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Accelerate your development of organic semiconductor materials

Access the world’s scientific knowledge with the CAS SciFinder Discovery Platform™ to uncover new opportunities and maximize the potential of your organic semiconductor materials research.

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Organic semiconductors have game-changing potential

With their lower weight, production costs, and temperature processing, as well as advanced mechanical flexibility, increased abundancy and sustainability, organic semiconductors present huge opportunities for the electronics industry compared to their traditional counterparts. Easily fabricated via deposition on flexible substrates, allowing for the development of bendable circuitry, organic semiconductor materials offer particular advantages for the development of biomedical devices, foldable solar cells, and nanoscale applications.

Challenges for advancing organic semiconductor research

With organic semiconductor materials garnering increasing interest, thiophene-based organic molecules have emerged as a popular research topic. Modifying the structure of thiophene polymers alters the electrical properties, and precise tuning can be achieved with molecular doping, however, identifying suitable molecules and doping agents from a vast range of compounds and permutations is a challenge for researchers.

Leverage expert-curated semiconductor literature

Discover insights and opportunities to spark innovation in your organic semiconductor research with access to human-curated insights from the world’s most comprehensive collection of publications.

Streamline your organic semiconductor literature review

Refine your search to key molecular structures, doping agents, and emerging applications for thiophene semiconductors with advanced filtering tools in CAS SciFinder.

Navigate the complex semiconductor data landscape

Go from inspiration to innovation faster by effortlessly searching an expert-indexed scientific database on the chemical structures and assembly strategies of organic semiconductor materials.

Search by basic structural unit

Effortlessly return a wide range of compounds of interest using a structural search. Thiophene compounds consist of various moieties containing the thiophene ring or multiple thiophene rings as a basic structural unit. With advanced capabilities in CAS SciFinder, you can search for thiophene with any substituents at 2nd and 5th position on the ring to broadly cover these compounds in one search.

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Explore a human-curated substance database

Leverage connections made by expert curators to quickly navigate to the substance insights you need. Substance results link seamlessly to an extended network of curated data, including references, reactions, and suppliers for every compound in the results set.

Learn more about substance searching in CAS SciFinder

substances search for drawn structures
reference role search, substance class

Refine your search with advanced filtering

Focus on the data you need by applying a combination of dynamic CAS SciFinder filters, including Substance Class, Isotopes, and Reference Role. By selecting from our expert-curated indexing terms like ‘polymer’ and ‘not containing isotopes’, you can distill your results to thiophene compounds with the properties you need, to get directly to specific and actionable insights. 

Learn more about substance searching in CAS SciFinder

Focus your search by concept

Quickly retrieve references related to semiconductors with the Concepts Filter. Search the filter for the word stem ‘semiconduct*’ to return all semiconductor concept sub-categories which can be used to filter your results. 

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semiconductor search
search within results

Integrate additional search terms

Save time on your literature review by refining your results even further with the Search Within feature. Search for additional terms such as ‘dope or doped or doping’ within your results set to focus strictly on doped thiophene-derived organic semiconductor materials.

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Harness the potential of novel organic semiconductor compounds

Accelerate your semiconductor innovations to power your next breakthrough with CAS SciFinder today.