comprehensive presentation on the principles of colorimetry. This guide delves into the critical aspects of colour measurement, essential for ensuring consistent quality and customer satisfaction across various industries. Key Topics Covered: - Introduction to Colorimetry - Human Perception of Colour - Importance of Metamerism and Colour Constancy - Understanding Different Colour Spaces (RGB, CMYK, Lab) Utilising Spectrophotometers and Colorimeters - Implementing Quality Control for Colour Consistency Learn how mastering these techniques can enhance product quality and meet customer expectations. Perfect for professionals in printing, textiles, paint, food, cosmetics, automotive, electronics, and more. Read the full article: https://colours.guide/principles-of-colorimetry/ Visit www.colours.guide for more insights and resources on colour science.

ScieNCE grade 08 Lesson 1 and 2 NLC.pptx

JoanaBanasen1

just download it................ just download it................ just download it................ just download it................ just download it................ just download it................ just download it................ just download it................ just download it................ just download it................ just download it................ just download it................ just download it................ just download it................ just download it................ just download it................ just download it................ just download it................ just download it................ just download it................ just download it................ just download it................ just download it................ just download it................ just download it................ just download it................ just download it................ just download it................ just download it................ just download it................ just download it................ just download it................ just download it................ just download it................ just download it................ just download it................ just download it................ just download it................ just download it................ just download it................ just download it................ just download it................ just download it................ just download it................ just download it................ just download it................ just download it................ just download it................ just download it................ just download it................ just download it................ just download it................ just download it................ just download it................ just download it................ just download it................ just download it................ just download it................ just download it................ just download it................ just download it................ just download it................ just download it................ just download it................ just download it................ just download it................ just download it................ just download it................ just download it................ just download it................ just download it................ just download it................ just download it................ just download it................ just download it................ just download it................ just download it................ just download it................ just download it................ just download it................ just download it................ just download it................ just download it................ just download it................ just download it................ just download it................ just download it................ just download it................ just download it................ just download it................ just download it..............

What is data analytics ,Data science,Data processing chain,regression,decisio...

hannahroseline2

@Call @Girls in Nagpur 🤷‍♂️ XXXXXXXX 🤷‍♂️Tanisha Sharma Best High Class Nag...

tamilitambolika

ThrombUS+ Project Overview - January 2024

ThrombUS+ Project

Science-9-Lesson-1 ang lesson 2-NLC-pptx.pptx

JoanaBanasen1

just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it! just check it!

Comparative Accounts of Selaginella And Isoetes

saloniswain225

Liver & Gall Bladder 23098463278654387654328765439875.pptx

muralinath2

Keys of Identification for Indian Wood: A Seminar Report

Gurjant Singh

Identifying Indian wood involves recognizing key characteristics such as grain patterns, color, texture, hardness, and specific anatomical features. These identification keys include observing the wood's pores, growth rings, and resin canals, as well as its scent and weight. Understanding these features is essential for accurate wood identification, which is crucial for various applications in carpentry, furniture making, and conservation. Additionally, the application of Convolutional Neural Networks (CNN) in wood identification has revolutionized this field. CNNs can analyze images of wood samples to identify species with high accuracy by learning and recognizing intricate patterns and features. This technological advancement not only enhances the precision of wood identification but also accelerates the process, making it more efficient for industry professionals and researchers alike.

PART 1 The New Natural Principles of Electromagnetism and Electromagnetic Fie...

