Developments in Hydroxypropylation of Starch: A Review

Fu, Zhen; Zhang, Lu; Ren, Minhong; BeMiller, James N.

doi:10.1002/star.201800167

Cited by 52 publications

(39 citation statements)

References 112 publications

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“…Enzymatic modification by pullulanase, an enzyme that cleaves (1,6)-α-D glycosidic linkages, can also effectively change the amylopectin to amylose ratio (Abidin et al, 2018; Although most of these modification strategies involve fairly simple synthetic reaction steps, much attention has recently been focused on developing and optimizing processes for reactive extrusion of starch, opening the door for further commercialization of starch-based products (Fitch-Vargas et al, 2019;Fonseca-Florido et al, 2019;Jebalia et al, 2019;Kaisangsri, Kowalski, Kerdchoechuen, Laohakunjit, & Ganjyal, 2019;Liu et al, 2019;Milotskyi, Bliard, Tusseau, & Benoit, 2018;Nessi et al, 2019;Siyamak, Laycock, & Luckman, 2020;Tian, Zhang, Sun, Jin, & Wu, 2015;Ye et al, 2019). Although chemical modification of starch typically diminishes the mechanical properties of the resultant films by causing less efficient polymer packing and subsequent decreases in film crystallinity, modified films can exhibit some improvements in some mechanical properties (Table 2, entries 40 and 41) as well as oftentimes leading to better barrier properties or increased compatibilization with additives that can offset the decrease in properties (Table 2, entries 10 and 38) or can endow the film with additional function while decreasing the potential for retrogradation (Colussi et al, 2017;Fu et al, 2019). Outcomes largely depend on the modification type, the extent of modification (which also depends on the starch type as amylose is more reactive to most modification strategies compared to amylopectin), and other components in the film formulation.…”

Section: Modification Strategiesmentioning

confidence: 99%

“…One common method involves the use of (3‐chloro‐2‐hydroxypropyl)trimethylammonium chloride (CHPTAC) (Figure 4b) (Bayat Tork, Khalilzadeh, & Kouchakzadeh, 2017; Butrim, Bil'dyukevich, Butrim, & Yurkshtovich, 2016; Huang et al., 2019). Some other strategies that have been commonly applied to cellulose have also been applied to starch, to include carboxymethylation (Cai et al., 2019; Jiang et al., 2019; Li, Wu et al., 2019; Zhang, Pan et al., 2017; Zhang, Chi et al., 2017; Zhang, Tao, Niu, Li, & Chen, 2017), hydroxypropylation (Fang, Fu, Tao, Liu, & Cui, 2020; Fu, Zhang, Ren, & BeMiller, 2019; Hu, Jia, Zhi, Jin, & Miao, 2019; Shaikh, Ali Tahira, Hasnain, & Haider, 2019) (Figure 4c), and oxidation (Li et al., 2020; Wang et al., 2015; Zhang, Ding, Gu, Tan, & Zhu, 2015; Zhao et al., 2015). Oxidation of C6 hydroxyl groups with catalytic TEMPO and bleach can be accomplished in a facile and environmentally friendly route in aqueous media (Figure 4d).…”

Section: Modification Strategiesmentioning

confidence: 99%

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Recent advances in starch‐based films toward food packaging applications: Physicochemical, mechanical, and functional properties

Lauer

Smith

2020

Comp Rev Food Sci Food Safe

112

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Interest in starch-based films has increased precipitously in response to a growing demand for more sustainable and environmentally sourced food packaging materials. Starch is an optimal candidate for these applications given its ability to form thermoplastic materials and films with affordable and often sustainably sourced plasticizers like those produced as waste byproducts by biodiesel and agricultural industries. Starch is also globally ubiquitous, affordable, and environmentally benign. Although the process of producing starch films is relatively straightforward, numerous factors, including starch source, extraction method, film formulation, processing methods, and curing procedures, drastically impact the ultimate material properties. The significant strides made from 2015 to early 2020 toward elucidating how these variables can be leveraged to improve mechanical and barrier properties as well as the implementation of various additives or procedural modifications are cataloged in this review. Advances toward the development of functional films containing antioxidant, antibacterial, or spoilage indicating components to prevent or signal the degradation of food products are also discussed.

