邢唷> 02/欹€ 餜bjbj8xx~ 8 )=====Z!==P%%%==%%%%=P"勖j%0%4%%t%% : D桍N1 乢茤啒遅 Supramolecular Chemistry and Catalysis Because of its interdisciplinary nature, supramolecular chemistry is now prevalent in many scientific areas including chemistry, physics, materials and life science. Supramolecular chemistry was linked to biology at its initial invention, for the reason that both sciences are dominated by weak interaction and molecular recognition. Typical processes such as enzymatic catalysis featuring high catalytic activity and selectivity take place under mild conditions. These attractive properties have been a source of inspiration and longstanding proposed application of supramolecular chemistry. The joint Sino-Dutch bilateral research project will focus on the establishment of novel supramolecular systems that are constructed and fabricated based on new principles and ingenious macrocyclic compounds or other small molecular building blocks. The program aims at the development of conceptually new supramolecular and bio-inspired systems which have applications in catalysis and energy conversion. To achieve this, experts from the following fields are expected to provide important contributions. 1. Supramolecular Catalysis and self-assembled catalysis Construction of self-assembled catalytic systems featuring simplicity and reversibility of preparation of catalysts, and reusability and sustainability of supramolecular catalytic processes. Fabrication of well-defined supramolecular catalysts enabling chemical transformations that are difficult or even not feasible by means of conventional catalysis. 2. Bio-inspired catalysis Catalyst systems that function based on principles found in Nature, functional biomolecule-based small, macromolecular systems and self-assembled systems with well-defined structures, which mediate and catalyze highly efficient and stereoselective and enantioseselective chemical transformations. 3. Chemical / biological self-assembly & controllable assembly processes Development of new physical and chemical methods to regulate chemical and biological self-assembly and disassembly processes while controlling and modulating the (multiple) physical and biological functions of assembled materials. 4. Novel host-guest systems and artificial receptors Design and synthesis of ingenious macrocyclic, small molecular and polymeric hosts based on new concepts and synergistic non-covalent and dynamic covalent bond interactions. Design and production of function (catalysis and guest transportation) targeted host systems are highly encouraged. 