Thane Heins

Document Summary and the History of Perpetual Motion Every single Faraday Generator coil since 1834 has been and is currently performing Negative Work at infinite efficiency with created Electromagnetic Field Energy during electricity generation and its physical Kinetic Energy reduction or Electromagnetic Resistance of the changing magnetic field which is initially inducing Electric Current in the generator coil according to Faraday's Law of Induction. The Work-Energy Principle confirms mathematically that the magnitude of the changing magnetic field's Kinetic Energy reduction is equal to the magnitude of Negative Work performed at infinite efficiency, which is equal to the magnitude of Energy (Electromagnetic Field Energy which is created according to Oersted's Law of Creation of Energy of 1820). Created Electromagnetic Field Energy is required in order to perform the Negative Work – because Work cannot be performed in the absence of Energy. In 2007 Thane Heins of Almonte Ontario, Canada discovered that unlimited amounts of Positive Electromechanical Work could be performed at infinite efficiency with created and TIME DELAYED Electromagnetic Field Energy. Every single ReGenX Generator coil since 2007 has been and is currently performing Positive Work at infinite efficiency with created Electromagnetic Field Energy during electricity generation and during its physical Kinetic Energy increase or Electromagnetic Assistance of the changing magnetic field which is initially inducing Electric Current in the generator coil according to Heins' Law of Induction. Faraday Electric Generators all harness internally Created Electromagnetic Field Energy in order to perform Negative Work (system Kinetic Energy reduction) at infinite efficiency and ReGenX Electric Generators harness internally created and Time Delayed Electromagnetic Field Energy in order to perform Positive Work (system Kinetic Energy increase) at infinite efficiency. Both Faraday Generators and ReGenX Generators operate as Perpetual Motion Machines of the First Kind because they both have the ability to perform both Negative or Positive Work indefinitely and at infinite efficiency without requiring any External Energy input. The unlimited Energy required to perform either the Negative or Positive Work is created at the Sub-Atomic Quantum Electron level inside the generators' Current Bearing Wires according to the Law of Creation of Energy. Hans Christian Oersted discovered the Law of Creation of Energy in 1820 when he demonstrated the world's first Perpetual Motion Machine of the First Kind at the University of Copenhagen when he also simultaneously violated Newton's 1st, 2nd and 3rd Laws of Motion. Michael Faraday built and demonstrated the world's second Perpetual Motion Machine of the First Kind in 1822 when he demonstrated his Electric Motor invention which harnessed created Electromagnetic Field Energy in order to perform Positive Electromechanical Work at infinite efficienc

SUBJECT SPECIFIC ETHICAL ISSUES IN STUDY

Dr Kirpa Ram Jangra

Capparidaceae ( Caper family) from Ahmedabad

saloniswain225

ALTERNATIVE ANIMAL TOXICITY STUDY .pptx

SAMIR PANDA

Alternatives animal testing are development and implementation of test methods that avoid the use of live animals. Human biochemistry, physiology, pharmacology, and endocrinology and toxicology has been derived from animal models.10-100 millions of animals are using for experimentation in a year. Animals used experimentation distributed among zebra- fish to primates. Vast majority of animals are sacrificed at end of research programme.The use of animals can be further subdivided according to the degree of suffering Minor animal suffering:- observing animals in behavioral studies, single blood sampling, Immunization without adjutants, etc. Moderate animal suffering:- repeated blood sampling, recovery from general anesthesia, etc.

Types of Garden (Mughal and Buddhist style)

saloniswain225

@Call @Girls in Asansol 🐱‍🐉 XXXXXXXXXX 🐱‍🐉 Tanisha Sharma Best High Class A...

