ライフサイエンスコーパス: chemical industry

1 l waste incinerators, landfill leachate, and chemical industry).

2 easy to functionalise building blocks in the chemical industry.

3 al gas and crude oil, the feedstocks for the chemical industry.

4 zed catalytic processes in the fine and bulk chemical industry.

5 sical adsorption is a great challenge in the chemical industry.

6 eavy-duty and marine transportation, and the chemical industry.

7 anted for transitioning toward a sustainable chemical industry.

8 MTM), a reaction central to the contemporary chemical industry.

9 nt feedstocks and platform molecules for the chemical industry.

10 Methanol is a key building block in the chemical industry.

11 Methanol is a key building block of the chemical industry.

12 gy source and an important feedstock for the chemical industry.

13 ssential and energy-intensive process in the chemical industry.

14 essential to a plethora of processes in the chemical industry.

15 ly advance bioengineering, medicine, and the chemical industry.

16 ilding block would enable a more sustainable chemical industry.

17 en heterocycles is an important goal for the chemical industry.

18 ask and marks an important transition in the chemical industry.

19 mical production and enable a methanol-based chemical industry.

20 trial catalyst for low-carbon energy and the chemical industry.

21 possibility of sustainable production in the chemical industry.

22 pread adoption of photochemical steps in the chemical industry.

23 he development of cleaner and more efficient chemical industry.

24 ould be a crucial component of a sustainable chemical industry.

25 a crucial and challenging separation in the chemical industry.

26 es have found tremendous applications in the chemical industry.

27 arbonylation reactions of high importance to chemical industry.

28 take, and is a major driver in the renewable chemical industry.

29 nd bromine, which play critical roles in the chemical industry.

30 reactor which is applicable for large-scale chemical industry.

31 e analogues and has important utility in the chemical industry.

32 d and abundant catalysts and sorbents in the chemical industry.

33 oming increasingly important for sustainable chemical industry.

34 tial to be a game-changing technology in the chemical industry.

35 tions allows for process optimization in the chemical industry.

36 n appreciable portion of wastewater from the chemical industry.

37 cles represent a crucial type of reaction in chemical industry.

38 e building blocks in medicinal chemistry and chemical industry.

39 geneous catalysts play a pivotal role in the chemical industry.

40 s, and step changes in the infrastructure of chemical industry.

41 sulted from electroplating, tanning, and the chemical industry.

42 Phenols are important compounds in chemical industry.

43 erials is essential for future growth of the chemical industry.

44 ed alkanes have numerous applications in the chemical industry.

45 a larger part of the biofuels and renewable chemical industry.

46 to play in the design of a more sustainable chemical industry.

47 ng the most important building blocks in the chemical industry.

48 erogeneous catalysts remains critical to the chemical industry.

49 uels and feedstock molecules relevant to the chemical industry.

50 remely high demand in nearly every sector of chemical industry.

51 g to meet the increasing demands of the oleo-chemical industry.

52 organic and biochemical reactions and in the chemical industry.

53 hem is of interest to the pharmaceutical and chemical industries.

54 rtant materials across the broad spectrum of chemical industries.

55 most controversial challenges in the oil and chemical industries.

56 e the dependence on fossil energy sources in chemical industries.

57 ynthons for the pharmaceutical, polymer, and chemical industries.

58 n the pharmaceutical, agricultural, food and chemical industries.

59 catalysts could have huge ramifications for chemical industries.

60 easingly prevalent in the pharmaceutical and chemical industries.

61 eve net zero greenhouse gas emissions in the chemical industries.

62 importance in the food, pharmaceutical, and chemical industries.

63 ounds is an important target for sustainable chemical industries.

64 ein purification in pharmaceutical and other chemical industries.

65 for applications in both pharmaceutical and chemical industries.

66 ceutical, food processing, cosmetic and fine chemical industries.

67 widely used in the food, pharmaceutical, and chemical industries.

68 useful ingredients obtention to the food and chemical industries.

69 has emerged as a vital feedstock in diverse chemical industries.

70 nthesis of pure chiral molecules in the fine chemical industries.

71 ction, especially in wastewater from related chemical industries.

72 challenge facing the pharmaceutical and fine chemical industries.

73 as a raw material for a renewable energy and chemical industries.

74 re in great demand by the pharmaceutical and chemical industries.

75 important processes in the petroleum and the chemical industries.

76 , especially in the pharmaceutical, food and chemical industries.

77 easingly important in the pharmaceutical and chemical industries.

78 to the food, paper, petroleum refining, and chemicals industries.

79 in the petrochemical, polymer and speciality chemical industries(1).

80 esired, especially in the pharmaceutical and chemical industries(1-6).

