ライフサイエンスコーパス: coordination chemistry

1 d of research emerging from cation and anion coordination chemistry.

2 ructural organization mechanisms mediated by coordination chemistry.

3 ) because imidazole is an important donor in coordination chemistry.

4 r in tissue localization as well as in metal coordination chemistry.

5 utative binding sites results in a change of coordination chemistry.

6 roscopy (LFM) and by selective metal-organic coordination chemistry.

7 ved by taking advantage of key principles of coordination chemistry.

8 ds of DNA nanobiotechnology and metal-ligand coordination chemistry.

9 in pharmaceutical, medicinal, material, and coordination chemistry.

10 ctroscopy to monitor changes in Fe-S cluster coordination chemistry.

11 serve as starting materials for transuranic coordination chemistry.

12 t advances in the use of O-H groups in anion coordination chemistry.

13 grounded in lanthanides (e.g., Gd) versatile coordination chemistry.

14 use to technical applications as ligands in coordination chemistry.

15 ulene chemistry and classic heteroatom-based coordination chemistry.

16 deep appreciation of the surface science and coordination chemistry.

17 nvironments-analogous to fivefold centers in coordination chemistry.

18 potential for use in medicinal chemistry and coordination chemistry.

19 the structural insights into the lanthanide coordination chemistry.

20 ) ions have nearly identical ionic radii and coordination chemistry.

21 t ionizable protons, also showed interesting coordination chemistry.

22 lar classes of compounds in both organic and coordination chemistry.

23 s hindered in-depth studies of the element's coordination chemistry.

24 techniques borrowed from surface science and coordination chemistry.

25 ration of porphyrin-like or porphyrin-unlike coordination chemistry.

26 line, porous, three-dimensional structure by coordination chemistry.

27 chemical reactivity is a forefront theme in coordination chemistry.

28 by employing phosphate-zirconium-carboxylate coordination chemistry.

29 yriads of applications in supramolecular and coordination chemistry.

30 ound in 2, is observed for the first time in coordination chemistry.

31 the aid of the helper DNA through T-Hg(2+)-T coordination chemistry.

32 r based on principles of surface science and coordination chemistry.

33 tudy of chiral systems in the development of coordination chemistry.

34 In this study, we demonstrate that novel coordination chemistry accessible to ceCblC-bound cobala

35 positions with distinct geometries and anion coordination chemistries affords low barriers to transpo

36 , which generally play a subordinate role in coordination chemistry, alter the structure, the lumines

37 re are minor differences in the solution and coordination chemistries among these metals.

38 complexes often used as drugs, with diverse coordination chemistries and redox potentials.

39 ural motifs, and utility in transition metal coordination chemistry and activation of small molecules

40 rdination chemistry, ligand substituents for coordination chemistry and advanced catalyst design, and

41 This strategy is based on an integration of coordination chemistry and antisolvent effect for synchr

42 ward organic substrates and finally to their coordination chemistry and applications.

43 ures that are not accessible via traditional coordination chemistry and can possess enhanced or unusu

44 ew metal-alkyl bond is a fundamental step in coordination chemistry and catalysis.

45 ) (24)](-) anions to support applications in coordination chemistry and catalysis.

46 The coordination chemistry and catalytic behavior of nickel

47 building block that is compatible with both coordination chemistry and dynamic covalent chemistry re

48 the carbene position in 1 is found to allow coordination chemistry and E-H bond addition (E=H, B, Cl

49 ng pocket that support unusual cob(II)alamin coordination chemistry and enable the thiol oxidase acti

50 ecture is used as a platform to probe Am(3+) coordination chemistry and guest-enhanced luminescent em

51 gy and pharmacy, although it is certainly in coordination chemistry and in asymmetric catalysis using

52 th scales ranging from sub- angstromngstrom (coordination chemistry and ion pairing) to several nanom

53 Although knowledge of the coordination chemistry and metal-withholding function of

54 range of uses, fundamental understandings of coordination chemistry and methods for probing molten fl

55 ks (MOFs) is significant in both fundamental coordination chemistry and practical applications, such

56 anthanide elements) owing to their different coordination chemistry and precipitation behavior.

57 Here we combined coordination chemistry and reticular chemistry by prepar

58 s of porous solids employing both reversible coordination chemistry and reversible covalent bond form

59 The heme coordination chemistry and spectroscopic properties of R

60 However, limited information exists on the coordination chemistry and stability of chromium(III) co

61 A coordination chemistry and structure based approach was

62 normal conditions, little is known about its coordination chemistry and the nature of bonding interac

63 The coordination chemistry and the variable oxidation states

64 Phosphines are ubiquitous across metal coordination chemistry and underpin some of the most fam

65 lexing media for the study of the associated coordination chemistry and, more important, for more eff

66 alloprotein function and can be achieved via coordination chemistry and/or sequestration from bulk so

67 nes exhibit a significant dichotomy in their coordination chemistry, and can be used as a versatile c

68 hydrophobic and electrostatic interactions, coordination chemistry, and encapsulation in porous mate

69 atase 1 (PP1) has been conjugated to MPs via coordination chemistry, and MC-LR detection has been bas

70 orphyrins, their general structure, history, coordination chemistry, and optical properties, this Rev

71 al chemistry, drug discovery, agrochemistry, coordination chemistry, and organometallic chemistry.

