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新的IUPAC任务组 - 气体的理由,特别参考表面积和孔径分布的评价。有关更多信息。
Characterization of Porous Solids and Powders: Surface Area, Porosity and Density; S. Lowell, J. Shields, M.A. Thomas & M. Thommes, Springer, (2004).有关更多信息。
录iew Articles-Invited Book Chapters
I Senkovska, KA Cychosz, P Llewellyn, M Thommes, S KaskelAdsorption Methodology, In: The Chemistry of Metal Organic Frameworks: Synthesis, Characterization, and Applications: Synthesis, Characterization, and Applications, p.575-605, Wiley‐VCH Verlag GmbH & Co. KGaA, 2016.

K A。Cychosz,R.Guillet-Nicolas,J.Garcia-Martinez和M. Thommes,“Recent advances in the textural characterization of hierarchically structured nanoporous materials“ (invited review article),化学。SOC。录46,389(2017)。

M. Thommes,K.A Cychosz,A.v.Neimark,(被邀审查/书籍章节):纳米多孔碳的高级物理吸附特征。Tascon,J.M.D.(eds。)新型碳吸附剂那pp. 107-145. Elsevier (2012)

马蒂亚斯玄关,纳米多孔材料的物理吸附表征(被邀审查):Chemie Ingenieur Techni,82,1056-1073(2010),免费下载。

Jean Rouquerol, Gino Baron, Renaud Denoyel, Herbert Giesche, Johan Groen, Peter Klobes, Pierre Levitz, Alexander Neimark, Sean Rigby, Romas Skudas, Kenneth Sing, Matthias Thommes, and Klaus Unger, Liquid Intrusion and alternative methods for the characterization of macroporous materials,纯粹的应用。Chem.,出版日期(网络):2011年12月12日。

R.Skudas,M. Thommes,K.K.unger,表征整体硅的孔隙结构,在“分离科学中的单片二氧化硅:概念,合成,表征,建模和应用”,第4章,编辑:klaus k.unger,nobuo tanaka,egidijus machtejevas,首先乐动官方体育app版本2011 Wiley-VCH Verlag GmbH&Co.KGAA。

M. Thommes,最近的进步物理吸附表征中孔材料那invited book chapter/review article for Annual Review of Nano Research, Vol. 3, edited by Guozhong Cao. Qifeng Zhang and C.Jeffrey Brinker, World Scientific, (2009).有关更多信息。

A. Neimark, K.S.W. Sing and M. Thommes, Surface Area and Porosity, In:Handbook of Heterogeneous Catalysis,第二版(ERTL,Koezinger,Schueth&Weitkamp,Eds),Wiley,(2008)。有关更多信息。

R. Staudt and M. Thommes, Zeolites and Adsorption: Model materials and applications, In:沸石:从模型材料到工业催化剂,(J.Cejka,J.Perez-Parikee,W.J.Roth,EDS)第9章,PP 207-225,Transworld Research网络,(2008)。有关更多信息。

M. Thommes;物理吸附沸石和订购介孔材料的纹理规范化,:沸石科学与实践介绍(第三版),(Cejka,J.,Van Bekkum,H.,Corma,A.,Schüth,F.,EDS。),螺柱。冲浪。SCI。催产。,168那Chapter 15, pp.495-525, Elsevier, (2007).有关更多信息。

M. Thommes;Physical Adsorption Characterization of Ordered and Amorphous Mesoporous Materials, In:Nanoporous Materials, Science & Engineering(Lu G.Q. & Zhao X.S., eds), Chapter 11, Imperial College Press, (2004).有关更多信息。

Selected Recent Research Paper

R Guillet-Nicolas,R Ahmad,Ka Cychosz,F Kleitz,M Thommes,“Insights into the pore structure of KIT-6 and SBA-15 ordered mesoporous silica–recent advances by combining physical adsorption with mercury porosimetry“,新化学杂志40(5), 4351-4360 (2016)

F Velasco, R Guillet-Nicolas, G Dobos, M Thommes, P Lodewyckx, “Towards a better understanding of water adsorption hysteresis in activated carbons by scanning isotherms”,Carbon96.那753, (2016)