81 strogens tamoxifen, raloxifene, and Imperial Chemical Industries 164384 were potent transcriptional a

82 scenarios-for example, teaching about local chemical industries and their impact on the environment.

83 100 million tons of ammonia annually for the chemical industry and agriculture, it requires high temp

84 atinum catalysts are extensively used in the chemical industry and as electrocatalysts in fuel cells.

85 oves to rapidly emerging applications in the chemical industry and discusses future research directio

86 organic solvents is highly important for the chemical industry and environmental protection.

87 s larger molecules are in demand in the fine chemical industry and for the oil processing on which th

88 oncepts and to achieve sustainability in the chemical industry and in other aspects of our everyday l

89 tchments of major Swiss rivers revealed that chemical industry and municipal waste incinerators are t

90 for heterogeneous catalytic reactions in the chemical industry and our transition to sustainable ener

91 n has an enormous role to play in the modern chemical industry and the world of global economics, to

92 N2 reduction to NH3 is essential to the chemical industry and to the Earth's nitrogen cycle.

93 lysts needed by the pharmaceutical, food and chemicals industries and should open up new opportunitie

94 ding biomedicine, agriculture, biotechnology/chemical industry, and cleaning utensils.

95 hich appear in alpha-olefins produced by the chemical industry, and they appear in the products of ma

96 The pharmaceutical and fine chemical industries are eager to strive toward innovativ

97 The demands of a sustainable chemical industry are a driving force for the developmen

98 ion benefits in the context of future energy/chemical industry are becoming recognized.

99 ased compounds currently manufactured by the chemical industry are derived from petroleum.

100 These building blocks of chemical industry are elaborated into esters, amides, an

101 Zeolites, having widespread applications in chemical industries, are often synthesized using organic

102 ethers, which are widely used throughout the chemical industry, are typically produced via the Willia

103 As a class of key building blocks in the chemical industry, aromatic compounds are mainly derived

104 ic compound that are widely exploited in the chemical industry as catalysts and catalyst supports.

105 wastes produced in mining and the phosphorus chemical industry as construction materials.

106 hale gas deposits, the use of methane in the chemical industry as feedstock from a synthetic point of

107 ore MFI-type zeolites are widely used in the chemical industry as selective catalysts or adsorbents.

108 It can be applied in an online format in the chemical industry as well as for fuel quality control, b

109 rming is environmentally crucial and for the chemical industry as well.

110 3 (sufugolix; developed previously by Takeda Chemical Industries) as a tool to elucidate the mechanis

111 reaction is of paramount importance for the chemical industry, as it constitutes, coupled with metha

112 intaining the current competitiveness of the chemical industry, as well as tackling our most pressing

113 l to reduce carbon emissions by shifting the chemical industry away from fossil fuel dependence.

114 ideal for use in asymmetric catalysis by the chemical industry, because their chemical compositions c

115 In both the manufacturing and chemical industries, benzoquinone is a crucial chemical

116 is of utmost importance in refinery and fine chemical industries, but heavily relies on the hydrocarb

117 ve accurate metabolite identification in the chemical industry, but this method has not been applied

118 Organic electrosynthesis can transform the chemical industry by introducing electricity-driven proc

119 shift (RWGS) reaction, a key process in the chemical industry, by precisely constructing catalysts f

120 t (RWGS) reaction is a key technology of the chemical industry, central to the emerging circular carb

121 in the context of the electrification of the chemical industry combined with the utilization of renew

122 As the chemical industry continues to produce considerable quan

123 Both the global steel and chemical industries contribute largely to industrial gre

124 decarbonization of the energy sector and the chemical industry could become a reality by a massive in

125 hese other demands are satisfied, CCU in the chemical industry could efficiently contribute to climat

126 C(2)H(4)), the largest-volume product of the chemical industry, currently involves energy-intensive p

127 ilized as adsorbents for this purpose in the chemical industry despite suboptimal separation performa

128 Therefore, the chemical industry disaster risks for Eastern Ukraine dur

129 ises, and other severe consequences, such as chemical industry disasters.

130 nd carbon dioxide (CO(2)) is critical in the chemical industry, driven by the increasing demand for h

131 Amines are key intermediates in the chemical industry due to their nucleophilic characterist

132 3-butadiene derivatives, are integral to the chemical industry due to their widespread applications.

133 ticle size metrology challenges faced by the chemical industry due to these emerging number percent c

134 eduction in greenhouse gas emissions: global chemical industry emissions can be reduced by up to 39%

135 utrition and biomedicine, as well as for the chemical industry, energy production and agriculture.

136 aches to methane-based alternative fuels and chemical industry feedstocks.

137 es are important structural moieties in many chemical industry fields.

138 group metals have been a major focus of the chemical industry for decades.

