📢 Exciting News! 📚 Our latest research paper in Nanomaterials has just been published! 🧪🔬
We delve into the fascinating world of 2H MoTe2 (molybdenum ditelluride) and its incredible potential. This material has garnered immense interest for its applications in superconductivity, nonvolatile memory, and semiconductors. It boasts a wide range of electrical properties that make it a true game-changer.
But what's even more intriguing is our exploration of MoTe2 in combination with hexagonal boron nitride (h-BN) within lateral heterostructures. This pairing offers a unique platform for crafting groundbreaking electronic devices.
In our study, we've successfully created highly conductive interfaces in crystalline ionic liquid-gated (ILG) field-effect transistors (FETs) featuring MoTe2/h-BN heterojunctions. 🌟
Our findings reveal an efficient carrier modulation with ILG FETs, showcasing double the performance compared to standard back gating. We've achieved remarkable unipolar p-type behavior and significantly boosted mobility in MoTe2/h-BN heterochannels, setting new mobility records. At 80 K, we observed hole and electron mobility values ranging from 345 cm² V⁻¹ s⁻¹ to 285 cm² V⁻¹ s⁻¹.
But what sets our study apart is the drastic reduction of Schottky barriers, which allowed us to unlock the intrinsic, heterointerface conduction in the channels. This presents exciting opportunities for developing phase change devices using atomically thin membranes.
I want to extend my heartfelt thanks to our brilliant team, including Saidov Kamoliddin, Odilkhuja Parpiev, and Olim Ruzimuradov and our collaborators at EMPA Swiss Federal Laboratories for Materials Science and Technology: Gurdial Blugan, Sena Yuzbasi, and Natalia Kovalska. https://www.mdpi.com/2079-4991/13/18/2559
Stay tuned for more groundbreaking discoveries! 🌐🔍 #Nanomaterials #Research #Science #Innovation
We delve into the fascinating world of 2H MoTe2 (molybdenum ditelluride) and its incredible potential. This material has garnered immense interest for its applications in superconductivity, nonvolatile memory, and semiconductors. It boasts a wide range of electrical properties that make it a true game-changer.
But what's even more intriguing is our exploration of MoTe2 in combination with hexagonal boron nitride (h-BN) within lateral heterostructures. This pairing offers a unique platform for crafting groundbreaking electronic devices.
In our study, we've successfully created highly conductive interfaces in crystalline ionic liquid-gated (ILG) field-effect transistors (FETs) featuring MoTe2/h-BN heterojunctions. 🌟
Our findings reveal an efficient carrier modulation with ILG FETs, showcasing double the performance compared to standard back gating. We've achieved remarkable unipolar p-type behavior and significantly boosted mobility in MoTe2/h-BN heterochannels, setting new mobility records. At 80 K, we observed hole and electron mobility values ranging from 345 cm² V⁻¹ s⁻¹ to 285 cm² V⁻¹ s⁻¹.
But what sets our study apart is the drastic reduction of Schottky barriers, which allowed us to unlock the intrinsic, heterointerface conduction in the channels. This presents exciting opportunities for developing phase change devices using atomically thin membranes.
I want to extend my heartfelt thanks to our brilliant team, including Saidov Kamoliddin, Odilkhuja Parpiev, and Olim Ruzimuradov and our collaborators at EMPA Swiss Federal Laboratories for Materials Science and Technology: Gurdial Blugan, Sena Yuzbasi, and Natalia Kovalska. https://www.mdpi.com/2079-4991/13/18/2559
Stay tuned for more groundbreaking discoveries! 🌐🔍 #Nanomaterials #Research #Science #Innovation
MDPI
Formation of Highly Conductive Interfaces in Crystalline Ionic Liquid-Gated Unipolar MoTe2/h-BN Field-Effect Transistor
2H MoTe2 (molybdenum ditelluride) has generated significant interest because of its superconducting, nonvolatile memory, and semiconducting of new materials, and it has a large range of electrical properties. The combination of transition metal dichalcogenides…
"Exciting update from our lab! 🧪✨ We recently conducted experiments with dye solutions used in textiles, treating them with our plasma device for various durations - 15, 30, 45, and 60 minutes. 🎨 The results are promising! It appears that the pigment has been effectively broken down by radicals generated during the process.
Our next step? To identify the output products, we're diving into mass spec analysis. 🔍 Why are we focusing on dye treatment? Well, besides the obvious benefits for textile industries, which often generate significant wastewater laden with dye residues, our aim is to tackle the water usage crisis in this sector. ♻️
By cleaning up textile wastewater, we're not only reducing environmental impact but also opening up possibilities for its reuse in other applications. Stay tuned for more updates on our journey towards sustainable solutions! 🌱💧 #PhysicalChemistry #NonthermalPlasma #TextileIndustry #Innovation #EcoFriendly "
"Laboratoriyamizdan ajoyib yangilik! 🧪✨ Biz yaqinda toʻqimachilik sanoatida qoʻllaniladigan boʻyoq eritmalari bilan tajriba oʻtkazdik va ularni plazma qurilmamiz yordamida turli muddatlarda – 15, 30, 45 va 60 daqiqa davomida qayta ishladik. 🎨 Natijalar kutganimizdan a'lo! Koʻrinishidan, pigment jarayon davomida hosil bo'lgan radikallar tomonidan samarali ravishda parchalangan.