72 avity macrocycles with enormous potential in coordination chemistry, anion sensing, photodynamic ther

73 Metal-organic frameworks with tailorable coordination chemistry are propitious for regulating cat

74 boraalkene ligand motifs in transition metal coordination chemistry are relatively underexplored.

75 o(III)K(I) catalysts, featuring very similar coordination chemistries, are prepared with different in

76 es, including electrostatic interactions and coordination chemistry, are as important as ideal pore-f

77 ntion in the transition metal and main group coordination chemistry arenas.

78 his process can be interpreted in analogy to coordination chemistry as a ligand exchange reaction at

79 or linker design and establishes competitive coordination chemistry as a versatile platform for engin

80 ers trends aligned with our understanding of coordination chemistry as well as chemical insights.

81 olling oligomerization via simple changes in coordination chemistry at distal Pt(II) nodes.

82 as well as an expansion of the knowledge of coordination chemistry at elevated temperatures in gener

83 m, main group element, rare earth metal, and coordination chemistry at large.

84 In coordination chemistry, at variance with metal surfaces,

85 is unparalleled in molecular copper-dioxygen coordination chemistry, attributable to the ligand flank

86 Herein, we report a coordination chemistry-based strategy for the surface fu

87 The differences in the N(2) coordination chemistry between sterically protected Mo-F

88 Understanding the coordination chemistry, bioavailability, and bioactivity

89 ifold use in various fields, particularly in coordination chemistry, biomedical sciences and in catal

90 blocks by "in solution" versus "on surface" coordination chemistry broadens the synthetic space to d

91 an unprecedented approach in supramolecular coordination chemistry, by considering the reversible in

92 Understanding lanthanide coordination chemistry can help develop new ligands for

93 on methods, necessitating the development of coordination chemistry compatible with the aqueous chemi

94 ithin a metal-organic framework by combining coordination chemistry considerations with the fundament

95 This work demonstrates the pivotal roles of coordination chemistry control and tuning of individual

96 , with electronic features and site-specific coordination chemistry controlled through asymmetry.

97 otein dynamics influence redox-linked cobalt coordination chemistry, controlling its catalytic versus

98 r study provides insights into how cobalamin coordination chemistry could be utilized for cofactor tr

99 discussed in great detail, showing specific coordination chemistry depending on the type of NHC liga

100 e isostructural complexes, their solid-state coordination chemistries deviate significantly.

101 one of the most popular ligands ever used in coordination chemistry due to its strong affinity for a

102 6](-) displays remarkable flexibility in its coordination chemistry due to the presence of multiple L

103 f the main avenues that have emerged in gold coordination chemistry during the last years.

104 d LH1: (1) Mg or a metal of similar size and coordination chemistry (e.g., Zn, Cd, Ni), (2) a bacteri

105 Special attention is given to explaining the coordination chemistry, electrochemical behavior, and pr

106 d tetradentate bis(amidines) have emerged in coordination chemistry, enantioselective catalysis, as b

107 Metal coordination chemistry, especially with iron, is at the

108 ation chemistry of the Bionic Leaf-N and the Coordination Chemistry Flow Battery (CCFB).

109 OEC do not exactly match those expected from coordination chemistry for the spectroscopically verifie

110 Silylamides are important ligands in coordination chemistry for their ability to stabilise lo

111 echniques with reversible catechol-metal ion coordination chemistry found in mussel adhesive proteins

112 Here, we propose a coordination chemistry-guided approach to molecularly en

113 N(2)O) is a notoriously poor ligand, and its coordination chemistry has been limited to a few termina

114 his, and contemporary synthetic transuranium coordination chemistry has begun to reveal that their pr

115 However, bis(trimethylsilyl)phosphide coordination chemistry has provided unique structural mo

116 in the field of fluoride anion complexation/coordination chemistry, has led to the development of a

117 s of four molecular squares based on rhenium coordination chemistry have been characterized in the so

118 species by using metal complexation through coordination chemistry, (ii) covalent bond formation bet

119 This puts nanometric coordination chemistry in a box that can be open or shut

120 -diamine complexes show unique structure and coordination chemistry including an unusual tridentate c

121 These studies have revealed the coordination chemistry involved in neurodegenerative dis

122 sting the emerging field of surface-confined coordination chemistry involving f-block elements.