KL Stefanopoulos, FK Katsaros, Th A Steriotis, AA Sapalidis, M Thommes, DT Bowron, TGA Youngs, “Anomalous Depletion of Pore-Confined Carbon Dioxide upon Cooling below the Bulk Triple Point: An In Situ Neutron Diffraction Study”物理评论信116.那025502,2016

MG Jeong, DH Kim, SK Lee, JH Lee, SW Han, EJ Park, KA Cychosz, M. Thommes, Y.K. Hwang, J.S.Chang, Y.D. Kim , Decoration of the internal structure of mesoporous chromium terephthalate MIL-101 with NiO using atomic layer deposition,Microporous and Mesoporous Materials22.1那101-107, (2016)

M ogura,R Guillet-Nicolas,D Brouri,S Casale,J Blanchard,Ka Cychosz,M. Thommes,“Zr / SBA-15中孔二氧化硅中Zr的可访问性有所了解,随着Zr负载量增加,Microporous and Mesoporous Materials22.5,440-449,(2016)

B. Ashourirad,Pezhman A.,Timur Islamoglu,Katie A Cychosz,Matthias Thommes,Hani M El-Kaderi,杂种掺杂多孔碳的成本效益合成为高效的CO2sorbents,Journal of Materials Chemistry一个4.(38),14693-14702,(2016)

AJ Cairns, J Eckert, L Wojtas, M Thommes, D Wallacher, PA Georgiev, P.M. Forster, Y. Belmabkhout, J. Olivier, and M. Eddaoudi, Gaining Insights on the H2–Sorbent Interactions: Robust soc-MOF Platform as a Case Study,材料化学28.(20), 7353-7361, (2016)

Nathan E Schultz,Riaz Ahmad,John K Brennan,Kevin A Frankel,Jonathan D Moore,Joshua D Moore,Raymond D Mountain,Richard B Ross,Matthias Thenmes,Vincent K Shen,Daniel W Siderius,Kenneth D Smith,“第八个工业液体属性模拟挑战“,Adsorption Science & Technology34(1),12,(2016)

RB Ross,DB Aeschliman,R Ahmad,JK Brennan,ML Brostrom,K.A。Frenkel,J.D. Moore,R. D. Mountain,D. M. Poirier,M. Thommes,V.K.Chen,N. E. Shulz,D.W.Siderius,K。D. Smith,“吸附,X射线衍射,光电子和原子发射光谱基准,用于第八个工业液性能模拟挑战的研究”,吸附科技34 13,(2016)

H吴,CG Thibault,H王,Ka Cychosz,M王子,J李,“温度对超微孔MOF中的氢气和二氧化碳吸附滞后的影响”,Microporous and Mesoporous Materials219那186 (2016)

X.Zhang,丹丹,s . Asahina k . a . CychoszK. V. Agrawal, Y. Al Wahedi, A. Bhan, S. Al Hashimi, O.Terasaki, M.Thommes, and M.Tsapatsis* Synthesis of Self-Pillared Zeolite Nanosheets by Repetitive Branching;Science336(6089), 1684-1687 (2012).

Y.Zhu, S.Murali, M.D. Stoller,., K.J.Ganesh, W.Cai, P.J, Ferreira, A Pirkle, R.M. Wallace, K.A Cychosz, M. Thommes, D. Su, E.A. Stach, R. Ruoff,: Carbon-based supercapacitors produced by activation of graphene.Science332那1537-1541.

M Thommes,J.Morell,K.一种Cychosz和M. FroOEBA,“结合氮,氩气和水吸附,用于有序中孔碳(CMK)和周期性中孔有机硅(PMOS)的先进表征Langmuir2013年,29(48),PP 14893-14902。

P. Lodewyckx, E. Raymundo-Pinera, M. Vaclavikova, I. Berezovska, M. Thommes, F. Beguin, G. Dobos:, “Suggested improvements in the parameters used for describing the low relative pressure region of the water vapour isotherms of activated carbons”,Carbon60(2013)538。

R. Cimino, K.A Cyhosz, M. Thommes, A.V. Neimark, “Experimental and Theoretical Studies of Scanning Adsorption-Desorption Isotherms”Colloids and Surfaces A:物理化学和工程方面“,(2013)。

A. Dukhin, S. Swasey, M. Thommes, “A Method for Pore Size and Porosity Analysis of Porous Materials Using Electroacoustic and High Frequency Conductivity”Colloids and Surfaces A:物理化学和工程方面“,(2013)。

GOR,G.Y.,THOMMES,M.,CYCHOSZ,K.A.,NEIMARK,A.V .:脱硫固体密度函数理论方法,用于通过氮吸附表征中孔碳的表征。Carbon50那1583-1590 (2012).