JoyaBansal

degree Certificate of Aston University

ebgyz

原版一模一样【微信：741003700 】【(aston毕业证书)英国阿斯顿大学毕业证成绩单】【微信：741003700 】学位证，留信学历认证（真实可查，永久存档）原件一模一样纸张工艺/offer、在读证明、外壳等材料/诚信可靠,可直接看成品样本，帮您解决无法毕业带来的各种难题！外壳，原版制作，诚信可靠，可直接看成品样本。行业标杆！精益求精，诚心合作，真诚制作！多年品质 ,按需精细制作，24小时接单,全套进口原装设备。十五年致力于帮助留学生解决难题，包您满意。本公司拥有海外各大学样板无数，能完美还原。 1:1完美还原海外各大学毕业材料上的工艺：水印，阴影底纹，钢印LOGO烫金烫银，LOGO烫金烫银复合重叠。文字图案浮雕、激光镭射、紫外荧光、温感、复印防伪等防伪工艺。材料咨询办理、认证咨询办理请加学历顾问Q/微741003700 【主营项目】一.毕业证【q微741003700】成绩单、使馆认证、教育部认证、雅思托福成绩单、学生卡等！二.真实使馆公证(即留学回国人员证明,不成功不收费) 三.真实教育部学历学位认证（教育部存档！教育部留服网站永久可查）四.办理各国各大学文凭(一对一专业服务,可全程监控跟踪进度) 如果您处于以下几种情况： ◇在校期间，因各种原因未能顺利毕业……拿不到官方毕业证【q/微741003700】 ◇面对父母的压力，希望尽快拿到； ◇不清楚认证流程以及材料该如何准备； ◇回国时间很长，忘记办理； ◇回国马上就要找工作，办给用人单位看； ◇企事业单位必须要求办理的 ◇需要报考公务员、购买免税车、落转户口 ◇申请留学生创业基金留信网认证的作用: 1:该专业认证可证明留学生真实身份 2:同时对留学生所学专业登记给予评定 3:国家专业人才认证中心颁发入库证书 4:这个认证书并且可以归档倒地方 5:凡事获得留信网入网的信息将会逐步更新到个人身份内，将在公安局网内查询个人身份证信息后，同步读取人才网入库信息 6:个人职称评审加20分 7:个人信誉贷款加10分 8:在国家人才网主办的国家网络招聘大会中纳入资料，供国家高端企业选择人才办理(aston毕业证书)英国阿斯顿大学毕业证【微信：741003700 】外观非常简单，由纸质材料制成，上面印有校徽、校名、毕业生姓名、专业等信息。办理(aston毕业证书)英国阿斯顿大学毕业证【微信：741003700 】格式相对统一，各专业都有相应的模板。通常包括以下部分：校徽：象征着学校的荣誉和传承。校名:学校英文全称授予学位：本部分将注明获得的具体学位名称。毕业生姓名：这是最重要的信息之一，标志着该证书是由特定人员获得的。颁发日期：这是毕业正式生效的时间，也代表着毕业生学业的结束。其他信息：根据不同的专业和学位，可能会有一些特定的信息或章节。办理(aston毕业证书)英国阿斯顿大学毕业证【微信：741003700 】价值很高，需要妥善保管。一般来说，应放置在安全、干燥、防潮的地方，避免长时间暴露在阳光下。如需使用，最好使用复印件而不是原件，以免丢失。综上所述，办理(aston毕业证书)英国阿斯顿大学毕业证【微信：741003700 】是证明身份和学历的高价值文件。外观简单庄重，格式统一，包括重要的个人信息和发布日期。对持有人来说，妥善保管是非常重要的。

Comparison of RNA Viruses. docx

Dr Sumitha Jagadibabu

Electrostatic force class 8 ncert. .pptx

yokeswarikannan123

CULEX MOSQUITOES, SYSTEMATIC CLASSIFICATION, MORPHOLOGY, LIFE CYCLE , CLINICA...

DhakeshworShougrakpa

showing Culex mosquitoes' systematic classification, a completed life cycle i.e. egg, larva, pupa and adult mosquitoes also known as imago, also this slide showed the morphology of culex mosquitoes including head, thorax, abdomen, wing, egg larval stage, resting position,etc. by comparing with anopheles' mosquitoes. it's also showed the transmission of wuchereria bancrofti transmitted by vector Culex quinquefasciatus. Host: W. bancrofti completes its life cycle in two hosts. 1. Definitive host: Man 2. Intermediate host: Mosquito named Culex quinquefasciatus is the principle vector worldwide. Rarely Anopheles (rural Africa) or Aedes (Pacific Island) can serve as a vector. Infective form: Third stage filariform larvae are the infective form found in the proboscis of the mosquito. Mode of transmission: L3 filariform larvae get deposited in skin by the insect bite. Residents living in the endemic areas are exposed to about 50–300 L3 larvae every year.Human cycle z Develop into adults: Larvae penetrate the skin, enter into lymphatic vessels and migrate to the local lymph nodes where they molt twice to develop into adult worms in few months (4–6 weeks for B. malayi) z Adults lay L1 larvae (microfilariae): Adult worms reside in the afferent lymphatics or cortical sinuses of the lymph nodes where they mate and start laying the first stage larvae (microfilariae). Male worms die after mating where as the female worms live for 5–10 years. A gravid female can discharge 50,000 microfilariae/day z Prepatent period: It is the time period between the infection (entry of L3 larvae) and diagnosis (detection of microfilariae in blood). This is variable ranging from 80 days to 150 days Mosquito cycle z Transmission: When the mosquito bites an infected man, the microfilariae are ingested. Culex bites in night where as Aedes bites in daytime z Exsheathing: Microfilariae come out of the sheath within 1–2 hours of ingestion z Migration to thoracic muscle: L1 larvae penetrate the stomach wall and migrate to thoracic muscle in 6–12 hours where they become sausage shaped (short and thick) z Develop to infective L3 larvae: L1 larvae molt twice to develop L2 (long and thick form) followed by L3 (long and thin form). The highly active L3 larvae migrate to the labella (distal part of proboscis) of the mosquito and serve as the infective stage to man z Extrinsic incubation period: Under optimum conditions, the mosquito cycle takes around 10–14 days Clinical symptoms: The clinical symptoms and signs are mainly determined by the duration of the infection. The adult worms, which live in the lymphatic vessels, can cause severe inflammation of the lymphatic system and acute recurrent fever. Secondary bacterial infections are a major factor in the progression towards lymphoedema and elephantiasis, the characteristic swelling of the limbs, genitalia and breasts. treatment like using larvicide like fenthion can spray on water