123 lso be determined, but it has a more complex coordination chemistry involving formation of [Fe2(bipy)

124 azone (HYNIC) and labeled with 99mTc using a coordination chemistry involving tricine-phosphine colig

125 Coordination chemistry is a tool to reveal the hidden na

126 Coordination chemistry is applied to anchor Au(3+) onto

127 and, unlike naturally abundant uranium, its coordination chemistry is not well developed in all acce

128 tailor a chelator for Ac binding because Ac coordination chemistry is poorly defined.

129 Coordination chemistry is regularly used to generate sup

130 Since sophisticated coordination chemistry is required to achieve high therm

131 low 1800 degrees C in the gas phase, and its coordination chemistry is substantially limited.

132 A very exciting prospect in coordination chemistry is to manipulate spins within mag

133 the role of P(iii) and P(v) electrophiles in coordination chemistry, it has generally been more recen

134 tilizing thymine-Hg(2+)-thymine (T-Hg(2+)-T) coordination chemistry, label-free detection oligonucleo

135 l results, a fundamental understanding of Ac coordination chemistry lags behind the rest of the Perio

136 The fundamental coordination chemistry learned from py-macrodipa provide

137 sters as dianionic C sigma-bound ligands for coordination chemistry, ligand substituents for coordina

138 or advances in electronic structure studies, coordination chemistry, materials science, and beyond.

139 tion compounds (SCCs) represent the power of coordination chemistry methodologies to self-assemble di

140 Coordination chemistry models for reactions of reduced N

141 idation state, the oxidation-state-dependent coordination chemistries of 4a and 4a(+)() with a variet

142 pectate lyase folding and the distinct metal coordination chemistries of pectate lyases.

143 dium by rationally fine-tuning the redox and coordination chemistries of the palladium species involv

144 t-generation magnets relies on the versatile coordination chemistry of abundant metal ions and inexpe

145 The coordination chemistry of alkynyl triazenes and Cp*RuCl

146 This reaction advances the transition-metal coordination chemistry of ammonia beyond its role for mo

147 The coordination chemistry of an extracellular siderophore p

148 Despite this fact, the coordination chemistry of anionic gold is virtually none

149 se findings is discussed based on the unique coordination chemistry of aspartyl residues and a model

150 A study of the coordination chemistry of bis(diphenylphosphino)acetylen

151 The coordination chemistry of bis(phosphinimino)methanide li

152 We will focus on the coordination chemistry of btp ligands with a wide range

153 ures having 3-rings; and ii) RbIM guided the coordination chemistry of bTZ to bind preferentially in

154 nt changes in the average oxidation state or coordination chemistry of bulk mitochondrial iron.

155 Exploiting the unique coordination chemistry of carbon nitride, we discriminat

156 s remain virtually unexplored ligands in the coordination chemistry of coinage metals.

157 Current knowledge of the coordination chemistry of d, f and p-block fluorides and

158 Here, we present the complex coordination chemistry of DAF and palladium(II) carboxyl

159 Here, we review progress in the coordination chemistry of formazanate ligands over the p

160 Herein, we evaluate the Ti((IV))-coordination chemistry of four catechol-based, hexacoord

161 The coordination chemistry of Hg(2+) is changed from square

162 Herein, we investigate the remarkable Mn(II) coordination chemistry of human CP using X-ray crystallo

163 Here we elucidate the Ni(II) coordination chemistry of human CP.

164 The coordination chemistry of IMes-N2O (IMes = 1,3-dimesityl

165 h is not readily achieved due to the similar coordination chemistry of lanthanides.

166 Here, we present a study in understanding coordination chemistry of Mg(BH(4))(2) in ethereal solve

167 ioxane ligand and suggests that the actinide coordination chemistry of mineral surface mimics, such a

168 In total, our findings expand the biological coordination chemistry of Ni(II)-chelating proteins in n

169 stry have been so developed, reliance on the coordination chemistry of nitrogen remains a practical a

170 This review looks more widely at the metal coordination chemistry of organic donors of hydride ion-

171 The coordination chemistry of organo-hydrides is critically

172 l and magnetic properties by transposing the coordination chemistry of porphyrins into graphene nanor

173 emporary characterization strategies for the coordination chemistry of radionuclides, including case

174 field of radiochemistry and specifically the coordination chemistry of radionuclides.