Bizning keyingi qadamimiz? Hosil bo'lgan mahsulotlarni aniqlash uchun tahlilga junatamiz. 🔍 Nima uchun biz bo'yoqlarni qayta ishlashga e'tibor qaratyapmiz? Hozirda to'qimachilik sanoatida bo'yoq qoldiqlari bo'lgan katta miqdordagi oqava suvlar asosiy muommolardan biri, maqsadimiz ushbu sohadagi chiqindi suvdan foydalanish muommosini hal qilishdir. ♻️
Toʻqimachilik oqava suvlarini tozalash orqali biz nafaqat atrof-muhitga taʼsirni kamaytirmoqchimiz, balki uni boshqa sohalarda qayta ishlatish imkoniyatlarini ham ko'rib chiqyapmiz. Muqobil yechimlar sari faoliyatimiz haqida ko'proq yangiliklar uchun bizni kuzatib boring! 🌱💧 "
Our next step? To identify the output products, we're diving into mass spec analysis. 🔍 Why are we focusing on dye treatment? Well, besides the obvious benefits for textile industries, which often generate significant wastewater laden with dye residues, our aim is to tackle the water usage crisis in this sector. ♻️
By cleaning up textile wastewater, we're not only reducing environmental impact but also opening up possibilities for its reuse in other applications. Stay tuned for more updates on our journey towards sustainable solutions! 🌱💧 #PhysicalChemistry #NonthermalPlasma #TextileIndustry #Innovation #EcoFriendly "
"Laboratoriyamizdan ajoyib yangilik! 🧪✨ Biz yaqinda toʻqimachilik sanoatida qoʻllaniladigan boʻyoq eritmalari bilan tajriba oʻtkazdik va ularni plazma qurilmamiz yordamida turli muddatlarda – 15, 30, 45 va 60 daqiqa davomida qayta ishladik. 🎨 Natijalar kutganimizdan a'lo! Koʻrinishidan, pigment jarayon davomida hosil bo'lgan radikallar tomonidan samarali ravishda parchalangan.
Bizning keyingi qadamimiz? Hosil bo'lgan mahsulotlarni aniqlash uchun tahlilga junatamiz. 🔍 Nima uchun biz bo'yoqlarni qayta ishlashga e'tibor qaratyapmiz? Hozirda to'qimachilik sanoatida bo'yoq qoldiqlari bo'lgan katta miqdordagi oqava suvlar asosiy muommolardan biri, maqsadimiz ushbu sohadagi chiqindi suvdan foydalanish muommosini hal qilishdir. ♻️
Toʻqimachilik oqava suvlarini tozalash orqali biz nafaqat atrof-muhitga taʼsirni kamaytirmoqchimiz, balki uni boshqa sohalarda qayta ishlatish imkoniyatlarini ham ko'rib chiqyapmiz. Muqobil yechimlar sari faoliyatimiz haqida ko'proq yangiliklar uchun bizni kuzatib boring! 🌱💧 "
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🌟 Exciting News! 🌟
Our next research visit takes us to Yeditepe University, nestled in the marvelous city of Istanbul. 🌉 I've had the pleasure of connecting and discussing Plasma Agriculture with Dr. Turgay Coruhlu for a long time, and now it's time to dive deeper into his innovative research. 🌱
We aim to establish a close collaboration through joint projects, and I'm happy that my student Davronjon Izzatulla Õğli will be joining me on this journey. 👨🎓 Over the next 10 days, we'll be immersed in a dense schedule of field experiments and exploring the vibrant city of Istanbul. 🏛️🌍
Looking forward to fruitful discussions and new discoveries! ✨ BTW penguin and panda accompanying us.
#ResearchVisit #PlasmaAgriculture #YeditepeUniversity #Collaboration #Innovation #IstanbulAdventures #fieldexperiment
Our next research visit takes us to Yeditepe University, nestled in the marvelous city of Istanbul. 🌉 I've had the pleasure of connecting and discussing Plasma Agriculture with Dr. Turgay Coruhlu for a long time, and now it's time to dive deeper into his innovative research. 🌱
We aim to establish a close collaboration through joint projects, and I'm happy that my student Davronjon Izzatulla Õğli will be joining me on this journey. 👨🎓 Over the next 10 days, we'll be immersed in a dense schedule of field experiments and exploring the vibrant city of Istanbul. 🏛️🌍
Looking forward to fruitful discussions and new discoveries! ✨ BTW penguin and panda accompanying us.
#ResearchVisit #PlasmaAgriculture #YeditepeUniversity #Collaboration #Innovation #IstanbulAdventures #fieldexperiment
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