G.R Peterson,K.A.Cychosz,M.Thommes,L.J.,Hope-Thape,“硝化纤维素Aerogels中的溶剂调整的等级孔隙率”,Chem。安排。(2012),48,11754-11756。

G.R Peterson,K.A.Cychosz,M.Thommes,L.J.,Hope-Thape,“硝化纤维素Aerogels中的溶剂调整等级孔隙率”,化学。套。(2012),48那11.754-11756.

K A。Cychosz,X.guo,W.fan,R.cimino,G.Yu。Gor,M. Tsapatsis,A.v.Neimark *,和M. Thommes(相应的作者),“使用高分辨率气体表征三维有序介孔碳的孔隙结构”Langmuir28.,(2012),PP 12647-12654。

M. Thommes,S. Mitchel和J.Pérez-Ramírez,通过先进的水和氩吸附研究对分层MFI沸石的表面和孔隙结构评估,J. Phys. Chem.C,116.(35), pp 18816–18823 (2012).

J. Rouqurol,G.v.Baron,R. Denoyel,H.Giesche,J. Groen,P. Klobes,P. Levitz,A.V。Neimark,S. Rigby,R.Skudas,K.唱歌,M. Thommes,K. unger,“大孔固体的表征:方法论概述”,Microporous and Mesoporous Materials154(2012) 2-6.


M. Oschatz, L. Borchardt, M. Thommes, K. A.Cychosz, I. Senkovska, N. Klein, R. Frind, M. Leistner, V. Presser, Y. Gogotsi, and S. Kaskel, Carbide-Derived Carbon Monoliths with Hierarchical Pore Architecture,angew。化学。int。埃德。那51,(2012)。

J. Silvestre-Albero, A. SilvestreoAlbero, F. Rodriguez-Reinoso, M. Thommes, Physical characterization of activated carbons with narrow microporosity by nitrogen (77.4K), carbon dioxide(273K), argon (87.3K) adsorption in combination with immersion calorimetryCarbon那in press, 2011 (doi:10.1016/j.carbon. 2011.09.005)

D. Laessig, J. Lincke, J. Moellmer, C. Reichenbach, A. Moeller, R. Glaeser, G. Kalies, K. A. Cychsoz, M. Thommes, R. Staudt, and H. Krautscheid ,A microporous copper metal-organic framework with high H2 and CO2 adsorption capacity at ambient pressure:,angew。化学。int。埃德50(2011), 50, 1-6.

Xin Hu, M. Radosz, K.A. Cychosz, and M. Thommes,Co2-Filling Capacity and Selectivity of Carbon Nanopores: Synthesis , Texture, and Pore-Size Distribution from Quenched-Solid Density Functional Theory(QSDFT):Environmental Science & Technology 45,(2011)7068。

N.V. Reichhardt, R. Guillet-Nicolas, M. Thommes, B. Klösgen, T. Nylander, F. Kleitz, V. Alfredsson, "Mapping the location of grafted PNIPAAM in mesoporous SBA-15 silica using gas adsorption analysis",物理。化学。Chem.。物理。20.12那14, 5651-5661.