Prototype Implementation of Non-Volatile Memory Support for RISC-V Keystone E...

LenaYu2

Handling confidential information has become an increasingly important concern among many areas of society. However, current computing environments have been still vulnerable to various threats, and we should think they are untrusted. Trusted Execution Environments (TEEs) have attracted attention because they can execute a program in a trusted environment constructed on an untrusted platform. Particularly, the RISC-V Keystone is one of the interesting TEEs since it is a flexibly customizable and fully open-source platform. On the other hand, as same as other TEEs, it must also delegate I/O processing, such as file accesses, to a host OS, resulting in the expensive overhead. For this problem, we thought utilizing byte-addressable non-volatile memory (NVM) modules is a useful solution to handle persistent data objects for TEEs. In this paper, we introduce a prototype implementation of NVM support for the Keystone. Additionally, we evaluate it on the Freedom U500 built on a VC707 FPGA dev kit. https://ken.ieice.org/ken/paper/20210720TC4K/

Recently uploaded (20)

Principles of Colorimetry - Mastering the Art of Colour Measurement

ScieNCE grade 08 Lesson 1 and 2 NLC.pptx

What is data analytics ,Data science,Data processing chain,regression,decisio...

@Call @Girls in Nagpur 🤷‍♂️ XXXXXXXX 🤷‍♂️Tanisha Sharma Best High Class Nag...

ThrombUS+ Project Overview - January 2024

Science-9-Lesson-1 ang lesson 2-NLC-pptx.pptx

Comparative Accounts of Selaginella And Isoetes

Liver & Gall Bladder 23098463278654387654328765439875.pptx

Keys of Identification for Indian Wood: A Seminar Report

PART 1 The New Natural Principles of Electromagnetism and Electromagnetic Fie...

SUBJECT SPECIFIC ETHICAL ISSUES IN STUDY

Capparidaceae ( Caper family) from Ahmedabad

ALTERNATIVE ANIMAL TOXICITY STUDY .pptx

Types of Garden (Mughal and Buddhist style)

@Call @Girls in Asansol 🐱‍🐉 XXXXXXXXXX 🐱‍🐉 Tanisha Sharma Best High Class A...

degree Certificate of Aston University

Comparison of RNA Viruses. docx

Electrostatic force class 8 ncert. .pptx

CULEX MOSQUITOES, SYSTEMATIC CLASSIFICATION, MORPHOLOGY, LIFE CYCLE , CLINICA...

Prototype Implementation of Non-Volatile Memory Support for RISC-V Keystone E...

MACRAMÉ-ChiPs: Patchwork Project Family & Sibling Projects (24th Meeting of the OECD WPMN)

1. The MACRAMÉ project has received funding from the European Union’s Horizon Europe Research and Innovation programme under grant agreement No. 101092686. Associated Partners (i.e. (a) Swiss Partners and (b) UK Partners) have received national funding from (a) the Swiss State Secretariat for Education, Research and Innovation (SERI), and (b) Innovate UK. Patchwork Project Family & Sibling Projects – MACRAMÉ-ChIPs 24th Meeting of the OECD Working Party on Manufactured Nanomaterials (WPMN) 26th – 28th June 2024, Paris

