| Judul | Metal Organic Framework (MOF)-Based Micro/Nanoscale Materials / Jian Wang |
| Pengarang | Jian Wang Pengyan Wu Wenqian Chen |
| Penerbitan | 4052 Basel, Switzerland : MDPI, 2026 |
| Deskripsi Fisik | 252 :ill |
| ISBN | 978-3-7258-7517-7 |
| Subjek | Chemistry & Materials Science; Supramolecular chemistry; Metal-organic frameworks |
| Catatan | "Summary The field of Metal–Organic Frameworks (MOFs) has reached a historic milestone, validated by the 2025 Nobel Prize in Chemistry in recognition of their transformative power. Celebrating this moment, this Special Issue showcases cutting-edge advances in MOF-based micro/nanoscale materials, highlighting their unparalleled structural tunability, exceptional surface areas, and versatile functionalities across energy storage, catalysis, environmental remediation, and drug delivery. The collected contributions explore fundamental stability enhancements in basic environments, complex water sorption mechanisms, and computational approaches, including machine learning for material screening. The featured innovative applications include transition metal oxides on carbon fibers for energy storage, Au nanoparticles encapsulated in Ce-MOFs, achieving record-breaking TOFs for glycerol carbonate synthesis, and sensitive detection platforms for acetone, VOCs, and Hg2+. Additional studies demonstrate electromagnetic w |
| Bentuk Karya | Tidak ada kode yang sesuai |
| Target Pembaca | Tidak ada kode yang sesuai |
| Lokasi Akses Online |
https://www.mdpi.com/books/reprint/12771-metal-organic-framework-mof-based-micro-nanoscale-materials |
| No Barcode | No. Panggil | Akses | Lokasi | Ketersediaan |
|---|---|---|---|---|
| 114926192 | 541.225 Jia m | Baca Online | Perpustakaan Pusat - Online Resources Ebook |
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| 505 | # | # | $a "Summary The field of Metal–Organic Frameworks (MOFs) has reached a historic milestone, validated by the 2025 Nobel Prize in Chemistry in recognition of their transformative power. Celebrating this moment, this Special Issue showcases cutting-edge advances in MOF-based micro/nanoscale materials, highlighting their unparalleled structural tunability, exceptional surface areas, and versatile functionalities across energy storage, catalysis, environmental remediation, and drug delivery. The collected contributions explore fundamental stability enhancements in basic environments, complex water sorption mechanisms, and computational approaches, including machine learning for material screening. The featured innovative applications include transition metal oxides on carbon fibers for energy storage, Au nanoparticles encapsulated in Ce-MOFs, achieving record-breaking TOFs for glycerol carbonate synthesis, and sensitive detection platforms for acetone, VOCs, and Hg2+. Additional studies demonstrate electromagnetic wave dissipation through vacancy-engineered composites and pH-responsive drug delivery systems using ZIF-8 nanocarriers. Together, this collection captures the vibrant interdisciplinary frontier of MOF research, from foundational property investigations to groundbreaking functional applications with immense practical potential." |
| 650 | # | # | $a Chemistry & Materials Science; Supramolecular chemistry; Metal-organic frameworks |
| 700 | 0 | # | $a Pengyan Wu |
| 700 | 0 | # | $a Wenqian Chen |
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