A warm welcome to our new #PhD #student Yinzhou Liu who is working on #Lead-Free #Perovskites for #Optoelectronic #Applications: Performance #Optimization and #Stability Enhancement

Laser micro-nano processing of optoelectronic materials

This comprehensive #IJEM review details how laser micro-nano processing enhances #Optoelectronic device performance through high-precision structural engineering of #Semiconductors and advanced #FunctionalMaterials.
#SmartMaterials #AdvancedMaterials

#OpenAccess: doi.org/10.1088/2631...

Conformal ultra-thin, ultra-uniform metal films fabricated on non-planar substrates for advanced optoelectronics

Presenting a conformal deposition model with a metal co-doping method for #Fabrication of ultra-thin, conformal metal films on non-planar surfaces, optimizing seed-layer thickness to achieve superior #Optoelectronic performance. #ElectronicMaterials

#OpenAccess: doi.org/10.1088/2631...

Nanchang Optoelectronic Industry Cluster Displays Innovation at ISLE 2026 Nanchang's Optoelectronic Industry Cluster showcased its full-chain innovation at ISLE 2026, emphasizing its capabilities in display technology and global connectivity.

Nanchang Optoelectronic Industry Cluster Displays Innovation at ISLE 2026 #China #Shenzhen #Nanchang #Optoelectronic #ISLE

Near-zero-adhesion-enabled intact wafer-scale resist-transfer printing for high-fidelity nanofabrication on arbitrary substrates

A near-zero-adhesion resist-based transfer strategy enables intact wafer-scale #nanofilm transfer onto arbitrary substrates, supporting high-resolution #nanostructures and scalable #MoS2 electronics for advanced #optoelectronic applications.
#IJEM: doi.org/10.1088/2631...

An engaging session at yesterday’s Chemistry Inaugural Lecture Showcase, where @chemguyeli.bsky.social presented a compelling overview of illuminating a research career in #optoelectronic materials.😍👏🏻 @st-andrewschem.bsky.social @standrewsosc.bsky.social

Huaying Zhong et al in #Advanced #Science (@romandavydov): In situ #GISAXS #study of #IZO #deposition via #magnetron #sputtering for #optoelectronic #devices: film #growth and ion bombardment-induced #degradation #dynamics

Adv. Science 13, e16853 (2026)

doi.org/10.1002/advs...

Red-fluorescence under UV and green-SHG under NIR dual-mode emission in a yellow crystal of a 1,2,5-thiadiazole derivative, cover artwork

Cover✨| ChemComm
芝浦工業大学 堀顕子先生らによるRed-fluorescence under UV and green-SHG under NIR dual-mode emission in a yellow crystal of a 1,2,5-thiadiazole derivative🔴🟢
pubs.rsc.org/en/content/a...

#optoelectronic #organicMaterials @chemcomm.rsc.org @shibaura-it.bsky.social

Demonstration of an ultra‑compact on‑chip #CompoundEye camera using #3D nonuniform #ommatidia that align focal spots onto a planar CMOS #sensor, enabling seamless #optoelectronic integration and on‑chip imaging for #microfluidics and #microoptics.

#IJEM: doi.org/10.1088/2631...

Enjoying the talk by Todd Emrick, #UMass #Amherst at #TUM about “#Macromolecular-Nanoscale #Interfaces: Connecting #Polymer #Architecture with #Optoelectronic #Materials” giving great insights into the #research of his #group at the Polymer Science and Engineering Department

AFM: An important enabling technology for 2D materials and devices The last 20 years have seen remarkable progress in the study of 2D materials leading to the discovery of interesting properties and application potentials. However, there is still much to understand…

Reviewing the #AtomicForceMicroscopy techniques used to study interfacial friction and wear, modify the chemical and #optoelectronic properties of #2DMaterials, and manipulate their interfaces to enhance electronic properties.

#OpenAccess:

Optoelectronic properties of #MultiWalledCarbonNanotubes- based structures!
This study presents the synthesis & characterization of Au/PPy-MWCNTs/TiO2/Al2O3/p-Si/Al structures, and also demonstrates their #optoelectronic properties. #Photodetection

#OpenAccess: doi.org/10.1515/ntre...

This study presents a novel, low-cost, efficient and scalable #optoelectronic device, the Ag2S/P2AMB CS-#nanocomposite with high photon sensitivity, as a potential candidate for industrial applications.

#OpenAccess: www.degruyterbrill.com/document/doi...

📢 NEW PAPER OUT❗

🔬 An ICN2 Group, led by Klaas-Jan Tielrooij, with @icfo.eu collaborators & #Marburg University studied the transport mechanisms of charge carriers in MoSe₂.
🚀 Key for faster, more efficient #optoelectronic devices.

📜 Nature Communications
ℹ️ 👉 https://bit.ly/44SfIFj

#2DMaterials

Colloidal quantum dots for optoelectronics - Nature Reviews Methods Primers Colloidal quantum dots are nanometre-sized semiconductors with unique, size-dependent, optoelectronic properties owing to quantum confinement. This Primer discusses various synthetic methods and chemi...

This week's #Primer is on colloidal #quantumdots, semiconductor nanocrystals with applications in a variety of #optoelectronic devices like LEDs, solar cells, and photodetectors. Check it out here 👇📖
www.nature.com/articles/s43...

As of June 1st, my promotion to Full Professor became official! We celebrated this milestone with the team at our traditional summer BBQ and took the opportunity to take a new group photo 🌟 #best #team, #optoelectronic #materials @erc.europa.eu #NWO #SolarNL

(CN4H7)2SO4·H2O: high-performance metal-free ultraviolet birefringent crystal with KBBF-like configuration The advancement of high-quality ultraviolet (UV) birefringent crystalline materials is pivotal in advancing optoelectronic functional crystal technology. The outstanding birefringent fundamental group...