139 Hydrogenation of esters is vital to the chemical industry for the production of alcohols, especi

140 not only plays a crucial role in the current chemical industry for the production of key intermediate

141 Acid anhydrides are valuable in the chemical industry for their role in synthesizing polymer

142 nderstanding of biocatalysts, can change the chemical industry from being dependent on fossil-carbon

143 est in renewable resources by the energy and chemical industries has spurred new technologies both to

144 n the pharmaceutical, agrochemical, and fine chemical industries in the preparation of selectively su

145 problems and compromise the viability of the chemical industry in an environment of price volatility

146 0% of our energy needs and feedstocks of the chemical industry in combination with reduced emission o

147 s hazard, vulnerability, and exposure of the chemical industry in Eastern Ukraine in Donetsk Oblast a

148 minopyridines are valuable scaffolds for the chemical industry in general, from life sciences to cata

149 ents expected to be used increasingly by the chemical industry in the coming years.

150 cted in an area with a large presence of the chemical industry included in the LED-FERTYL Spanish stu

151 ability metrics that could be applied to the chemical industry (individual set of sustainability indi

152 By coupling the global steel and chemical industry, industrial GHG emissions can be reduc

153 The chemical industry is a major consumer of fossil fuels.

154 The chemical industry is currently reliant on a historically

155 The chemical industry is dependent on the olefin/paraffin se

156 The chemical industry is exploring the use of renewable feed

157 The chemical industry is gradually shifting from fossil-deri

158 The chemical industry is one of the principal sectors of Ukr

159 rial recycling as an input into the food and chemical industries; (iv) nutrient recycling; and (v) en

160 potential as a raw material for the fuel and chemical industries, lignin remains the most poorly util

161 droxylated fatty acids (HFA) are used in the chemical industry (lubricants, paints, polymers, cosmeti

162 neous catalysis, which is widely used in the chemical industry, makes a great use of supported late-t

163 In the chemical industry, molecules of interest are based prima

164 d post-synthetic modification applied by the chemical industry not only to alter its hydrothermal sta

165 specifically to match the needs of the fine chemicals industry, not only in terms of functional grou

166 Here we discuss the potential impact on the chemical industry of shifting from non-renewable carbon

167 ogen production is of key importance for the chemical industry of the future.

168 While the chemical industry often releases GHGs as direct process

169 enge that can drastically change the way the chemical industry or chemical research operates.

170 rocycles are valuable motifs across numerous chemical industries, perhaps most notably in small molec

171 The chemical industry plays a key role in sustaining the wor

172 More than 85 per cent of all chemical industry products are made using catalysts, the

173 Biobased chemicals, crucial for the net-zero chemical industry, rely on lignocellulose residues as a

174 H(2)O(2), a future green "dream" process for chemical industry, remain poorly understood.

175 , one of the most important processes of the chemical industry, remains elusive and a matter of debat

176 The chemical industry requires a transformation towards more

177 The immense production of the chemical industry requires an improved predictive risk a

178 to the shale gas boom is affecting the U.S. chemical industry's energy and greenhouse gas (GHG) emis

179 ing into derivatives and materials, the U.S. chemical industry sets the current standard of excellenc

180 lication property has been worked out in the chemical industry since decades and constitutes importan

181 ponents as well as key intermediates for the chemical industry, such as BTX, gasoline, light olefins,

182 orts CO(2)-based production processes in the chemical industry, supplying up to 30% of the required C

183 rity of reactions currently performed in the chemical industry take place in organic solvents, compou

184 aspect of improving energy efficiency in the chemical industry; thus, predictive models are of key im

185 or combined with well-known processes in the chemical industry to build up a catalytic system to dire

186 ystem with a large-scale linear model of the chemical industry to perform environmental optimization.

187 R-Ph3P(+) are used worldwide by the chemical industry to synthesize alkenes via the Wittig r

188 n these solvents is highly beneficial to the chemical industry, where polar aprotic solvents, such as

189 so-C(4)H(8)) is an important raw material in chemical industry, whereas its efficient separation rema

190 the war, especially from the metallurgic and chemical industry, which also led to a decrease in power

191 re, instrumentation, pharmaceutical and fine chemical industries will be vital to this development.

192 f cleaner energy technologies and a circular chemical industry will be discussed in detail.

193 The chemical industry will probably use biotechnology with e

194 torage or serving as a carbon source for the chemical industry-will be necessary to identify the opti

195 c halogen salts is in high demand in various chemical industries, yet the efficiency and selectivity

196 n is widely practised across all segments of chemical industry, yet its application to aryl halide re

197 oxycarbonylation reactions are common in the chemical industry, yet process sustainability is limited

198 t alkenes are central building blocks in the chemical industry, yet their production from alkanes req