2. HORIZON-CL4-2023- RESILIENCE-01-21: Innovative methods for safety and sustainability assessments of chemicals and materials (RIA) HORIZON-CL4-2023- RESILIENCE-01-22: Integrated approach for impact assessment of safe and sustainable chemicals and materials (RIA) HORIZON-CL4-2023- RESILIENCE-01-23: Computational models for the development of safe and sustainable by design chemicals and materials (RIA) >>> decreasing Experimental (lab) work >>> >>> increasing in silico work >>> Sharing of Case-Studies of specific Chemicals & Materials Integration of shared computational Methods total budget: € 23.2 Mio. (ca. ¾ from EU, ¼ non-EU)  37 individual Research Institutions;  Jan. 2024 – Dec. 2027 24th OECD WPMN 26th – 28th June 2024, Paris

3. The CHIASMA Project has received funding from: The European Union’s Horizon Europe Research and Innovation programme under grant agreement No. 101137613. ACCESSIBLE INNOVATIVE METHODS FOR THE SAFETY & SUSTAINABILITY ASSESSMENT OF CHEMICALS & MATERIALS 24th Working Party on Manufacture Nanomaterials (WPMN) 26th – 28th June 2024

4. The CHIASMA R&I Approach 24th OECD WPMN 26th – 28th June 2024, Paris 4 Combining an iterative approach of: (1) chemocentric, (2) biocentric, and (3) new experimental models into a conceptual framework for data- integration and - processing. Illustration of the CHIASMA R&I approach to testing and assessment of materials.

5. The INSIGHT Project has received funding from: The European Union’s Horizon Europe Research and Innovation programme under grant agreement No. 101137742. Funding Agency Australia Funding Agency USA Integrated Models for the Development and Assessment of High Impact Chemicals and Materials 24th OECDWorking Party on Manufactured Nanomaterials (WPMN) 26th – 28th June 2024, Paris

6. R&I Approach 6 1. Life Cycle thinking approach, identification of relevant data and models 2. Development of the model graph 3. Development of the data graph 4. FAIRification of models / research software & Data 5. Definition of integrated mechanistic models of impact 6. Development of the Decision Support System & INSIGHT framework GUI 24th OECD WPMN 26th – 28th June 2024, Paris

7. A S S O C I A T E D P A R T N E R S ( I . E . ( A ) S W I S S P A R T N E R S A N D ( B ) U K P A R T N E R S ) H A V E R E C E I V E D N A T I O N A L F U N D I N G F R O M ( A ) T H E S W I S S S T A T E S E C R E T A R I A T F O R E D U C A T I O N , R E S E A R C H A N D I N N O V A T I O N ( S E R I ) , A N D ( B ) I N N O V A T E U K . T H E P I N K P R O J E C T H A S R E C E I V E D F U N D I N G F R O M T H E E U R O - P E A N U N I O N ’ S H O R I Z O N E U R O P E R E S E A R C H A N D I N N O V A T I O N P R O G R A M M E U N D E R G R A N T A G R E E M E N T N O . 1 0 1 1 3 7 8 0 9 . PROVISION OF INTEGRATED COMPUTATIONAL APPROACHES FOR ADDRESSING NEW MARKET GOALS FOR THE INTRODUCTION OF SAFE-AND- SUSTAINABLE-BY-DESIGN CHEMICALS AND MATERIALS 2 4 t h W o r k i n g P a r t y o n M a n u f a c t u r e d N a n o m a t e r i a l s ( W P M N ) 2 6 t h – 2 8 t h J u n e 2 0 2 4 , P a r i s

8. The PINK R&I Approach … integrating the SSbD Framework into the development cycle of AdMas&Chems 8 24th OECD WPMN 26th – 28th June 2024, Paris

9. The MACRAMÉ Project has received funding from: Thank you www.macrame-project.eu The European Union’s Horizon Europe Research and Innovation programme under grant agreement No. 101092686. Steffi Friedrichs AcumenIST SRL Steffi@AcumenIST.com

MACRAMÉ-ChiPs: Patchwork Project Family & Sibling Projects (24th Meeting of the OECD WPMN)

More Related Content

Similar to MACRAMÉ-ChiPs: Patchwork Project Family & Sibling Projects (24th Meeting of the OECD WPMN)

Similar to MACRAMÉ-ChiPs: Patchwork Project Family & Sibling Projects (24th Meeting of the OECD WPMN) (20)

More from Steffi Friedrichs

More from Steffi Friedrichs (12)

Recently uploaded

Recently uploaded (20)

MACRAMÉ-ChiPs: Patchwork Project Family & Sibling Projects (24th Meeting of the OECD WPMN)