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Section: Modification Strategiesmentioning

confidence: 99%

Section: Modification Strategiesmentioning

confidence: 99%

Recent advances in starch‐based films toward food packaging applications: Physicochemical, mechanical, and functional properties

Lauer

Smith

2020

Comp Rev Food Sci Food Safe

112

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“…The content of hydroxypropyl groups (HPs) in the starch was calculated from the standard curve using propylene glycol standard solution. The degree of substitution (DS) was calculated by converting the HP results ( Johnson, 1969 ; Fu et al, 2019 ).…”

Section: Methodsmentioning

confidence: 99%

Physicochemical Properties of Hydroxypropylated Apios Starches

Park

Kim

2020

pnf

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Apios ( Apios americana Medikus), also called the potato bean, Indian potato, or groundnut, belongs to the legume family, and is widely distributed across eastern North America. Apios starch was hydroxypropylated, and its physicochemical and structural characteristics were investigated in this study. The starch was extracted by alkali precipitation method, and hydroxypropylated apios starch (HPAS) was prepared using propylene oxide at concentrations of 2.5, 5, 7.5, and 10% (v/w). X-ray diffraction of native apios starch and HPAS revealed the presence of the typical ‘A’ type of cereal starch. Additionally, the hydroxypropylation affects the relative crystallinity of the starch. The swelling power and solubility of apios starch increased after hydroxypropylation. Gelatinization parameters were obtained using differential scanning calorimetry. The gelatinization temperature of native starch is 69°C, whereas that of HPAS-10% is 52.94°C. This suggests that HPAS is suitable for preparing food items requiring enhanced gelatinization.

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“…[ 4,5 ] A comprehensive review was recently given by Fu et al. [ 6 ] The granular state of the starch and the semicrystalline structure and its type are generally preserved, and the molecular size being basically not reduced during HP is commonly accepted. [ 6 ] However, the reliable determination of the molecular composition of HP starches is very challenging and sophisticated, and the impact of the HP on the molecular starch structure strongly depending on the starch type was evidently shown recently.…”

Section: Introductionmentioning

confidence: 99%

Modification of Starches with Different Amylose/Amylopectin Ratios Using the Dual Approach with Hydroxypropylation and Subsequent Acid‐Thinning: II. Impacts on Gelatinization and Solution Properties

Ulbrich

Flöter

2020

Starch Stärke

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Starches with different amylose (AM)/amylopectin (AP) ratios (waxy potato: WxPS; regular potato: PS; high AM corn: HACS) are hydroxypropylated (HP, two levels) and subsequently acid‐thinned (AT) to produce dual‐modified samples. The physicochemical characteristics and techno‐functional properties of the solutions are investigated, and the data are evaluated statistically (analysis of variance). Differential scanning calorimetry gelatinization experiments reveal a reduction of the transition temperatures particularly due to HP. The subsequent AT decreases the specific enthalpy significantly. HACS samples have lower solubility (S) compared to their potato‐based counterparts (WxPS and PS), but HP enhances the starch's S. The S of the AP of the HACS samples is comparatively high, and HP particularly facilitates the additional solubilization of AM. Dual‐modified samples show characteristics of S similar to the corresponding HP samples. Or particular note, the HP‐modified WxPS and PS, respectively, tend to cause molecular degradation of the polymers dissolved. The hot paste viscosity is impacted significantly by all varied factors.

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Developments in Hydroxypropylation of Starch: A Review

Cited by 52 publications

References 112 publications

Recent advances in starch‐based films toward food packaging applications: Physicochemical, mechanical, and functional properties

Recent advances in starch‐based films toward food packaging applications: Physicochemical, mechanical, and functional properties

Physicochemical Properties of Hydroxypropylated Apios Starches

Modification of Starches with Different Amylose/Amylopectin Ratios Using the Dual Approach with Hydroxypropylation and Subsequent Acid‐Thinning: II. Impacts on Gelatinization and Solution Properties

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