175 The unique thermodynamic and kinetic coordination chemistry of ruthenium allows it to modulat

176 The structure and coordination chemistry of the copper centers in the bifu

177 The coordination chemistry of the iron(II) complex of the an

178 The coordination chemistry of the new heterocycles is explor

179 We describe the coordination chemistry of the newly prepared alpha-catio

180 first phase of a program to characterize the coordination chemistry of the phytochelatins with heavy

181 This work describes the coordination chemistry of the versatile building block [

182 Through a dramatic advance in the coordination chemistry of the zinc-hydride bond, we desc

183 tallic experiments (to isolate and study the coordination chemistry of these substrates), H/D exchang

184 In this review, we discuss the coordination chemistry of TMIs and their mobility within

185 [Fe(III)(H(3)Ent)](0) upon protonation, the coordination chemistry of two new model compounds N,N',N

186 His6 site of CP expands the known biological coordination chemistry of Zn(II) and provides new insigh

187 are extensively employed as donor ligands in coordination chemistry or as nucleophiles in organic che

188 This review discusses how Werner coordination chemistry plays a role in three diseases -

189 contextualized from both organometallic and coordination chemistry points of view.

190 works offer exciting opportunities for using coordination chemistry principles to access liquids and

191 Utilizing judicious application of coordination chemistry principles, we designed an Fe com

192 nonuclear complexes in-line with fundamental coordination chemistry principles.

193 Well-established principles of coordination chemistry provide an explanation for the re

194 This has been verified further by coordination chemistry reactions in progress.

195 spin metal centers; however, iron-dinitrogen coordination chemistry remains dominated by low-valent s

196 ients across tBLMs arises from the tethering coordination chemistry requiring an inert metal such as

197 compounds differing in V-oxidation state and coordination chemistry, revealed the predominance of V(4

198 ecessitates the integration of concepts from coordination chemistry, self-assembled monolayers and su

199 Tb has coordination chemistry similar to that of Lu; therefore,

200 on by Zn(II) and other metals as well as the coordination chemistry (stoichiometry, affinity, and spe

201 Here, we report a coordination chemistry strategy to address these issues

202 These observations are in keeping with coordination chemistry studies, whereby binding of 2-(4-

203 oint to a potentially important new role for coordination chemistry that bridges the conceptual divid

204 electron deficient d(0) Zr(IV) metal center, coordination chemistry that gives rise to ligand-to-meta

205 er published his ground-breaking research on coordination chemistry that we began to truly understand

206 ular switchable phenomena found in molecular coordination chemistry, the well-known Spin Crossover (S

207 uch as carboplatin a metallodrug based on Pt coordination chemistry, these species may help to overco

208 Ultimately, integrating coordination chemistries through the cPIM-1 and polymer-

209 pave the way to efficient design concepts in coordination chemistry through ionic control over cluste

210 ear that many of these proteins use atypical coordination chemistry to accomplish their unique goals.

211 ples highlight the use of rational design in coordination chemistry to control the lowest-energy trip

212 Herein, we use coordination chemistry to demonstrate the automation of

213 orted here, we apply some of the features of coordination chemistry to solve a long-standing problem

214 ions and highlights how his legacy dominates coordination chemistry to this day.

215 , through versatile 'ligand-sets' for use in coordination chemistry, to fundamental entities in medic

216 electrons that is shown to be accessible for coordination chemistry toward tungsten carbonyl.

217 mational states of FLVCRs and unravelled the coordination chemistry underlying their substrate intera

218 porphyrin arrays has been studied via their coordination chemistry using bidentate and tetradentate

219 Most likely its unique coordination chemistry was a decisive factor as it makes

220 ability of 2 also as a Lewis basic ligand in coordination chemistry was demonstrated by the synthesis

221 By analogy to Tolman cone angles in cation coordination chemistry, we explore how to define and cor

222 a variant of the Ray-Dutt twist of classical coordination chemistry, which we call the pterin twist h

223 a3N site that can adopt an expanded range of coordination chemistries while maintaining redundancy in

224 trategies to modulate enzyme inhibition with coordination chemistry, while also highlighting the util

225 mine layer allowed binding to a metal ion by coordination chemistry, while the metal ion reacted afte

226 maceuticals that combine fundamental aqueous coordination chemistry with elucidation of pharmacokinet

227 Its coordination chemistry with Ln(3+) was thoroughly invest

228 Although acetylene has well-documented coordination chemistry with mononuclear transition metal

229 d we discuss how the rational combination of coordination chemistry with nanomedicine technology can

230 are strong Lewis acids, exploration of their coordination chemistry with neutral ligands has been lim

231 In this review we combine the use of coordination chemistry with the concepts of molecular ma

232 e type of metal-nodes involved and how their coordination chemistry with the linker molecules control

233 unique class of ligand systems show copious coordination chemistry with the main-group, transition,

234 Furthermore, Zn coordination chemistry within this fossil fur is closely

235 Alfred Werner defined the basics of coordination chemistry, work for which he was awarded th