| Control of structural flexibility of layered-pillared metal-organic frameworks anchored at surfaces S Wannapaiboon, S Andreas, ., I Hante, TM Baxter, Samuel J, K Epp, ... Nature communications 10 (1), 1-10, 2019 | 105 | 2019 |
| Negative thermal expansion design strategies in a diverse series of metal–organic frameworks NC Burtch, SJ Baxter, J Heinen, A Bird, A Schneemann, D Dubbeldam, ... Advanced Functional Materials 29 (48), 1904669, 2019 | 56 | 2019 |
| Tuning thermal expansion in metal–organic frameworks using a mixed linker solid solution approach SJ Baxter, A Schneemann, AD Ready, P Wijeratne, AP Wilkinson, ... Journal of the American Chemical Society 141 (32), 12849-12854, 2019 | 46 | 2019 |
| Flexibility control in alkyl ether-functionalized pillared-layered MOFs by a Cu/Zn mixed metal approach A Schneemann, R Rudolf, SJ Baxter, P Vervoorts, I Hante, K Khaletskaya, ... Dalton Transactions 48 (19), 6564-6570, 2019 | 20 | 2019 |
| Controlling the Negative Thermal Expansion and Response to Pressure in ReO3-type Fluorides by the Deliberate Introduction of Excess Fluoride: Mg1-xZr1+ xF6+ 2x, x= 0.15, 0.30 … SJ Baxter, BR Hester, BR Wright, AP Wilkinson Chemistry of Materials, 2019 | 19 | 2019 |
| Hybrid Double Perovskite Containing Helium: [He2][CaZr]F6 AJ Lloyd, BR Hester, SJ Baxter, S Ma, VB Prakapenka, SN Tkachev, ... Chemistry of Materials 33 (9), 3132-3138, 2021 | 9 | 2021 |
| Controlling the Phase Behavior of Low and Negative Thermal Expansion ReO3-Type Fluorides using Interstitial Anions: Sc1–xZrxF3+x SJ Baxter Inorganic Chemistry, 2020 | 8 | 2020 |
| Recovery of MOF-5 from extreme high-pressure conditions facilitated by a modern pressure transmitting medium SJ Baxter, NC Burtch, JD Evans, AD Ready, AP Wilkinson, ... Chemistry of Materials 34 (2), 768-776, 2022 | 7 | 2022 |
| Thermal Expansion and Response to Pressure of Double-ReO3-Type Fluorides NaMVF6 (M = Nb, Ta) AJ Lloyd, EB Masterson, SJ Baxter, JJ Molaison, AM Dos Santos, ... Inorganic Chemistry 59 (19), 13979-13987, 2020 | 6 | 2020 |
| Near 100% CO2 conversion and CH4 selectivity in a solid oxide electrolysis cell with integrated catalyst operating at 450° C SJ Baxter, M Rine, B Min, Y Liu, J Yao Journal of CO2 Utilization 59, 101954, 2022 | 5 | 2022 |
| The Effects of Ligand Substitution on MOF-808 Thermal Cycling Stability and Negative Thermal Expansion Samuel J. Baxter, Jose Mendez-Arroyo, Jim Enterkin, Paul M. Alvey, Camille ... ACS Materials Letters 4, 2381–2387, 2022 | 3 | 2022 |
| Novel graphite passivation method ND McDaniel, AO Baldridge, M Yang, JM Nelson, SJ Baxter, J Yao US Patent App. 18/458,769, 2024 | | 2024 |
| A process for methanation Y Liu, SJ Baxter, J Yao US Patent App. 17/724,929, 2022 | | 2022 |
| Amorphized Zeolite For Converting Methanol To Olefins SJ Baxter, J Yao, S Jones, Y Liu Provisional, not at liberty to disclose Application#, 2022 | | 2022 |
| Near 100% Co2 Conversion and Ch4 Selectivity in a Solid Oxide Electrolysis Cell with Integrated Catalyst Y Liu, S Baxter, M Rine, B Min, J Yao Available at SSRN 4017555, 2022 | | 2022 |
| A Process for Methanation Using Solid Oxide Electrolysis Cells S Baxter, Y Liu, J Yao US Patent App. No. 17/724,929, 2021 | | 2021 |
| Control of thermal expansion, behavior on compression, and guest loading in framework materials SJ Baxter Georgia Institute of Technology, 2020 | | 2020 |
| Tunable Thermal Expansion in Metal-Organic Frameworks Through a Mixed Linker Solid Solutions Approach. S Baxter, P Wijeratne, A Schneemann, A Ready, A Wilkinson, NC Burtch Sandia National Lab.(SNL-CA), Livermore, CA (United States), 2019 | | 2019 |
| Controlling the negative thermal expansion and response to pressure in ReO3-type fluorides by the deliberate introduction of excess fluoride: Mg2-xZrxF4+2x SJ Baxter ACS Spring 2019 National Meeting & Exposition, 2019 | | 2019 |
| Tuning Negative Thermal Expansion in ReO3-type Fluorides by Introducing Extra Anions APW Samuel J. Baxter North American Solid State Chemistry Conference, 2017 | | 2017 |
Andreas SchneemannTechnische Universität DresdenBestätigte E-Mail-Adresse bei tu-dresden.de