NF。Kleitz,F.Bérubé,R.Guillet-Nicolas,C-M Yang,M.Thommes,M .:探测吸附,孔隙凝结和三维立方体缺氧试剂盒-6二氧化硅中纯净流体的血液渗透行为。J. Phys. Chem C114.,9344-9355(2010)。

Christopher J. Rasmussen, Aleksey Vishnyakov, Matthias Thommes, Bernd M. Smarsly, Freddy Kleitz and Alexander V. Neimark,Cavitation in Metastable Liquid Nitrogen Confined to Nanoscale PoresLangmuir,(2010), DOI: 10.1021/la100268q.有关更多信息。

andrei s. dukhin,Philip J. Goetz和Matthias Thommes;Seismolectric effect: A non-isochoric streaming current. 1. Experiment :胶体与界面科学杂志(2010),DOI:10.1016 / J.JCIS.2010.02.010,。有关更多信息。

J.F. Lin, J. Wertzb, R. Ahmad, M. Thommes and A.M. Kannan,气体扩散层碳纸基材对质子交换膜燃料电池性能的影响电杂物acta,55 (2010) 2748-2751,有关更多信息。

Boris G. Shpeizer,Vladimir I. Bakhmoutov,Paul Zhang,Andrey V.Prosvirin,Kim R. Dunbar,Matthias Thommes和亚伯拉罕明确,Transition metal-alumina/silcia supermicroporous composites with tunable porosityCollois and Surfaces A: Physicochem. Eng. Aspects,357 (2010) 105-115,有关更多信息。

J. Moellmer,E.B.Celer,R.Luebke,A.凯恩斯,R.Staudt *,M. Eddaoudi *,以及M. Thommes *,Insights on Adsorption Characterization of Metal-Organic Frameworks: A Benchmark Study on the Novel soc-MOF,微孔和中孔材料,129.,345(2010)。有关更多信息。

K. M. Krause, M..T. Taschuk, K. D. Harris, D. A. Rider, N. G. Wakefield, J. C. Sit, J. M. Buriak, M. Thommes and M. J. Brett, "Surface Area Characterization of Obliquely Deposited Metal Oxide Nanostructured Thin Films"Langmuir那Articles ASAP (As Soon As Publishable)" Publication Date (Web): December 11, (2009).有关更多信息。

A.v Neimark,P.I Ravikovitch,Y.Lin,M. Thommes,“微辅碳的淬火固体密度函数理论和孔径分析,Carbon47,1617(2009)。有关更多信息。

A. Sonnauer, F. Hoffmann, M. Froeba, L. Kienle, V. Duppel. M. Thommes, C. Serre, G. Ferey and N. Stock, "Giant Pores in Chromium 2,6-Naphthalenedicarboxylate Open-Framework Structure with MIL-101 Topology",angew。化学。121.那3849 (2009).有关更多信息。

S. Mascotto, D. Wallacher, A. Brandt, T. Hauss, M. Thommes, G. A. Zickler, S.S. Funari, A. Timmann and B. M. Smarsly , "Analysis of Microporosity in Ordered Mesoporous Hierarchically Structured Silica by Combining Physisorption With in Situ Small-Angle Scattering (SAXS and SANS)"Langmuir25.12670 (2009).有关更多信息。

D. Serrano,J.Aguado,G. Morales,J.M.Rodriguez,A. Peral,M. Thommes,J.D. epping,B.F.Chmelka,种子型硅烷化制备的等级纳米晶ZSM-5沸石的分子,中间和宏观性质,“材料化学那21, 641(2009).有关更多信息。

L. Cindrella, A.M. Kannan, R. Ahmad and M. Thommes, Surface modification of Gas Diffusion Layers by inorganic Nanomaterials for Proton Exchange Membrane Fuel Cells, Int. J. Hyd. Energy, 34, 6377 (2009).有关更多信息。

R. Nicolas,F. Berube,T.W.Kim,M. Thommes,F. Kleitz,“大型孔隙中剪裁中孔隙度和胃癌孔隙率:合成,以及氮素吸附行为。表面科学与催化研究"174A那141 (2008).有关更多信息。

m . Thommes r . Skudas株式会社,昂格尔和D.Lubda Textural Characterization of Native and n-Alky Bonded Silica Monoliths by Mercury Intrusion / Extrusion, Inverse Size Exclusion Chromatography and Nitrogen Adsorption",Journal of Chromatography A,1191,57(2008).有关更多信息。

上午。Kannan,S. Sadananda,D.Parker,L.Munukutla,J.Wertz,M. Thommes“气体扩散层”金属扩散层“质子交换膜燃料电池的制造”,Journal of Power Sources178231(2008)。有关更多信息。