5. Molecular recognition Pursuing efficient and highly selective molecular recognition systems for advanced functional materials. Exploration and understanding of novel non-covalent bond interactions such as anion recognition and transportation, which may be relevant for understanding the novel supramolecular concepts in catalysis. Project partners are invited to explicitly seek complementary expertise, where fundamental knowledge of chemical/biological self-assembly, host-guest systems, artificial receptors and molecular recognition are enablers for the development of new concepts in supramolecular catalysis or energy conversion processes.     f VW}~蜴扌宫箳箖{w{w{w{whiFjhiFUhOnh=8CJ aJmH sH 2hOnCJaJfHmH nHo(q sH tHhOnh`2CJmH sH -hOnh`2CJaJfHmH q sH hOnh`25丆JmH sH h=8CJaJh婥h;C5丆JaJh婥h;C5丆JaJo(df   €  =de AB}剨^剨gd`2gd`2$a$gd`2gd=8}~€gdgd`2 6182P:pe皞. 捌A!"#悹$悹%癝班 惄j (666666666vvvvvvvvv666666>6666666666666666666666666666666666666666666666666hH6666666666666666666666666666666666666666666666666666666666666666662 0@P`p€2( 0@P`p€ 0@P`p€ 0@P`p€ 0@P`p€ 0@P`p€ 0@P`p€8XV~ OJPJQJ_HmH nHsH tHZ`Z `2 ck噀d3B*CJOJQJ^J_HaJmH ph333sH tH wh€€€$A $ 貫祂=刉[SOBiB 0nf恏赝3縗`?/[G殁\!-跼k.搒曰..椃碼婵?PK!ブх6 _rels/.rels剰蟡0 囷吔冄}Q颐%v/C/(h"脎O 劋秣=畫旂 毆免C?薶醰=偵叅%[xp啠{鄣_糚眩<10堎O糝瓸d焉襃E4b$q_槥6L吁R7`畯ㄉ趁0虨O,錏n7擫i鋌〃/鉙綈╡械根铸PK!kytheme/theme/themeManager.xml 蘉 @醹愘7c(Eb菜CA菭覠圩邈7芜諞K Y, 奺.埛饇,ㄚH,l崆骈x纱逫萻Q}#諓叚递 值+!,較$j=婫W栌)釫+& 8PK!mQtheme/theme/theme1.xml靁MoE#F{oc'vGuh覨盵糟x=逎zvg53Nj廐H垈z饴昛 $石I)*E阓酀欇鮊&IA!裎>秣羌3緓镹男>掤搁U蟇L0斈屵呖z迃rx鳔脅稔h9T8奣/魁煜?鍃Y雒'蟸3S琦棌~蜩鶅O_|w)馉镉圚t=乤+d NG1-Rl苼1諶J鴚T锠疢1Kc柩"o he浪撣幝絇L-憒%绗臙甴Y7'qP.\L姼=岟薲穛炷3I爋fi墸.帽墘BRb-J款P_p蒅 茛▍i㎏鷗郿訉h汧梚櫷o7;7Q嫵2染媱珼>a/銐翾>嶺厌W 藬霱卂膗H剄)薶 胺+:Vi豾4r態裶汐橌"r嫃!帓2l徠a麃C奲此U|嚮!8^顩8>軤仯,A魶壭眲V韙鄨讕厏ls囔14犁_=,涩返o聻TV 跥陲"苎鎎H唼灮'.4熯x薜躻-戏蹺鮸褾;氕衯踯`嘼3"G 'e\昮H柊O 话ㄩ恬愪'$劘i_wp伬 >*靺8魂i&丩Y%\铝,楎謝視=瞩伭壵阱綔 r6f 提3储淭厥厰)橗:陋ZK誏玸ゅ&C 鏜兣軟0€ [浪玴@注醏j扣7 媺耏咹唜Hi荤cT5A蕆跑@顢腍驇馴AZC硙i' RQ\m伕,zo,僩Q襲{Y\,Nψ/=溷ら嵿L _.跆嘫7C6韽-fS宄h62密"5咍麥罭H凾[X65太4X%Y龡豚殖2纅鷎h辈绅痠~tCKF#猥b +趙1m鑵4`眹!:U翞!昿5a:倊€{4韒笫m蝘o 萎c杽8m泛D矹秔S枪姗豓1铘?#S奿?3E'pS2疳W`る甸q]( ┻08樲w别 n撏A鲺[s枃)k8皓= Aa?R d趻删c楿咏瞬d)#換ueb恾满捷C!ず&i0福>4魫S7鋥z虮 F箎 4sKvUKo瘸椒h垀1砵YU€奥V蠬塔5U8錠k;譁潘鮈9堚寂皹D 荀 ?*|FL 迪鳡"A3兇伂>g类dm2iV值殍そ杕謌<殒r8[kv抶熞蠃p鎶sj,潩z伛礭[鑚堨叆Qv11縤u鈨-高0%M2羙J描3u舘%覎PK! 褠煻'theme/theme/_rels/themeManager.xml.rels剰M 0匃倃oo雍&輬协勪5 6?$Q祉 ,.嘺緳i粭澤c21h:闀q毩m胳嶡RN壻;d癭値o7g慘(M&$R(.1榬'J摐袏T鶂8V"&A然蠬鱱}狇|$絙{朠除8塯/]As賲(⑵锑#洩L蔥汉倪PK-!倞[Content_Types].xmlPK-!ブх6 +_rels/.relsPK-!kytheme/theme/themeManager.xmlPK-!mQtheme/theme/theme1.xmlPK-! 褠煻' theme/theme/_rels/themeManager.xml.relsPK]    } 餦(# 咥臕@€€€餒 0(  饞0(  養 S  ? \jjx?JXf%49I ) D R ~ € {} t ~ € 3333 ~ u } iF`2zQ餪'=8nBFG醱PU駊ce禭kOnz€;C朠璅 d5zh婥馺~ € @ PP@UnknownG* €Times New Roman5€Symbol3. * €Arial7.爗 @Calibri;媅SOSimSun7.  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