📢The first metal-free sulfate(CN₄H₇)₂SO₄·H₂O was successfully synthesized, take a look at the research below by Min Luo's team:

#birefringent #crystalline #optoelectronic
doi.org/10.1039/D5QI00819K

Photoluminescence microscopy of optoelectronic materials - Nature Reviews Methods Primers This PrimeView highlights the working principles of photoluminescence microscopy and its applications to study optoelectronic materials.

Nowadays its likely an LED light bulb would light up for a #Eureka moment!
LEDs are among the devices based on #optoelectronic materials that can be studied with #photoluminescence #microscopy.

Check out this week's #PrimeView 👇👀👇

Inspired from the #Primer out today on #Photoluminescence microscopy, here's our #Cover image of the month!

How many #optoelectronic materials can you name?

Photoluminescence microscopy of optoelectronic materials - Nature Reviews Methods Primers Photoluminescence microscopy can give information on the electronic properties of optoelectronic materials and thus the performance of optoelectronic devices. In this Primer, Wei et al. cover experime...

#Photoluminescence microscopy is the technique of this week's #Primer. The properties of #optoelectronic materials are characterised with this method, improving our understanding of their applicability.

It's out today! Check it out📖👇

Thrilled to see the #Mönch system now operational at the National Facility Center @lborouniversity.bsky.social
Looking forward to seeing new and exciting results on #solarcells and other #optoelectronic devices soon 😊

Revolutionary Dye-Sensitized Optoelectronic Synapses for Next-Gen Machine Vision Recent innovations in optoelectronic artificial synapses have paved the way for energy-efficient machine vision systems with enhanced functionality.

Revolutionary Dye-Sensitized Optoelectronic Synapses for Next-Gen Machine Vision #Japan #Tokyo #Dye-Sensitized #Optoelectronic #Artificial_Synapse

Surfactant-assisted synthesis of semiconductor hybrid Cd/Hg-selenidostannates with enhanced optoelectronic and piezoelectric properties Multifunctional compounds have attracted significant attention due to their wide-ranging applications in advanced technologies. In this study, we synthesized two semiconductor hybrid Cd/Hg-selenidosta...

🔥Hot #research article in ICF!

👉Surfactant-assisted synthesis of #semiconductor hybrid Cd/Hg-selenidostannates with enhanced #optoelectronic and #piezoelectric properties

doi.org/10.1039/D5QI...

Additionally, controlling energy flow at the atomic level can optimize light-driven technologies, such as #photodynamic therapy, photoresponsive materials, and next-generation #optoelectronic devices.

o-Carborane decorated diboron-embedded multi-resonance TADF compounds featuring narrowband emission Simultaneously achieving high luminescence quantum efficiency and narrowband emission in o-carboranyl luminophores remains a significant challenge for enhancing color purity and extending their applic...

👉Recent #research by Jaehoon Jung, Min Hyung Lee et al. from University of Ulsan

o-Carborane decorated diboron-embedded multi-resonance TADF compounds featuring narrowband emission
#optoelectronic #inorganic #ICF_research

doi.org/10.1039/D5QI...

Violet light excitable organic halides with short ∼ns emissions for multiple optoelectronic applications Phosphors, with the properties of being excitable by relatively low energy (violet-light) and having short photoluminescence (PL) lifetime (∼ns), could be used in some special optoelectronic fields, s...

👇Don't miss this exciting #research：

Violet light excitable organic #halides with short ∼ns emissions for multiple #optoelectronic applications
#Chemsky #Materials #MCF_research
doi.org/10.1039/D5QM...

🌟 Meet the Editors of Organic Materials #2: Prof. Xiaozhang Zhu 🌟

Executive Editor of #OrganicMaterials and Professor at ICCAS, he specializes in designing organic #π-functionalmaterials for #optoelectronic devices. With over 100 publications, his work drives advancements in functional materials.

Understanding the Relation between the Structure and Emission Properties in 0D (2-ABI)3Bi1–xSbxCl6·H2O: Impact of Structural Distortion and Stereoactivity of ns2 Lone Pairs pubs.acs.org/doi/10.1021/... Samal and co-workers @InorgChem #bismuth #antimony #0D #OIMHs #STEs #optoelectronic

Innovative molecular design of bridged biphenyls for calamitic nematic liquid crystals with extensive π-conjugated mesogens To develop advanced materials based on calamitic nematic liquid crystals, it is essential to design functional optoelectronic mesogens that can form nematic phases at low temperatures. This study prop...

#OpenAccess research by Gen-ichi Konishi et al. from Institute of Science Tokyo

Innovative molecular design of bridged biphenyls for calamitic nematic liquid #crystals with extensive π-conjugated mesogens

doi.org/10.1039/D4QM...

#Chemsky #MaterChemFront #MCFresearch #materials #optoelectronic

Zirconium disulfide single crystal, ZrS2(0001), characterized by X-ray photoelectron spectroscopy We analyzed the surface of a freshly exfoliated single crystal of zirconium(IV) sulfide, ZrS2. Survey spectra and high-resolution spectra from the core levels Z

Researchers from @tuftsuniversity.bsky.social analyzed high-quality single-crystal zirconium disulfide, providing reference #data to identify impurities, enhance analysis, and improve understanding for its potential in #photodetector and #optoelectronic applications. doi.org/10.1116/6.00...