C. Bisio,G. Gatti,E.Boccaleri,L. Marchese,G.B。Superti,H.O.牧牛和M. Thommes,“了解皂石合成粘土的物理化学性质”,Microporous and Mesoporous Materials10790(2008)。有关更多信息。

S. Sant, M. Thommes and P. Hildgen, "Microporous structure and drug release kinetics of polymeric nanoparticles",Langmuir24.28.0 (2008).有关更多信息。

F. Porcheron, M. Thommes, R. Ahmad and P.A. Monson, "Mercury porosimetry in mesoporous glasses: A comparison of experiments with results from a molecular model",Langmuir23.3372 (2007).有关更多信息。

O. SEL,A.Barrt,D. Wallacher,M. Thommes和B.Smarsly,“中孔硅的孔隙层次在氮气理由期间通过原位的Sans证明了”介孔硅,Langmuir23.4724(2007)。有关更多信息。

M. Thommes,S. Tanaka和N.Nishyama,“基于磷酸盐温度(87 k)”的基于氪气吸附的薄膜孔径分析的新方法(87 k),表面科学与催化研究165551(2007)。有关更多信息。

F. Hung,S.Bhattacharya,B.Coasne,M. Thommes和K.E.Gubbins,“氩气和氪和模板介孔硅的吸附:分子模拟和实验”,Adsorption13.425(2007)。有关更多信息。

F. Kleitz, F. Berube, C-M. Yang and M. Thommes, "Large pore ordered mesoporous silicas materials with 3D cubic la3d structure: A comprehensive gas adsorption study",表面科学与催化研究1701843 (2007).有关更多信息。

A. Zukal, M. Thommes and J. Cejka, "Synthesis of highly ordered MCM-41 silica with spherical particles",Microporous and Mesoporous Materials10452(2007)。有关更多信息。

J.Rathousky和M. Thommes,“新型微奥莫氏沸石的吸附性能和先进的纹理表征”,表面科学与催化研究1701042 (2007).有关更多信息。

M. Thommes, B. Smarsly, M. Groenewolt, P.I. Ravikovitch and A.V. Neimark, "Adsorption hysteresis of nitrogen and argon in pore networks and characterization of novel micro-and mesoporous silicas",Langmuir22.756(2006)。有关更多信息。

O. Sel, D. Kuang, M. Thommes and B.Smarsly, "Principles of hierachical meso-and macropore architectures by liquid crystalline and polymer colloid templating",Langmuir 22.2311(2006)。有关更多信息。

H. Li,Y. Sakamoto,H.Li,O.Terasaki,M. Thommes和S. Che,“SBA-1和SBA-7介孔硅的碳复制品的合成”,Microporous and Mesoporous Materials95.193(2006)。有关更多信息。

B. SMARSLY,M. THOMMES,P. Ravikovitch和A. Neimark,“通过小角度散射和高分辨率吸附孔隙测定法”表征蠕虫状微型和中孔硅谱“,Adsorption 11.653 (2005).有关更多信息。

F. Porcheron,P.A.蒙森和M. Thommes,“使用密度函数理论建模水银孔隙仪”,Langmuir 20.6482(2004)。有关更多信息。

J.Jagiello和M. Thommes,“基于N2,AR和CO2吸附的DFT表征方法的比较应用于各种孔径分布的碳,Carbon 421277(2004)。有关更多信息。

M.Thommes,R.Koehn和M. Froeba,“纯液中的介孔MCM-48二氧化硅,MCM-41二氧化硅,SBA-15二氧化硅和控制孔玻璃的吸附和孔隙凝结行为在体积高于和低于散装三倍的温度下点”,应用表面科学196.1-4,239(2002)。有关更多信息。

AV Neimark, M Thommes, “Characterization of porous materials: from angstroms to millimeters”Colloids and Surfaces A:Physicochemical and Engineering Aspects,1-2.2016

A Dukhin, M Thommes, “Method for determining, pore size and pore size distribution of porous materials using phase of electro-acoustic signal”US Patent 9.,476,759,2016

M. Thommes, R. Köhn and M. Fröba, "Sorption and pore condensation behavior of nitrogen, argon and krypton in mesoporous MCM-48 silica materials",J. Phys. Chem。B104那7932 (2000).有关更多信息。